Inhibition of adipogenic differentiation by myostatin is alleviated by arginine supplementation in porcine-muscle-derived mesenchymal stem cells

Science China Life Sciences

Volumn 54, Issue 10, 2011, Pages 908-916

  Lei, HuLong ^a   Yu, Bing ^a   Yang, XueRong ^a   Liu, ZeHui ^a   Huang, ZhiQing ^a   Mao, XiangBing ^a   Tian, Gang ^a   He, Jun ^a   Han, GuoQuan ^a   Chen, Hong ^a   Mao, Qian ^a   Chen, Dai Wen ^a  

^a SICHUAN AGRICULTURAL UNIVERSITY   (China)

Author keywords

adipogenic differentiation; arginine; mesenchymal stem cells; myostatin; porcine

Indexed keywords

ARGININE; MYOSTATIN; PRIMER DNA; TRANSCRIPTION FACTOR;

ADIPOSE TISSUE; ANIMAL; ARTICLE; CELL DIFFERENTIATION; CELL LINEAGE; CYTOLOGY; DRUG EFFECT; FLOW CYTOMETRY; FLUORESCENT ANTIBODY TECHNIQUE; GENE EXPRESSION; GENETICS; MESENCHYMAL STEM CELL; NUCLEOTIDE SEQUENCE; REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION; SKELETAL MUSCLE; SWINE;

ADIPOSE TISSUE; ANIMALS; ARGININE; BASE SEQUENCE; CELL DIFFERENTIATION; CELL LINEAGE; DNA PRIMERS; FLOW CYTOMETRY; FLUORESCENT ANTIBODY TECHNIQUE; GENE EXPRESSION; MESENCHYMAL STEM CELLS; MUSCLE, SKELETAL; MYOSTATIN; REVERSE TRANSCRIPTASE POLYMERASE CHAIN REACTION; SWINE; TRANSCRIPTION FACTORS;

SUS;

EID: 80155142360     PISSN: 16747305     EISSN: None     Source Type: Journal    
DOI: 10.1007/s11427-011-4227-1     Document Type: Article

References (33)

1. Schwab C R, Baas T J, Stalder K J, et al. Deposition rates and accretion patterns of intramuscular fat, loin muscle area, and backfat of Duroc pigs sired by boars from two time periods. J Anim Sci, 2007, 85: 1540-1546.
2. Schwab C R, Mote B E, Du Z Q, et al. An evaluation of four candidate genes for use in selection programs aimed at increased intramuscular fat in Duroc swine. J Anim Breed Genet, 2009, 126: 228-236.
3. Cordero G, Isabel B, Menoyo D, et al. Dietary CLA alters intramuscular fat and fatty acid composition of pig skeletal muscle and subcutaneous adipose tissue. Meat Sci, 2010, 85: 235-239.
4. Yada E, Yamanouchi K, Nishihara M. Adipogenic potential of satellite cells from distinct skeletal muscle origins in the rat. J Vet Med Sci, 2006, 68: 479-486.
5. Scarda A, Franzin C, Milan G, et al. Increased adipogenic conversion of muscle satellite cells in obese Zucker rats. Int J Obes (Lond), 2010, 34: 1319-1327.
6. De Coppi P, Milan G, Scarda A, et al. Rosiglitazone modifies the adipogenic potential of human muscle satellite cells. Diabetologia, 2006, 49 1962-1973.
7. Asakura A, Komaki M, Rudnicki M. Muscle satellite cells are multipotential stem cells that exhibit myogenic, osteogenic, and adipogenic differentiation. Differentiation, 2001, 68: 245-253.
8. Vettor R, Milan G, Franzin C, et al. The origin of intermuscular adipose tissue and its pathophysiological implications. Am J Physiol Endocrinol Metab, 2009, 297: 987-998.
9. Novak S, Moore H S, Paradis F, et al. Temporal candidate gene expression patterns in the sow placenta during early gestation and the effect of maternal L-arginine supplementation. Soc Reprod Fertil Suppl, 2009, 66: 201-202.
10. Geng M, Li T, Kong X, et al. Reduced expression of intestinal N-acetylglutamate synthase in suckling piglets: a novel molecular mechanism for arginine as a nutritionally essential amino acid for neonates. Amino Acids, 2010, 40: 1513-1522.
11. Wu G, Knabe D A, Kim S W. Arginine nutrition in neonatal pigs. J Nutr, 2004, 134: 2783S-2790S.
12. Tan B, Yin Y, Liu Z, et al. Dietary L-arginine supplementation increases muscle gain and reduces body fat mass in growing-finishing pigs. Amino Acids, 2009, 37: 169-175.
13. McPherron A C, Lawler A M, Lee S J. Regulation of skeletal muscle mass in mice by a new TGF-beta superfamily member. Nature, 1997, 387: 83-90.
14. McPherron A C, Lee S J. Double muscling in cattle due to mutations in the myostatin gene. Proc Natl Acad Sci USA, 1997, 94: 12457-12461.
15. Artaza J N, Bhasin S, Magee T R, et al. Myostatin inhibits myogenesis and promotes adipogenesis in 10T (1/2) mesenchymal multi-potent cells. Endocrinology, 2005, 146: 3547-3557.
16. Feldman B J, Streeper R S, Farese R V, et al. Myostatin modulates adipogenesis to generate adipocytes with favorable metabolic effects. Proc Natl Acad Sci USA, 2006, 103: 15675-15680.
17. Guo W, Flanagan J, Jasuja R, et al. The effects of myostatin on adipogenic differentiation of human bone marrow-derived mesenchymal stem cells are mediated through cross-communication between Smad3 and Wnt/beta-catenin signaling pathways. J Biol Chem, 2008, 283: 9136-9145.
18. Sheyn D, Pelled G, Zilberman Y, et al. Nonvirally engineered porcine adipose tissue-derived stem cells: use in posterior spinal fusion. Stem Cells, 2008, 26: 1056-1064.
19. Guillot P V, Gotherstrom C, Chana J, et al. Human first-trimester fetal MSC express pluripotency markers and grow faster and have longer telomeres than adult MSC. Stem cells, 2007, 25: 646-654.
20. Baksh D, Yao R, Tuan R S. Comparison of proliferative and multilineage differentiation potential of human mesenchymal stem cells derived from umbilical cord and bone marrow. Stem cells, 2007, 25: 1384-1392.
21. Vandesompele J, De Preter K, Pattyn F, et al. Accurate normalization of real-time quantitative RT-PCR data by geometric averaging of multiple internal control genes. Genome Biol, 2002, 3: 1-12.
22. Baksh D, Song L, Tuan R S. Adult mesenchymal stem cells: characterization, differentiation, and application in cell and gene therapy. J Cell Mol Med, 2004, 8: 301-316.
23. McKay R. Stem cells in the central nervous system. Science, 1997, 276: 66-71.
24. Gang E J, Bosnakovski D, Figueiredo C A, et al. SSEA-4 identifies mesenchymal stem cells from bone marrow. Blood, 2007, 109: 1743-1751.
25. Case J, Horvath T L, Ballas C B, et al. In vitro clonal analysis of murine pluripotent stem cells isolated from skeletal muscle and adipose stromal cells. Exp Hematol, 2008, 36: 224-234.
26. Niemela S M, Miettinen S, Konttinen Y, et al. Fat tissue: views on reconstruction and exploitation. J Craniofac Surg, 2007, 18: 325-335.
27. McPherron A C, Lee S J. Suppression of body fat accumulation in myostatin-deficient mice. J Clin Invest, 2002, 109: 595-601.
28. Hirai S, Matsumoto H, Hino N, et al. Myostatin inhibits differentiation of bovine preadipocyte. Domest Anim Endocrin, 2007, 32: 1-14.
29. Grimaldi P A. The roles of PPARs in adipocyte differentiation. Prog Lipid Res, 2001, 40: 269-281.
30. Tong Q, Dalgin G, Xu H, et al. Function of GATA transcription factors in preadipocyte-adipocyte transition. Science, 2000, 290: 134-138.
31. Tong Q, Tsai J, Hotamisligil G S. GATA transcription factors and fat cell formation. Drug News Perspect, 2003, 16: 585-588.
32. Tsai J, Tong Q, Tan G, et al. The transcription factor GATA2 regulates differentiation of brown adipocytes. EMBO Rep, 2005, 6: 879-884.
33. Jobgen W, Fu W J, Gao H, et al. High fat feeding and dietary L-arginine supplementation differentially regulate gene expression in rat white adipose tissue. Amino Acids, 2009, 37: 187-198.