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Volumn 26, Issue 10, 2016, Pages 745-755

Microenvironmental Control of Adipocyte Fate and Function

Author keywords

adipose development; biomechanics; extracellular matrix; metabolic disease; signal transduction; tissue engineering.

Indexed keywords

ADIPOCYTE; ADIPOSE TISSUE; CELL FATE; CELL FUNCTION; CELL INTERACTION; CYTOARCHITECTURE; EXTRACELLULAR MATRIX; HUMAN; LIPID STORAGE; MECHANOTRANSDUCTION; NONHUMAN; PRIORITY JOURNAL; REVIEW; TISSUE EXPANSION; ANCHORING JUNCTION; ANIMAL; CELL LINEAGE; CYTOLOGY; DISEASES; METABOLISM; TUMOR MICROENVIRONMENT;

EID: 84971673831     PISSN: 09628924     EISSN: 18793088     Source Type: Journal    
DOI: 10.1016/j.tcb.2016.05.005     Document Type: Review
Times cited : (86)

References (144)
  • 1
    • 0031660868 scopus 로고    scopus 로고
    • Clinical guidelines on the identification, evaluation, and treatment of overweight and obesity in adults: executive summary. Expert Panel on the Identification, Evaluation, and Treatment of Overweight in Adults
    • 1 Pi-Sunyer, F.X., et al. Clinical guidelines on the identification, evaluation, and treatment of overweight and obesity in adults: executive summary. Expert Panel on the Identification, Evaluation, and Treatment of Overweight in Adults. Am. J. Clin. Nutr. 68 (1998), 899–917.
    • (1998) Am. J. Clin. Nutr. , vol.68 , pp. 899-917
    • Pi-Sunyer, F.X.1
  • 2
    • 84878525220 scopus 로고    scopus 로고
    • Bi-directional interconversion of brite and white adipocytes
    • 2 Rosenwald, M., et al. Bi-directional interconversion of brite and white adipocytes. Nat. Cell Biol. 15 (2013), 659–667.
    • (2013) Nat. Cell Biol. , vol.15 , pp. 659-667
    • Rosenwald, M.1
  • 3
    • 84925857018 scopus 로고    scopus 로고
    • White-to-brown metabolic conversion of human adipocytes by JAK inhibition
    • 3 Moisan, A., et al. White-to-brown metabolic conversion of human adipocytes by JAK inhibition. Nat. Cell Biol. 17 (2015), 57–67.
    • (2015) Nat. Cell Biol. , vol.17 , pp. 57-67
    • Moisan, A.1
  • 4
    • 0020359244 scopus 로고
    • Exclusive occurrence of thermogenin antigen in brown adipose tissue
    • 4 Cannon, B., et al. Exclusive occurrence of thermogenin antigen in brown adipose tissue. FEBS Lett. 150 (1982), 129–132.
    • (1982) FEBS Lett. , vol.150 , pp. 129-132
    • Cannon, B.1
  • 5
    • 0000452512 scopus 로고
    • Non-shivering thermogenesis and brown adipose tissue in the human new-born infant
    • 5 Dawkins, M.J., Scopes, J.W., Non-shivering thermogenesis and brown adipose tissue in the human new-born infant. Nature 206 (1965), 201–202.
    • (1965) Nature , vol.206 , pp. 201-202
    • Dawkins, M.J.1    Scopes, J.W.2
  • 6
    • 67650242165 scopus 로고    scopus 로고
    • High incidence of metabolically active brown adipose tissue in healthy adult humans: effects of cold exposure and adiposity
    • 6 Saito, M., et al. High incidence of metabolically active brown adipose tissue in healthy adult humans: effects of cold exposure and adiposity. Diabetes 58 (2009), 1526–1531.
    • (2009) Diabetes , vol.58 , pp. 1526-1531
    • Saito, M.1
  • 7
    • 84862564234 scopus 로고    scopus 로고
    • The secretion pattern of perivascular fat cells is different from that of subcutaneous and visceral fat cells
    • 7 Rittig, K., et al. The secretion pattern of perivascular fat cells is different from that of subcutaneous and visceral fat cells. Diabetologia 55 (2012), 1514–1525.
    • (2012) Diabetologia , vol.55 , pp. 1514-1525
    • Rittig, K.1
  • 8
    • 33846456616 scopus 로고    scopus 로고
    • Elevated blood pressure in transgenic lipoatrophic mice and altered vascular function
    • 8 Takemori, K., et al. Elevated blood pressure in transgenic lipoatrophic mice and altered vascular function. Hypertension 49 (2007), 365–372.
    • (2007) Hypertension , vol.49 , pp. 365-372
    • Takemori, K.1
  • 9
    • 84865489581 scopus 로고    scopus 로고
    • Loss of perivascular adipose tissue on peroxisome proliferator-activated receptor-γ deletion in smooth muscle cells impairs intravascular thermoregulation and enhances atherosclerosis
    • 9 Chang, L., et al. Loss of perivascular adipose tissue on peroxisome proliferator-activated receptor-γ deletion in smooth muscle cells impairs intravascular thermoregulation and enhances atherosclerosis. Circulation 126 (2012), 1067–1078.
    • (2012) Circulation , vol.126 , pp. 1067-1078
    • Chang, L.1
  • 10
    • 72449191699 scopus 로고    scopus 로고
    • Adipose tissue as an endocrine organ
    • 10 Galic, S., et al. Adipose tissue as an endocrine organ. Mol. Cell. Endocrinol. 316 (2010), 129–139.
    • (2010) Mol. Cell. Endocrinol. , vol.316 , pp. 129-139
    • Galic, S.1
  • 11
    • 84928702835 scopus 로고    scopus 로고
    • The brown fat secretome: metabolic functions beyond thermogenesis
    • 11 Wang, G.-X., et al. The brown fat secretome: metabolic functions beyond thermogenesis. Trends Endocrinol. Metab. 26 (2015), 231–237.
    • (2015) Trends Endocrinol. Metab. , vol.26 , pp. 231-237
    • Wang, G.-X.1
  • 12
    • 0036889224 scopus 로고    scopus 로고
    • Material properties of the human calcaneal fat pad in compression: experiment and theory
    • 12 Miller-Young, J.E., et al. Material properties of the human calcaneal fat pad in compression: experiment and theory. J. Biomech. 35 (2002), 1523–1531.
    • (2002) J. Biomech. , vol.35 , pp. 1523-1531
    • Miller-Young, J.E.1
  • 13
    • 33947385833 scopus 로고    scopus 로고
    • Human cold adaptation: an unfinished agenda
    • 13 Steegmann, A.T., Human cold adaptation: an unfinished agenda. Am. J. Hum. Biol. 19 (2007), 218–227.
    • (2007) Am. J. Hum. Biol. , vol.19 , pp. 218-227
    • Steegmann, A.T.1
  • 14
    • 83555177231 scopus 로고    scopus 로고
    • Mechanotransduction in adipocytes
    • 14 Shoham, N., Gefen, A., Mechanotransduction in adipocytes. J. Biomech. 45 (2012), 1–8.
    • (2012) J. Biomech. , vol.45 , pp. 1-8
    • Shoham, N.1    Gefen, A.2
  • 16
    • 84861039296 scopus 로고    scopus 로고
    • Regulation of adipose tissue energy availability through blood flow control in the metabolic syndrome
    • 16 Alemany, M., Regulation of adipose tissue energy availability through blood flow control in the metabolic syndrome. Free Radic. Biol. Med. 52 (2012), 2108–2119.
    • (2012) Free Radic. Biol. Med. , vol.52 , pp. 2108-2119
    • Alemany, M.1
  • 17
    • 84937521820 scopus 로고    scopus 로고
    • The extracellular matrix and insulin resistance
    • 17 Williams, A.S., et al. The extracellular matrix and insulin resistance. Trends Endocrinol. Metab. 26 (2015), 357–366.
    • (2015) Trends Endocrinol. Metab. , vol.26 , pp. 357-366
    • Williams, A.S.1
  • 18
    • 84857658525 scopus 로고    scopus 로고
    • Developmental origins of the adipocyte lineage: new insights from genetics and genomics studies
    • 18 Billon, N., Dani, C., Developmental origins of the adipocyte lineage: new insights from genetics and genomics studies. Stem Cell Rev. 8 (2012), 55–66.
    • (2012) Stem Cell Rev. , vol.8 , pp. 55-66
    • Billon, N.1    Dani, C.2
  • 19
    • 84891867283 scopus 로고    scopus 로고
    • Weighing in on adipocyte precursors
    • 19 Berry, R., et al. Weighing in on adipocyte precursors. Cell Metab. 19 (2014), 8–20.
    • (2014) Cell Metab. , vol.19 , pp. 8-20
    • Berry, R.1
  • 20
    • 84903127498 scopus 로고    scopus 로고
    • Adipocytes arise from multiple lineages that are heterogeneously and dynamically distributed
    • 20 Sanchez-Gurmaches, J., Guertin, D.A., Adipocytes arise from multiple lineages that are heterogeneously and dynamically distributed. Nat. Commun., 5, 2014, 4099.
    • (2014) Nat. Commun. , vol.5 , pp. 4099
    • Sanchez-Gurmaches, J.1    Guertin, D.A.2
  • 21
    • 50049122271 scopus 로고    scopus 로고
    • PRDM16 controls a brown fat/skeletal muscle switch
    • 21 Seale, P., et al. PRDM16 controls a brown fat/skeletal muscle switch. Nature 454 (2008), 961–967.
    • (2008) Nature , vol.454 , pp. 961-967
    • Seale, P.1
  • 22
    • 84957952804 scopus 로고    scopus 로고
    • Pdgfrβ+ mural preadipocytes contribute to adipocyte hyperplasia induced by high-fat-diet feeding and prolonged cold exposure in adult mice
    • 22 Vishvanath, L., et al. Pdgfrβ+ mural preadipocytes contribute to adipocyte hyperplasia induced by high-fat-diet feeding and prolonged cold exposure in adult mice. Cell Metab. 23 (2016), 350–359.
    • (2016) Cell Metab. , vol.23 , pp. 350-359
    • Vishvanath, L.1
  • 23
    • 0020527898 scopus 로고
    • Growth and development of human adipose tissue during early gestation
    • 23 Poissonnet, C.M., et al. Growth and development of human adipose tissue during early gestation. Early Hum. Dev. 8 (1983), 1–11.
    • (1983) Early Hum. Dev. , vol.8 , pp. 1-11
    • Poissonnet, C.M.1
  • 24
    • 0016785875 scopus 로고
    • Size of adipose cells in infancy
    • 24 Dauncey, M.J., Gairdner, D., Size of adipose cells in infancy. Arch. Dis. Child. 50 (1975), 286–290.
    • (1975) Arch. Dis. Child. , vol.50 , pp. 286-290
    • Dauncey, M.J.1    Gairdner, D.2
  • 25
    • 0023600112 scopus 로고
    • Adrenergic innervation of fetal pig adipose tissue. Histochemical and ultrastructural studies
    • 25 Hausman, G.J., Richardson, R.L., Adrenergic innervation of fetal pig adipose tissue. Histochemical and ultrastructural studies. Acta Anat. (Basel) 130 (1987), 291–297.
    • (1987) Acta Anat. (Basel) , vol.130 , pp. 291-297
    • Hausman, G.J.1    Richardson, R.L.2
  • 26
    • 84874817050 scopus 로고    scopus 로고
    • Marrow fat and bone—new perspectives
    • 26 Fazeli, P.K., et al. Marrow fat and bone—new perspectives. J. Clin. Endocrinol. Metab. 98 (2013), 935–945.
    • (2013) J. Clin. Endocrinol. Metab. , vol.98 , pp. 935-945
    • Fazeli, P.K.1
  • 27
    • 84872144478 scopus 로고    scopus 로고
    • Adipose tissue heterogeneity: implication of depot differences in adipose tissue for obesity complications
    • 27 Lee, M.-J., et al. Adipose tissue heterogeneity: implication of depot differences in adipose tissue for obesity complications. Mol. Aspects Med. 34 (2013), 1–11.
    • (2013) Mol. Aspects Med. , vol.34 , pp. 1-11
    • Lee, M.-J.1
  • 28
    • 84892727198 scopus 로고    scopus 로고
    • What we talk about when we talk about fat
    • 28 Rosen, E.D., Spiegelman, B.M., What we talk about when we talk about fat. Cell 156 (2014), 20–44.
    • (2014) Cell , vol.156 , pp. 20-44
    • Rosen, E.D.1    Spiegelman, B.M.2
  • 29
    • 79251621147 scopus 로고    scopus 로고
    • Injectable hydrogel scaffold from decellularized human lipoaspirate
    • 29 Young, D.A., et al. Injectable hydrogel scaffold from decellularized human lipoaspirate. Acta Biomater. 7 (2011), 1040–1049.
    • (2011) Acta Biomater. , vol.7 , pp. 1040-1049
    • Young, D.A.1
  • 30
    • 84922333220 scopus 로고    scopus 로고
    • Remodelling the extracellular matrix in development and disease
    • 30 Bonnans, C., et al. Remodelling the extracellular matrix in development and disease. Nat. Rev. Mol. Cell Biol. 15 (2014), 786–801.
    • (2014) Nat. Rev. Mol. Cell Biol. , vol.15 , pp. 786-801
    • Bonnans, C.1
  • 31
    • 72449180818 scopus 로고    scopus 로고
    • Integrins
    • 31 Barczyk, M., et al. Integrins. Cell Tissue Res. 339 (2010), 269–280.
    • (2010) Cell Tissue Res. , vol.339 , pp. 269-280
    • Barczyk, M.1
  • 32
    • 27744464555 scopus 로고    scopus 로고
    • Changes in integrin expression during adipocyte differentiation
    • 32 Liu, J., et al. Changes in integrin expression during adipocyte differentiation. Cell Metab. 2 (2005), 165–177.
    • (2005) Cell Metab. , vol.2 , pp. 165-177
    • Liu, J.1
  • 33
    • 84887373594 scopus 로고    scopus 로고
    • Laminin production and basement membrane deposition by mesenchymal stem cells upon adipogenic differentiation
    • 33 Noro, A., et al. Laminin production and basement membrane deposition by mesenchymal stem cells upon adipogenic differentiation. J. Histochem. Cytochem. 61 (2013), 719–730.
    • (2013) J. Histochem. Cytochem. , vol.61 , pp. 719-730
    • Noro, A.1
  • 34
    • 1842426730 scopus 로고    scopus 로고
    • Cell shape, cytoskeletal tension, and RhoA regulate stem cell lineage commitment
    • 34 McBeath, R., et al. Cell shape, cytoskeletal tension, and RhoA regulate stem cell lineage commitment. Dev. Cell 6 (2004), 483–495.
    • (2004) Dev. Cell , vol.6 , pp. 483-495
    • McBeath, R.1
  • 35
    • 0037164867 scopus 로고    scopus 로고
    • The fibronectin-binding integrins alpha5beta1 and alphavbeta3 differentially modulate RhoA-GTP loading, organization of cell matrix adhesions, and fibronectin fibrillogenesis
    • 35 Danen, E.H.J., et al. The fibronectin-binding integrins alpha5beta1 and alphavbeta3 differentially modulate RhoA-GTP loading, organization of cell matrix adhesions, and fibronectin fibrillogenesis. J. Cell Biol. 159 (2002), 1071–1086.
    • (2002) J. Cell Biol. , vol.159 , pp. 1071-1086
    • Danen, E.H.J.1
  • 36
    • 59449099155 scopus 로고    scopus 로고
    • SPARC inhibits adipogenesis by its enhancement of β-catenin signaling
    • 36 Nie, J., Sage, E.H., SPARC inhibits adipogenesis by its enhancement of β-catenin signaling. J. Biol. Chem. 284 (2009), 1279–1290.
    • (2009) J. Biol. Chem. , vol.284 , pp. 1279-1290
    • Nie, J.1    Sage, E.H.2
  • 37
    • 84978973784 scopus 로고    scopus 로고
    • Inhibition of FAK signaling by integrin α6β1 supports human pluripotent stem cell self-renewal: integrin-FAK involvement in self-renewal of hPSCs
    • Published online March 1, 2016.
    • 37 Villa-Diaz, L.G., et al. Inhibition of FAK signaling by integrin α6β1 supports human pluripotent stem cell self-renewal: integrin-FAK involvement in self-renewal of hPSCs. Stem Cells., 2016 Published online March 1, 2016. http://dx.doi.org/10.1002/stem.2349.
    • (2016) Stem Cells.
    • Villa-Diaz, L.G.1
  • 38
    • 84960123093 scopus 로고    scopus 로고
    • Tetraspanin CD151 and integrin α6β1 mediate platelet-enhanced endothelial colony forming cell angiogenesis
    • 38 Huang, Z., et al. Tetraspanin CD151 and integrin α6β1 mediate platelet-enhanced endothelial colony forming cell angiogenesis. J. Thromb. Haemost. 14 (2016), 606–618.
    • (2016) J. Thromb. Haemost. , vol.14 , pp. 606-618
    • Huang, Z.1
  • 39
    • 0142088845 scopus 로고    scopus 로고
    • Adipocyte functions are modulated by cell size change: potential involvement of an integrin/ERK signalling pathway
    • 39 Farnier, C., et al. Adipocyte functions are modulated by cell size change: potential involvement of an integrin/ERK signalling pathway. Int. J. Obes. Relat. Metab. Disord. 27 (2003), 1178–1186.
    • (2003) Int. J. Obes. Relat. Metab. Disord. , vol.27 , pp. 1178-1186
    • Farnier, C.1
  • 40
    • 79955018827 scopus 로고    scopus 로고
    • Decellularized extracellular matrix derived from human adipose tissue as a potential scaffold for allograft tissue engineering
    • 40 Choi, J.S., et al. Decellularized extracellular matrix derived from human adipose tissue as a potential scaffold for allograft tissue engineering. J. Biomed. Mater. Res. A 97A (2011), 292–299.
    • (2011) J. Biomed. Mater. Res. A , vol.97 , pp. 292-299
    • Choi, J.S.1
  • 41
    • 84899460464 scopus 로고    scopus 로고
    • Decellularized adipose matrix hydrogels stimulate in vivo neovascularization and adipose formation
    • 41 Young, D.A., et al. Decellularized adipose matrix hydrogels stimulate in vivo neovascularization and adipose formation. J. Biomed. Mater. Res. A 102 (2014), 1641–1651.
    • (2014) J. Biomed. Mater. Res. A , vol.102 , pp. 1641-1651
    • Young, D.A.1
  • 42
    • 77950618036 scopus 로고    scopus 로고
    • Adipocyte extracellular matrix composition, dynamics and role in obesity
    • 42 Mariman, E.C.M., Wang, P., Adipocyte extracellular matrix composition, dynamics and role in obesity. Cell. Mol. Life Sci. 67 (2010), 1277–1292.
    • (2010) Cell. Mol. Life Sci. , vol.67 , pp. 1277-1292
    • Mariman, E.C.M.1    Wang, P.2
  • 43
    • 84909646886 scopus 로고    scopus 로고
    • Nutritional status evaluation in patients affected by Bethlem myopathy and Ullrich congenital muscular dystrophy
    • 43 Toni, S., et al. Nutritional status evaluation in patients affected by Bethlem myopathy and Ullrich congenital muscular dystrophy. Front. Aging Neurosci., 6, 2014, 315.
    • (2014) Front. Aging Neurosci. , vol.6 , pp. 315
    • Toni, S.1
  • 44
    • 33646139156 scopus 로고    scopus 로고
    • A pericellular collagenase directs the 3-dimensional development of white adipose tissue
    • 44 Chun, T.-H., et al. A pericellular collagenase directs the 3-dimensional development of white adipose tissue. Cell 125 (2006), 577–591.
    • (2006) Cell , vol.125 , pp. 577-591
    • Chun, T.-H.1
  • 45
    • 58649105336 scopus 로고    scopus 로고
    • Tissue inhibitor of metalloproteinase 3 deficiency causes hepatic steatosis and adipose tissue inflammation in mice
    • 45 Menghini, R., et al. Tissue inhibitor of metalloproteinase 3 deficiency causes hepatic steatosis and adipose tissue inflammation in mice. Gastroenterology 136 (2009), 663–672.
    • (2009) Gastroenterology , vol.136 , pp. 663-672
    • Menghini, R.1
  • 46
    • 77549088787 scopus 로고    scopus 로고
    • Mechanical behavior of human mesenchymal stem cells during adipogenic and osteogenic differentiation
    • 46 Yu, H., et al. Mechanical behavior of human mesenchymal stem cells during adipogenic and osteogenic differentiation. Biochem. Biophys. Res. Commun. 393 (2010), 150–155.
    • (2010) Biochem. Biophys. Res. Commun. , vol.393 , pp. 150-155
    • Yu, H.1
  • 47
    • 0021069981 scopus 로고
    • Fibronectin modulation of cell shape and lipogenic gene expression in 3T3-adipocytes
    • 47 Spiegelman, B.M., Ginty, C.A., Fibronectin modulation of cell shape and lipogenic gene expression in 3T3-adipocytes. Cell 35 (1983), 657–666.
    • (1983) Cell , vol.35 , pp. 657-666
    • Spiegelman, B.M.1    Ginty, C.A.2
  • 48
    • 84907016419 scopus 로고    scopus 로고
    • Regulation of MKL1 via actin cytoskeleton dynamics drives adipocyte differentiation
    • 48 Nobusue, H., et al. Regulation of MKL1 via actin cytoskeleton dynamics drives adipocyte differentiation. Nat. Commun., 5, 2014, 3368.
    • (2014) Nat. Commun. , vol.5 , pp. 3368
    • Nobusue, H.1
  • 49
    • 0023649685 scopus 로고
    • Rearrangement of the vimentin cytoskeleton during adipose conversion: formation of an intermediate filament cage around lipid globules
    • 49 Franke, W.W., et al. Rearrangement of the vimentin cytoskeleton during adipose conversion: formation of an intermediate filament cage around lipid globules. Cell 49 (1987), 131–141.
    • (1987) Cell , vol.49 , pp. 131-141
    • Franke, W.W.1
  • 50
    • 0020316861 scopus 로고
    • Decreases in tubulin and actin gene expression prior to morphological differentiation of 3T3 adipocytes
    • 50 Spiegelman, B.M., Farmer, S.R., Decreases in tubulin and actin gene expression prior to morphological differentiation of 3T3 adipocytes. Cell 29 (1982), 53–60.
    • (1982) Cell , vol.29 , pp. 53-60
    • Spiegelman, B.M.1    Farmer, S.R.2
  • 51
    • 84870327314 scopus 로고    scopus 로고
    • Effects of aspect ratios of stem cells on lineage commitments with and without induction media
    • 51 Yao, X., et al. Effects of aspect ratios of stem cells on lineage commitments with and without induction media. Biomaterials 34 (2013), 930–939.
    • (2013) Biomaterials , vol.34 , pp. 930-939
    • Yao, X.1
  • 52
    • 79959412787 scopus 로고    scopus 로고
    • Visceral adipocyte hypertrophy is associated with dyslipidemia independent of body composition and fat distribution in women
    • 52 Veilleux, A., et al. Visceral adipocyte hypertrophy is associated with dyslipidemia independent of body composition and fat distribution in women. Diabetes 60 (2011), 1504–1511.
    • (2011) Diabetes , vol.60 , pp. 1504-1511
    • Veilleux, A.1
  • 53
    • 84908386184 scopus 로고    scopus 로고
    • Adipocyte cell size, free fatty acids and apolipoproteins are associated with non-alcoholic liver injury progression in severely obese patients
    • 53 Wree, A., et al. Adipocyte cell size, free fatty acids and apolipoproteins are associated with non-alcoholic liver injury progression in severely obese patients. Metabolism 63 (2014), 1542–1552.
    • (2014) Metabolism , vol.63 , pp. 1542-1552
    • Wree, A.1
  • 54
    • 79960868478 scopus 로고    scopus 로고
    • Adipocyte hypertrophy, fatty liver and metabolic risk factors in South Asians: the Molecular Study of Health and Risk in Ethnic Groups (mol-SHARE)
    • 54 Anand, S.S., et al. Adipocyte hypertrophy, fatty liver and metabolic risk factors in South Asians: the Molecular Study of Health and Risk in Ethnic Groups (mol-SHARE). PLoS ONE, 6, 2011, e22112.
    • (2011) PLoS ONE , vol.6 , pp. e22112
    • Anand, S.S.1
  • 55
    • 84919445678 scopus 로고    scopus 로고
    • Adipocytes in both brown and white adipose tissue of adult mice are functionally connected via gap junctions: implications for Chagas disease
    • 55 Burke, S., et al. Adipocytes in both brown and white adipose tissue of adult mice are functionally connected via gap junctions: implications for Chagas disease. Microbes Infect. 16 (2014), 893–901.
    • (2014) Microbes Infect. , vol.16 , pp. 893-901
    • Burke, S.1
  • 56
    • 84864762777 scopus 로고    scopus 로고
    • Connexin 43 phosphorylation and degradation are required for adipogenesis
    • 56 Yeganeh, A., et al. Connexin 43 phosphorylation and degradation are required for adipogenesis. Biochim. Biophys. Acta 1823 (2012), 1731–1744.
    • (2012) Biochim. Biophys. Acta , vol.1823 , pp. 1731-1744
    • Yeganeh, A.1
  • 57
    • 0021928362 scopus 로고
    • Cyclic AMP effects on cell-to-cell junctional membrane permeability during adipocyte differentiation of 3T3-L1 fibroblasts
    • 57 Azarnia, R., Russell, T.R., Cyclic AMP effects on cell-to-cell junctional membrane permeability during adipocyte differentiation of 3T3-L1 fibroblasts. J. Cell Biol. 100 (1985), 265–269.
    • (1985) J. Cell Biol. , vol.100 , pp. 265-269
    • Azarnia, R.1    Russell, T.R.2
  • 58
    • 44849132591 scopus 로고    scopus 로고
    • Dynamics of fat cell turnover in humans
    • 58 Spalding, K.L., et al. Dynamics of fat cell turnover in humans. Nature 453 (2008), 783–787.
    • (2008) Nature , vol.453 , pp. 783-787
    • Spalding, K.L.1
  • 59
    • 17344390158 scopus 로고    scopus 로고
    • Plasma membrane channels formed by connexins: their regulation and functions
    • 59 Saez, J.C., et al. Plasma membrane channels formed by connexins: their regulation and functions. Physiol. Rev. 83 (2003), 1359–1400.
    • (2003) Physiol. Rev. , vol.83 , pp. 1359-1400
    • Saez, J.C.1
  • 60
    • 84896537140 scopus 로고    scopus 로고
    • Adipocyte stiffness increases with accumulation of lipid droplets
    • 60 Shoham, N., et al. Adipocyte stiffness increases with accumulation of lipid droplets. Biophys. J. 106 (2014), 1421–1431.
    • (2014) Biophys. J. , vol.106 , pp. 1421-1431
    • Shoham, N.1
  • 61
    • 70350009666 scopus 로고    scopus 로고
    • Extracellular matrix with the rigidity of adipose tissue helps 3T3-L1 adipocytes maintain insulin responsiveness
    • 61 Li, Q., et al. Extracellular matrix with the rigidity of adipose tissue helps 3T3-L1 adipocytes maintain insulin responsiveness. J. Med. Investig. 56 (2009), 142–149.
    • (2009) J. Med. Investig. , vol.56 , pp. 142-149
    • Li, Q.1
  • 62
    • 84855302039 scopus 로고    scopus 로고
    • Static mechanical stretching accelerates lipid production in 3T3-L1 adipocytes by activating the MEK signaling pathway
    • 62 Shoham, N., et al. Static mechanical stretching accelerates lipid production in 3T3-L1 adipocytes by activating the MEK signaling pathway. AJP Cell Physiol. 302 (2012), C429–C441.
    • (2012) AJP Cell Physiol. , vol.302 , pp. C429-C441
    • Shoham, N.1
  • 63
    • 84940662691 scopus 로고    scopus 로고
    • Effects of accumulation of lipid droplets on load transfer between and within adipocytes
    • 63 Ben-Or Frank, M., et al. Effects of accumulation of lipid droplets on load transfer between and within adipocytes. Biomech. Model. Mechanobiol. 14 (2015), 15–28.
    • (2015) Biomech. Model. Mechanobiol. , vol.14 , pp. 15-28
    • Ben-Or Frank, M.1
  • 64
    • 4444252763 scopus 로고    scopus 로고
    • Inhibition of adipocyte differentiation by mechanical stretching through ERK-mediated downregulation of PPARgamma2
    • 64 Tanabe, Y., et al. Inhibition of adipocyte differentiation by mechanical stretching through ERK-mediated downregulation of PPARgamma2. J. Cell Sci. 117 (2004), 3605–3614.
    • (2004) J. Cell Sci. , vol.117 , pp. 3605-3614
    • Tanabe, Y.1
  • 65
    • 56349122502 scopus 로고    scopus 로고
    • Cyclic stretch-induced TGFbeta1/Smad signaling inhibits adipogenesis in umbilical cord progenitor cells
    • 65 Turner, N.J., et al. Cyclic stretch-induced TGFbeta1/Smad signaling inhibits adipogenesis in umbilical cord progenitor cells. Biochem. Biophys. Res. Commun. 377 (2008), 1147–1151.
    • (2008) Biochem. Biophys. Res. Commun. , vol.377 , pp. 1147-1151
    • Turner, N.J.1
  • 66
    • 57349115394 scopus 로고    scopus 로고
    • Mechanical strain inhibits adipogenesis in mesenchymal stem cells by stimulating a durable beta-catenin signal
    • 66 Sen, B., et al. Mechanical strain inhibits adipogenesis in mesenchymal stem cells by stimulating a durable beta-catenin signal. Endocrinology 149 (2008), 6065–6075.
    • (2008) Endocrinology , vol.149 , pp. 6065-6075
    • Sen, B.1
  • 67
    • 84862017920 scopus 로고    scopus 로고
    • Large, but not small sustained tensile strains stimulate adipogenesis in culture
    • 67 Levy, A., et al. Large, but not small sustained tensile strains stimulate adipogenesis in culture. Ann. Biomed. Eng. 40 (2012), 1052–1060.
    • (2012) Ann. Biomed. Eng. , vol.40 , pp. 1052-1060
    • Levy, A.1
  • 68
    • 0034128131 scopus 로고    scopus 로고
    • Nonsurgical breast enlargement using an external soft-tissue expansion system
    • discussion 2513-2514
    • 68 Khouri, R.K., et al. Nonsurgical breast enlargement using an external soft-tissue expansion system. Plast. Reconstr. Surg. 105 (2000), 2500–2512 discussion 2513-2514.
    • (2000) Plast. Reconstr. Surg. , vol.105 , pp. 2500-2512
    • Khouri, R.K.1
  • 69
    • 56549093199 scopus 로고    scopus 로고
    • Use of the microdialysis technique to assess lipolytic responsiveness of femoral adipose tissue after 12 sessions of mechanical massage technique
    • 69 Monteux, C., Lafontan, M., Use of the microdialysis technique to assess lipolytic responsiveness of femoral adipose tissue after 12 sessions of mechanical massage technique. J. Eur. Acad. Dermatol. Venereol. 22 (2008), 1465–1470.
    • (2008) J. Eur. Acad. Dermatol. Venereol. , vol.22 , pp. 1465-1470
    • Monteux, C.1    Lafontan, M.2
  • 70
    • 79956142953 scopus 로고    scopus 로고
    • Impact of a mechanical massage on gene expression profile and lipid mobilization in female gluteofemoral adipose tissue
    • 70 Marques, M.-A., et al. Impact of a mechanical massage on gene expression profile and lipid mobilization in female gluteofemoral adipose tissue. Obes. Facts 4 (2011), 121–129.
    • (2011) Obes. Facts , vol.4 , pp. 121-129
    • Marques, M.-A.1
  • 71
    • 79251468752 scopus 로고    scopus 로고
    • Rho and Rho-kinase activity in adipocytes contributes to a vicious cycle in obesity that may involve mechanical stretch
    • 71 Hara, Y., et al. Rho and Rho-kinase activity in adipocytes contributes to a vicious cycle in obesity that may involve mechanical stretch. Sci. Signal., 4, 2011, ra3.
    • (2011) Sci. Signal. , vol.4 , pp. ra3
    • Hara, Y.1
  • 73
    • 84929658054 scopus 로고    scopus 로고
    • Stretchy nerves are an essential component of the extreme feeding mechanism of rorqual whales
    • 73 Vogl, A.W., et al. Stretchy nerves are an essential component of the extreme feeding mechanism of rorqual whales. Curr. Biol. 25 (2015), R360–R361.
    • (2015) Curr. Biol. , vol.25 , pp. R360-R361
    • Vogl, A.W.1
  • 74
    • 84890416118 scopus 로고    scopus 로고
    • The mechanical properties of human adipose tissues and their relationships to the structure and composition of the extracellular matrix
    • 74 Alkhouli, N., et al. The mechanical properties of human adipose tissues and their relationships to the structure and composition of the extracellular matrix. Am. J. Physiol. Endocrinol. Metab. 305 (2013), E1427–E1435.
    • (2013) Am. J. Physiol. Endocrinol. Metab. , vol.305 , pp. E1427-E1435
    • Alkhouli, N.1
  • 75
    • 84893398146 scopus 로고    scopus 로고
    • Contributions of adipose tissue architectural and tensile properties toward defining healthy and unhealthy obesity
    • 75 Lackey, D.E., et al. Contributions of adipose tissue architectural and tensile properties toward defining healthy and unhealthy obesity. Am. J. Physiol. Endocrinol. Metab. 306 (2014), E233–E246.
    • (2014) Am. J. Physiol. Endocrinol. Metab. , vol.306 , pp. E233-E246
    • Lackey, D.E.1
  • 76
    • 84943424321 scopus 로고    scopus 로고
    • Ratio of total traction force to projected cell area is preserved in differentiating adipocytes
    • 76 Abuhattum, S., et al. Ratio of total traction force to projected cell area is preserved in differentiating adipocytes. Integr Biol 7 (2015), 1212–1217.
    • (2015) Integr Biol , vol.7 , pp. 1212-1217
    • Abuhattum, S.1
  • 77
    • 76049129445 scopus 로고    scopus 로고
    • Compressive force inhibits adipogenesis through COX-2-mediated down-regulation of PPARgamma2 and C/EBPalpha
    • 77 Hossain, M.G., et al. Compressive force inhibits adipogenesis through COX-2-mediated down-regulation of PPARgamma2 and C/EBPalpha. J. Biosci. Bioeng. 109 (2010), 297–303.
    • (2010) J. Biosci. Bioeng. , vol.109 , pp. 297-303
    • Hossain, M.G.1
  • 78
    • 84885190209 scopus 로고    scopus 로고
    • Angiogenesis and vascular functions in modulation of obesity, adipose metabolism, and insulin sensitivity
    • 78 Cao, Y., Angiogenesis and vascular functions in modulation of obesity, adipose metabolism, and insulin sensitivity. Cell Metab. 18 (2013), 478–489.
    • (2013) Cell Metab. , vol.18 , pp. 478-489
    • Cao, Y.1
  • 79
    • 85050580460 scopus 로고    scopus 로고
    • Adipose tissue and energy expenditure: central and peripheral neural activation pathways
    • 79 Blaszkiewicz, M., Townsend, K.L., Adipose tissue and energy expenditure: central and peripheral neural activation pathways. Curr. Obes. Rep. 5 (2016), 241–250.
    • (2016) Curr. Obes. Rep. , vol.5 , pp. 241-250
    • Blaszkiewicz, M.1    Townsend, K.L.2
  • 80
    • 84925273129 scopus 로고    scopus 로고
    • Adipose tissue as an immunological organ
    • 80 Grant, R.W., Dixit, V.D., Adipose tissue as an immunological organ. Obes. Silver Spring 23 (2015), 512–518.
    • (2015) Obes. Silver Spring , vol.23 , pp. 512-518
    • Grant, R.W.1    Dixit, V.D.2
  • 81
    • 84855681355 scopus 로고    scopus 로고
    • Adipose tissue stem cells meet preadipocyte commitment: going back to the future
    • 81 Cawthorn, W.P., et al. Adipose tissue stem cells meet preadipocyte commitment: going back to the future. J. Lipid Res. 53 (2012), 227–246.
    • (2012) J. Lipid Res. , vol.53 , pp. 227-246
    • Cawthorn, W.P.1
  • 82
    • 84942089773 scopus 로고    scopus 로고
    • Visceral adipose tissue mesothelial cells: living on the edge or just taking up space?
    • 82 Gupta, O.T., Gupta, R.K., Visceral adipose tissue mesothelial cells: living on the edge or just taking up space?. Trends Endocrinol. Metab. 26 (2015), 515–523.
    • (2015) Trends Endocrinol. Metab. , vol.26 , pp. 515-523
    • Gupta, O.T.1    Gupta, R.K.2
  • 83
    • 0034464044 scopus 로고    scopus 로고
    • The release of lipoprotein lipase from 3T3-L1 adipocytes is regulated by microvessel endothelial cells in an insulin-dependent manner
    • 83 Knutson, V.P., The release of lipoprotein lipase from 3T3-L1 adipocytes is regulated by microvessel endothelial cells in an insulin-dependent manner. Endocrinology 141 (2000), 693–701.
    • (2000) Endocrinology , vol.141 , pp. 693-701
    • Knutson, V.P.1
  • 84
    • 0025320451 scopus 로고
    • Lipoprotein lipase: cellular origin and functional distribution
    • 84 Camps, L., et al. Lipoprotein lipase: cellular origin and functional distribution. Am. J. Physiol. 258 (1990), C673–C681.
    • (1990) Am. J. Physiol. , vol.258 , pp. C673-C681
    • Camps, L.1
  • 85
    • 0036678477 scopus 로고    scopus 로고
    • Adipose tissue mass can be regulated through the vasculature
    • 85 Rupnick, M.A., et al. Adipose tissue mass can be regulated through the vasculature. Proc. Natl. Acad. Sci. 99 (2002), 10730–10735.
    • (2002) Proc. Natl. Acad. Sci. , vol.99 , pp. 10730-10735
    • Rupnick, M.A.1
  • 86
    • 84872158534 scopus 로고    scopus 로고
    • Adipose vascular endothelial growth factor regulates metabolic homeostasis through angiogenesis
    • 86 Sung, H.-K., et al. Adipose vascular endothelial growth factor regulates metabolic homeostasis through angiogenesis. Cell Metab. 17 (2013), 61–72.
    • (2013) Cell Metab. , vol.17 , pp. 61-72
    • Sung, H.-K.1
  • 87
    • 76749093995 scopus 로고    scopus 로고
    • Sensory and sympathetic nervous system control of white adipose tissue lipolysis
    • 87 Bartness, T.J., et al. Sensory and sympathetic nervous system control of white adipose tissue lipolysis. Mol. Cell. Endocrinol. 318 (2010), 34–43.
    • (2010) Mol. Cell. Endocrinol. , vol.318 , pp. 34-43
    • Bartness, T.J.1
  • 88
    • 84944733460 scopus 로고    scopus 로고
    • Sympathetic neuro-adipose connections mediate leptin-driven lipolysis
    • 88 Zeng, W., et al. Sympathetic neuro-adipose connections mediate leptin-driven lipolysis. Cell 163 (2015), 84–94.
    • (2015) Cell , vol.163 , pp. 84-94
    • Zeng, W.1
  • 89
    • 79957916782 scopus 로고    scopus 로고
    • Adipose tissue remodeling and obesity
    • 89 Sun, K., et al. Adipose tissue remodeling and obesity. J. Clin. Invest. 121 (2011), 2094–2101.
    • (2011) J. Clin. Invest. , vol.121 , pp. 2094-2101
    • Sun, K.1
  • 90
    • 84902094655 scopus 로고    scopus 로고
    • Eosinophils and type 2 cytokine signaling in macrophages orchestrate development of functional beige fat
    • 90 Qiu, Y., et al. Eosinophils and type 2 cytokine signaling in macrophages orchestrate development of functional beige fat. Cell 157 (2014), 1292–1308.
    • (2014) Cell , vol.157 , pp. 1292-1308
    • Qiu, Y.1
  • 91
    • 84902097377 scopus 로고    scopus 로고
    • Meteorin-like is a hormone that regulates immune-adipose interactions to increase beige fat thermogenesis
    • 91 Rao, R.R., et al. Meteorin-like is a hormone that regulates immune-adipose interactions to increase beige fat thermogenesis. Cell 157 (2014), 1279–1291.
    • (2014) Cell , vol.157 , pp. 1279-1291
    • Rao, R.R.1
  • 92
    • 84938747174 scopus 로고    scopus 로고
    • Adiponectin enhances cold-induced browning of subcutaneous adipose tissue via promoting M2 macrophage proliferation
    • 92 Hui, X., et al. Adiponectin enhances cold-induced browning of subcutaneous adipose tissue via promoting M2 macrophage proliferation. Cell Metab. 22 (2015), 279–290.
    • (2015) Cell Metab. , vol.22 , pp. 279-290
    • Hui, X.1
  • 93
    • 84924969384 scopus 로고    scopus 로고
    • Group 2 innate lymphoid cells promote beiging of white adipose tissue and limit obesity
    • 93 Brestoff, J.R., et al. Group 2 innate lymphoid cells promote beiging of white adipose tissue and limit obesity. Nature 519 (2015), 242–246.
    • (2015) Nature , vol.519 , pp. 242-246
    • Brestoff, J.R.1
  • 94
    • 84898935710 scopus 로고    scopus 로고
    • Perspective: obesity is not a disease
    • S57-S57
    • 94 Katz, D.L., Perspective: obesity is not a disease. Nature, 508, 2014 S57-S57.
    • (2014) Nature , vol.508
    • Katz, D.L.1
  • 95
    • 28944434431 scopus 로고    scopus 로고
    • Metabolic syndrome vs Framingham risk score for prediction of coronary heart disease, stroke, and type 2 diabetes mellitus
    • 95 Wannamethee, S.G., et al. Metabolic syndrome vs Framingham risk score for prediction of coronary heart disease, stroke, and type 2 diabetes mellitus. Arch. Intern. Med., 165, 2005, 2644.
    • (2005) Arch. Intern. Med. , vol.165 , pp. 2644
    • Wannamethee, S.G.1
  • 96
    • 73249117062 scopus 로고    scopus 로고
    • Adipose tissue collagen VI in obesity
    • 96 Pasarica, M., et al. Adipose tissue collagen VI in obesity. J. Clin. Endocrinol. Metab. 94 (2009), 5155–5162.
    • (2009) J. Clin. Endocrinol. Metab. , vol.94 , pp. 5155-5162
    • Pasarica, M.1
  • 97
    • 62849107819 scopus 로고    scopus 로고
    • Metabolic dysregulation and adipose tissue fibrosis: role of collagen VI
    • 97 Khan, T., et al. Metabolic dysregulation and adipose tissue fibrosis: role of collagen VI. Mol. Cell. Biol. 29 (2009), 1575–1591.
    • (2009) Mol. Cell. Biol. , vol.29 , pp. 1575-1591
    • Khan, T.1
  • 98
    • 84921984549 scopus 로고    scopus 로고
    • Endotrophin triggers adipose tissue fibrosis and metabolic dysfunction
    • 98 Sun, K., et al. Endotrophin triggers adipose tissue fibrosis and metabolic dysfunction. Nat. Commun., 5, 2014, 3485.
    • (2014) Nat. Commun. , vol.5 , pp. 3485
    • Sun, K.1
  • 99
    • 84930571997 scopus 로고    scopus 로고
    • Irf5 deficiency in macrophages promotes beneficial adipose tissue expansion and insulin sensitivity during obesity
    • 99 Dalmas, E., et al. Irf5 deficiency in macrophages promotes beneficial adipose tissue expansion and insulin sensitivity during obesity. Nat. Med. 21 (2015), 610–618.
    • (2015) Nat. Med. , vol.21 , pp. 610-618
    • Dalmas, E.1
  • 100
    • 84872166765 scopus 로고    scopus 로고
    • Pleiotropic actions of insulin resistance and inflammation in metabolic homeostasis
    • 100 Odegaard, J.I., Chawla, A., Pleiotropic actions of insulin resistance and inflammation in metabolic homeostasis. Science 339 (2013), 172–177.
    • (2013) Science , vol.339 , pp. 172-177
    • Odegaard, J.I.1    Chawla, A.2
  • 101
    • 79955044996 scopus 로고    scopus 로고
    • Architecture and the extracellular matrix: the still unappreciated components of the adipose tissue
    • 101 Divoux, A., Clément, K., Architecture and the extracellular matrix: the still unappreciated components of the adipose tissue. Obes. Rev. 12 (2011), e494–e503.
    • (2011) Obes. Rev. , vol.12 , pp. e494-e503
    • Divoux, A.1    Clément, K.2
  • 102
    • 84939817343 scopus 로고    scopus 로고
    • Obesity-dependent changes in interstitial ECM mechanics promote breast tumorigenesis
    • 102 Seo, B.R., et al. Obesity-dependent changes in interstitial ECM mechanics promote breast tumorigenesis. Sci. Transl. Med., 7, 2015, 301ra130.
    • (2015) Sci. Transl. Med. , vol.7 , pp. 301ra130
    • Seo, B.R.1
  • 103
    • 46249083328 scopus 로고    scopus 로고
    • Adipose tissue transcriptomic signature highlights the pathological relevance of extracellular matrix in human obesity
    • 103 Henegar, C., et al. Adipose tissue transcriptomic signature highlights the pathological relevance of extracellular matrix in human obesity. Genome Biol., 9, 2008, R14.
    • (2008) Genome Biol. , vol.9 , pp. R14
    • Henegar, C.1
  • 104
    • 80655130456 scopus 로고    scopus 로고
    • Preferential fat deposition in subcutaneous versus visceral depots is associated with insulin sensitivity
    • 104 McLaughlin, T., et al. Preferential fat deposition in subcutaneous versus visceral depots is associated with insulin sensitivity. J. Clin. Endocrinol. Metab. 96 (2011), E1756–E1760.
    • (2011) J. Clin. Endocrinol. Metab. , vol.96 , pp. E1756-E1760
    • McLaughlin, T.1
  • 105
    • 78049308422 scopus 로고    scopus 로고
    • Abdominal subcutaneous and visceral adipose tissue and insulin resistance in the Framingham heart study
    • 105 Preis, S.R., et al. Abdominal subcutaneous and visceral adipose tissue and insulin resistance in the Framingham heart study. Obes. Silver Spring 18 (2010), 2191–2198.
    • (2010) Obes. Silver Spring , vol.18 , pp. 2191-2198
    • Preis, S.R.1
  • 106
    • 0036217052 scopus 로고    scopus 로고
    • Disordered fat storage and mobilization in the pathogenesis of insulin resistance and type 2 diabetes
    • 106 Lewis, G.F., et al. Disordered fat storage and mobilization in the pathogenesis of insulin resistance and type 2 diabetes. Endocr. Rev. 23 (2002), 201–229.
    • (2002) Endocr. Rev. , vol.23 , pp. 201-229
    • Lewis, G.F.1
  • 107
    • 0032779351 scopus 로고    scopus 로고
    • Molecular mechanism of metabolic syndrome X: contribution of adipocytokines adipocyte-derived bioactive substances
    • 107 Matsuzawa, Y., et al. Molecular mechanism of metabolic syndrome X: contribution of adipocytokines adipocyte-derived bioactive substances. Ann. N. Y. Acad. Sci. 892 (1999), 146–154.
    • (1999) Ann. N. Y. Acad. Sci. , vol.892 , pp. 146-154
    • Matsuzawa, Y.1
  • 108
    • 0041302377 scopus 로고    scopus 로고
    • The fat-derived hormone adiponectin alleviates alcoholic and nonalcoholic fatty liver diseases in mice
    • 108 Xu, A., et al. The fat-derived hormone adiponectin alleviates alcoholic and nonalcoholic fatty liver diseases in mice. J. Clin. Invest. 112 (2003), 91–100.
    • (2003) J. Clin. Invest. , vol.112 , pp. 91-100
    • Xu, A.1
  • 109
    • 84875227258 scopus 로고    scopus 로고
    • Adipocytes: impact on tumor growth and potential sites for therapeutic intervention
    • 109 Hefetz-Sela, S., Scherer, P.E., Adipocytes: impact on tumor growth and potential sites for therapeutic intervention. Pharmacol. Ther. 138 (2013), 197–210.
    • (2013) Pharmacol. Ther. , vol.138 , pp. 197-210
    • Hefetz-Sela, S.1    Scherer, P.E.2
  • 110
    • 84868611621 scopus 로고    scopus 로고
    • Adipocyte-derived endotrophin promotes malignant tumor progression
    • 110 Park, J., Scherer, P.E., Adipocyte-derived endotrophin promotes malignant tumor progression. J. Clin. Invest. 122 (2012), 4243–4256.
    • (2012) J. Clin. Invest. , vol.122 , pp. 4243-4256
    • Park, J.1    Scherer, P.E.2
  • 111
    • 34548694284 scopus 로고    scopus 로고
    • Muscular thin films for building actuators and powering devices
    • 111 Feinberg, A.W., et al. Muscular thin films for building actuators and powering devices. Science 317 (2007), 1366–1370.
    • (2007) Science , vol.317 , pp. 1366-1370
    • Feinberg, A.W.1
  • 112
    • 34548589201 scopus 로고    scopus 로고
    • Differentiation of skeletal muscle and integration of myotubes with silicon microstructures using serum-free medium and a synthetic silane substrate
    • 112 Das, M., et al. Differentiation of skeletal muscle and integration of myotubes with silicon microstructures using serum-free medium and a synthetic silane substrate. Nat. Protoc. 2 (2007), 1795–1801.
    • (2007) Nat. Protoc. , vol.2 , pp. 1795-1801
    • Das, M.1
  • 113
    • 72049098211 scopus 로고    scopus 로고
    • Integration and application of vitrified collagen in multilayered microfluidic devices for corneal microtissue culture
    • 113 Puleo, C.M., et al. Integration and application of vitrified collagen in multilayered microfluidic devices for corneal microtissue culture. Lab. Chip 9 (2009), 3221–3227.
    • (2009) Lab. Chip , vol.9 , pp. 3221-3227
    • Puleo, C.M.1
  • 114
    • 77954038080 scopus 로고    scopus 로고
    • Reconstituting organ-level lung functions on a chip
    • 114 Huh, D., et al. Reconstituting organ-level lung functions on a chip. Science 328 (2010), 1662–1668.
    • (2010) Science , vol.328 , pp. 1662-1668
    • Huh, D.1
  • 115
    • 77951884924 scopus 로고    scopus 로고
    • A multi-layer microfluidic device for efficient culture and analysis of renal tubular cells
    • 115 Jang, K.-J., Suh, K.-Y., A multi-layer microfluidic device for efficient culture and analysis of renal tubular cells. Lab. Chip 10 (2010), 36–42.
    • (2010) Lab. Chip , vol.10 , pp. 36-42
    • Jang, K.-J.1    Suh, K.-Y.2
  • 116
    • 84867569483 scopus 로고    scopus 로고
    • A novel microfluidic platform for high-resolution imaging of a three-dimensional cell culture under a controlled hypoxic environment
    • 116 Funamoto, K., et al. A novel microfluidic platform for high-resolution imaging of a three-dimensional cell culture under a controlled hypoxic environment. Lab. Chip 12 (2012), 4855–4863.
    • (2012) Lab. Chip , vol.12 , pp. 4855-4863
    • Funamoto, K.1
  • 117
    • 84907190392 scopus 로고    scopus 로고
    • Bioengineered functional brain-like cortical tissue
    • 117 Tang-Schomer, M.D., et al. Bioengineered functional brain-like cortical tissue. Proc. Natl. Acad. Sci. U.S.A. 111 (2014), 13811–13816.
    • (2014) Proc. Natl. Acad. Sci. U.S.A. , vol.111 , pp. 13811-13816
    • Tang-Schomer, M.D.1
  • 118
    • 84947934013 scopus 로고    scopus 로고
    • Micropatterned coculture of primary human hepatocytes and supportive cells for the study of hepatotropic pathogens
    • 118 March, S., et al. Micropatterned coculture of primary human hepatocytes and supportive cells for the study of hepatotropic pathogens. Nat. Protoc. 10 (2015), 2027–2053.
    • (2015) Nat. Protoc. , vol.10 , pp. 2027-2053
    • March, S.1
  • 119
    • 84862207235 scopus 로고    scopus 로고
    • Human gut-on-a-chip inhabited by microbial flora that experiences intestinal peristalsis-like motions and flow
    • 119 Kim, H.J., et al. Human gut-on-a-chip inhabited by microbial flora that experiences intestinal peristalsis-like motions and flow. Lab. Chip 12 (2012), 2165–2174.
    • (2012) Lab. Chip , vol.12 , pp. 2165-2174
    • Kim, H.J.1
  • 120
    • 84968739591 scopus 로고    scopus 로고
    • A microfluidics-based in vitro model of the gastrointestinal human–microbe interface
    • 120 Shah, P., A microfluidics-based in vitro model of the gastrointestinal human–microbe interface. Nat Commun, 7, 2016, 11535.
    • (2016) Nat Commun , vol.7 , pp. 11535
    • Shah, P.1
  • 121
    • 0034049492 scopus 로고    scopus 로고
    • Ceiling culture of mature human adipocytes: use in studies of adipocyte functions
    • 121 Zhang, H.H., et al. Ceiling culture of mature human adipocytes: use in studies of adipocyte functions. J. Endocrinol. 164 (2000), 119–128.
    • (2000) J. Endocrinol. , vol.164 , pp. 119-128
    • Zhang, H.H.1
  • 122
    • 0345518031 scopus 로고    scopus 로고
    • Preadipocyte seeded PLGA scaffolds for adipose tissue engineering
    • 122 Patrick, C.W., et al. Preadipocyte seeded PLGA scaffolds for adipose tissue engineering. Tissue Eng. 5 (1999), 139–151.
    • (1999) Tissue Eng. , vol.5 , pp. 139-151
    • Patrick, C.W.1
  • 123
    • 34948823819 scopus 로고    scopus 로고
    • Engineering adipose-like tissue in vitro and in vivo utilizing human bone marrow and adipose-derived mesenchymal stem cells with silk fibroin 3D scaffolds
    • 123 Mauney, J.R., et al. Engineering adipose-like tissue in vitro and in vivo utilizing human bone marrow and adipose-derived mesenchymal stem cells with silk fibroin 3D scaffolds. Biomaterials 28 (2007), 5280–5290.
    • (2007) Biomaterials , vol.28 , pp. 5280-5290
    • Mauney, J.R.1
  • 124
    • 0032732895 scopus 로고    scopus 로고
    • Development of a human adipocyte synthetic polymer scaffold
    • 124 Kral, J.G., Crandall, D.L., Development of a human adipocyte synthetic polymer scaffold. Plast. Reconstr. Surg. 104 (1999), 1732–1738.
    • (1999) Plast. Reconstr. Surg. , vol.104 , pp. 1732-1738
    • Kral, J.G.1    Crandall, D.L.2
  • 125
    • 1042277967 scopus 로고    scopus 로고
    • Three-dimensional in vitro model of adipogenesis: comparison of culture conditions
    • 125 Fischbach, C., et al. Three-dimensional in vitro model of adipogenesis: comparison of culture conditions. Tissue Eng. 10 (2004), 215–229.
    • (2004) Tissue Eng. , vol.10 , pp. 215-229
    • Fischbach, C.1
  • 126
    • 0043173707 scopus 로고    scopus 로고
    • Tissue engineering of white adipose tissue using hyaluronic acid-based scaffolds. I: in vitro differentiation of human adipocyte precursor cells on scaffolds
    • 126 Halbleib, M., et al. Tissue engineering of white adipose tissue using hyaluronic acid-based scaffolds. I: in vitro differentiation of human adipocyte precursor cells on scaffolds. Biomaterials 24 (2003), 3125–3132.
    • (2003) Biomaterials , vol.24 , pp. 3125-3132
    • Halbleib, M.1
  • 127
    • 33750207993 scopus 로고    scopus 로고
    • Adipogenesis of murine embryonic stem cells in a three-dimensional culture system using electrospun polymer scaffolds
    • 127 Kang, X., et al. Adipogenesis of murine embryonic stem cells in a three-dimensional culture system using electrospun polymer scaffolds. Biomaterials 28 (2007), 450–458.
    • (2007) Biomaterials , vol.28 , pp. 450-458
    • Kang, X.1
  • 128
    • 84913558114 scopus 로고    scopus 로고
    • Increased adipogenesis of human adipose-derived stem cells on polycaprolactone fiber matrices
    • 128 Brännmark, C., et al. Increased adipogenesis of human adipose-derived stem cells on polycaprolactone fiber matrices. PLoS ONE, 9, 2014, e113620.
    • (2014) PLoS ONE , vol.9 , pp. e113620
    • Brännmark, C.1
  • 129
    • 59449108483 scopus 로고    scopus 로고
    • In Vitro adipose tissue engineering using an electrospun nanofibrous scaffold
    • 129 Shanti, R.M., et al. In Vitro adipose tissue engineering using an electrospun nanofibrous scaffold. Ann. Plast. Surg. 61 (2008), 566–571.
    • (2008) Ann. Plast. Surg. , vol.61 , pp. 566-571
    • Shanti, R.M.1
  • 130
    • 84918531437 scopus 로고    scopus 로고
    • Adipogenic differentiation of stem cells in three-dimensional porous bacterial nanocellulose scaffolds: adipogenic differentiation of stem cells In 3d porous scaffolds
    • 130 Krontiras, P., et al. Adipogenic differentiation of stem cells in three-dimensional porous bacterial nanocellulose scaffolds: adipogenic differentiation of stem cells In 3d porous scaffolds. J. Biomed. Mater. Res. B Appl. Biomater. 103 (2015), 195–203.
    • (2015) J. Biomed. Mater. Res. B Appl. Biomater. , vol.103 , pp. 195-203
    • Krontiras, P.1
  • 131
    • 84888056292 scopus 로고    scopus 로고
    • A surface-tethered spheroid model for functional evaluation of 3T3-L1 adipocytes: 3D adipocyte model
    • 131 Turner, P.A., et al. A surface-tethered spheroid model for functional evaluation of 3T3-L1 adipocytes: 3D adipocyte model. Biotechnol. Bioeng. 111 (2014), 174–183.
    • (2014) Biotechnol. Bioeng. , vol.111 , pp. 174-183
    • Turner, P.A.1
  • 132
    • 34447575044 scopus 로고    scopus 로고
    • Collagenous microbeads as a scaffold for tissue engineering with adipose-derived stem cells
    • 132 Rubin, J.P., et al. Collagenous microbeads as a scaffold for tissue engineering with adipose-derived stem cells. Plast. Reconstr. Surg. 120 (2007), 414–424.
    • (2007) Plast. Reconstr. Surg. , vol.120 , pp. 414-424
    • Rubin, J.P.1
  • 133
    • 84876824770 scopus 로고    scopus 로고
    • Adipose tissue engineering in three-dimensional levitation tissue culture system based on magnetic nanoparticles
    • 133 Daquinag, A.C., et al. Adipose tissue engineering in three-dimensional levitation tissue culture system based on magnetic nanoparticles. Tissue Eng. Part C Methods 19 (2013), 336–344.
    • (2013) Tissue Eng. Part C Methods , vol.19 , pp. 336-344
    • Daquinag, A.C.1
  • 134
    • 0023694464 scopus 로고
    • Growth and differentiation of 3T3-F442A preadipocytes in three-dimensional gels of native collagen
    • 134 Hilliou, F., et al. Growth and differentiation of 3T3-F442A preadipocytes in three-dimensional gels of native collagen. Exp. Cell Res. 177 (1988), 372–381.
    • (1988) Exp. Cell Res. , vol.177 , pp. 372-381
    • Hilliou, F.1
  • 135
    • 0034900235 scopus 로고    scopus 로고
    • Mammary epithelial cell and adipocyte co-culture in a 3-D matrix: the first step towards tissue-engineered human breast tissue
    • 135 Huss, F.R.M., Kratz, G., Mammary epithelial cell and adipocyte co-culture in a 3-D matrix: the first step towards tissue-engineered human breast tissue. Cells Tissues Organs 169 (2001), 361–367.
    • (2001) Cells Tissues Organs , vol.169 , pp. 361-367
    • Huss, F.R.M.1    Kratz, G.2
  • 136
    • 34249047630 scopus 로고    scopus 로고
    • Culture and differentiation of preadipocytes in two-dimensional and three-dimensional in vitro systems
    • 136 Daya, S., et al. Culture and differentiation of preadipocytes in two-dimensional and three-dimensional in vitro systems. Differentiation 75 (2007), 360–370.
    • (2007) Differentiation , vol.75 , pp. 360-370
    • Daya, S.1
  • 137
    • 84861536459 scopus 로고    scopus 로고
    • Alginate and alginate/gelatin microspheres for human adipose-derived stem cell encapsulation and differentiation
    • 137 Yao, R., et al. Alginate and alginate/gelatin microspheres for human adipose-derived stem cell encapsulation and differentiation. Biofabrication, 4, 2012, 025007.
    • (2012) Biofabrication , vol.4 , pp. 025007
    • Yao, R.1
  • 138
    • 0035940407 scopus 로고    scopus 로고
    • Cross-talk between sympathetic neurons and adipocytes in coculture
    • 138 Turtzo, L.C., et al. Cross-talk between sympathetic neurons and adipocytes in coculture. Proc. Natl. Acad. Sci. U.S.A. 98 (2001), 12385–12390.
    • (2001) Proc. Natl. Acad. Sci. U.S.A. , vol.98 , pp. 12385-12390
    • Turtzo, L.C.1
  • 139
    • 78649900603 scopus 로고    scopus 로고
    • PACAP up-regulates the expression of apolipoprotein D in 3T3-L1 adipocytes. DRG/3T3-L1 co-cultures study
    • 139 Kosacka, J., et al. PACAP up-regulates the expression of apolipoprotein D in 3T3-L1 adipocytes. DRG/3T3-L1 co-cultures study. Neurosci. Res. 69 (2011), 8–16.
    • (2011) Neurosci. Res. , vol.69 , pp. 8-16
    • Kosacka, J.1
  • 140
    • 53549093045 scopus 로고    scopus 로고
    • Myogel, a novel, basement membrane-rich, extracellular matrix derived from skeletal muscle, is highly adipogenic in vivo and in vitro
    • 140 Abberton, K.M., et al. Myogel, a novel, basement membrane-rich, extracellular matrix derived from skeletal muscle, is highly adipogenic in vivo and in vitro. Cells Tissues Organs 188 (2008), 347–358.
    • (2008) Cells Tissues Organs , vol.188 , pp. 347-358
    • Abberton, K.M.1
  • 141
    • 84937701506 scopus 로고    scopus 로고
    • CILAIR-based secretome analysis of obese visceral and subcutaneous adipose tissues reveals distinctive ECM remodeling and inflammation mediators
    • 141 Roca-Rivada, A., et al. CILAIR-based secretome analysis of obese visceral and subcutaneous adipose tissues reveals distinctive ECM remodeling and inflammation mediators. Sci. Rep., 5, 2015, 12214.
    • (2015) Sci. Rep. , vol.5 , pp. 12214
    • Roca-Rivada, A.1
  • 142
    • 84947121048 scopus 로고    scopus 로고
    • Using a 3D culture system to differentiate visceral adipocytes in vitro
    • 142 Emont, M.P., et al. Using a 3D culture system to differentiate visceral adipocytes in vitro. Endocrinology 156 (2015), 4761–4768.
    • (2015) Endocrinology , vol.156 , pp. 4761-4768
    • Emont, M.P.1
  • 143
    • 0018234752 scopus 로고
    • Complete differentiation of adipocyte precursors. A culture system for studying the cellular nature of adipose tissue
    • 143 Van, R.L., Roncari, D.A., Complete differentiation of adipocyte precursors. A culture system for studying the cellular nature of adipose tissue. Cell Tissue Res. 195 (1978), 317–329.
    • (1978) Cell Tissue Res. , vol.195 , pp. 317-329
    • Van, R.L.1    Roncari, D.A.2
  • 144
    • 77957033668 scopus 로고    scopus 로고
    • quantitative monitoring of lipid accumulation over time in cultured adipocytes as function of culture conditions: toward controlled adipose tissue engineering
    • 144 Or-Tzadikario, S., et al. quantitative monitoring of lipid accumulation over time in cultured adipocytes as function of culture conditions: toward controlled adipose tissue engineering. Tissue Eng. Part C Methods 16 (2010), 1167–1181.
    • (2010) Tissue Eng. Part C Methods , vol.16 , pp. 1167-1181
    • Or-Tzadikario, S.1


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