The role of endothelial cell-bound Jagged1 in Notch3-induced human coronary artery smooth muscle cell differentiation

Biomaterials

Volumn 33, Issue 8, 2012, Pages 2462-2472

  Xia, Ying ^a   Bhattacharyya, Aparna ^a   Roszell, Eric E ^b   Sandig, Martin ^b   Mequanint, Kibret ^a  

^a UNIVERSITY OF WESTERN ONTARIO   (Canada)

^b WESTERN UNIVERSITY   (Canada)

Author keywords

Co culture; Differentiation marker proteins; Jagged1; Notch3 signalling; SiRNA; Vascular smooth muscle cell

Indexed keywords

COCULTURE; DIFFERENTIATION MARKER PROTEINS; JAGGED1; SIRNA; VASCULAR SMOOTH MUSCLE CELLS;

ENDOTHELIAL CELLS; LIGANDS; MUSCLE; PROTEINS; TISSUE ENGINEERING;

CELL CULTURE;

JAGGED1; NOTCH3 RECEPTOR; PROTEIN G; SMALL INTERFERING RNA;

ARTICLE; CELL COMMUNICATION; CELL CULTURE; CELL DIFFERENTIATION; COCULTURE; CONTROLLED STUDY; CORONARY ARTERY; ENDOTHELIUM CELL; HUMAN; HUMAN CELL; PRIORITY JOURNAL; PROTEIN EXPRESSION; PROTEIN IMMOBILIZATION; SMOOTH MUSCLE FIBER; UPREGULATION;

CALCIUM-BINDING PROTEINS; CELL ADHESION; CELL DIFFERENTIATION; COCULTURE TECHNIQUES; CORONARY VESSELS; CULTURE MEDIA, CONDITIONED; DOWN-REGULATION; ENDOTHELIAL CELLS; HUMANS; INTERCELLULAR SIGNALING PEPTIDES AND PROTEINS; MEMBRANE PROTEINS; MYOCYTES, SMOOTH MUSCLE; POROSITY; PROTEIN BINDING; RECEPTORS, NOTCH; SOLUBILITY;

EID: 84855854967     PISSN: 01429612     EISSN: 18785905     Source Type: Journal    
DOI: 10.1016/j.biomaterials.2011.12.001     Document Type: Article

References (43)

1. Morrow D., Guha S., Sweeney C., Birney Y., Walshe T., O'Brien C., et al. Notch and vascular smooth muscle cell phenotype. Circ Res 2008, 103:1370-1382.
2. Newby A.C., Zaltsman A.B. Molecular mechanisms in intimal hyperplasia. JPathol 2000, 190:300-309.
3. Heberlein K.R., Straub A.C., Isakson B.E. The myoendothelial junction: breaking through the matrix?. Microcirculation 2009, 16:307-322.
4. Iso T., Hamamori Y., Kedes L. Notch signaling in vascular development. Arterioscler Thromb Vasc Biol 2003, 23:543-553.
5. Gridley T. Notch signaling in vascular development and physiology. Development 2007, 134:2709-2718.
6. Weber D.S. Anovel mechanism of vascular smooth muscle cell regulation by notch: platelet-derived growth factor receptor-beta expression?. Circ Res 2008, 102:1448-1450.
7. Sorensen I., Adams R.H., Gossler A. DLL1-mediated notch activation regulates endothelial identity in mouse fetal arteries. Blood 2009, 113:5680-5688.
8. Domenga V., Fardoux P., Lacombe P., Monet M., Maciazek J., Krebs L.T., et al. Notch3 is required for arterial identity and maturation of vascular smooth muscle cells. Genes Dev 2004, 18:2730-2735.
9. Liu H., Kennard S., Lilly B. Notch expression is induced in mural cells through an autoregulatory loop that requires endothelial-expressed Jagged1. Circ Res 2009, 104:466-475.
10. Kume T. Novel insights into the differential functions of notch ligands in vascular formation. JAngiogenes Res 2009, 1:8.
11. Regan J.N., Majesky M.W. Building a vessel wall with notch signaling. Circ Res 2009, 104:419-421.
12. Ray L.B. Endocytotic notch signal. Sci Signal 2010, 3. ec235.
13. Li H., Yu B., Zhang Y., Pan Z., Xu W. Jagged1 protein enhances the differentiation of mesenchymal stem cells into cardiomyocytes. Biochem Biophys Res Commun 2006, 341:320-325.
14. Savary E., Sabourin J.C., Santo J., Hugnot J.P., Chabbert C., Van De Water T., et al. Cochlear stem/progenitor cells from a postnatal cochlea respond to Jagged1 and demonstrate that notch signaling promotes sphere formation and sensory potential. Mech Dev 2008, 125:674-686.
15. Aho S. Soluble form of Jagged1: unique product of epithelial keratinocytes and a regulator of keratinocyte differentiation. JCell Biochem 2004, 92:1271-1281.
16. Nickoloff B.J., Qin J.Z., Chaturvedi V., Denning M.F., Bonish B., Miele L. Jagged-1 mediated activation of notch signaling induces complete maturation of human keratinocytes through NF-kappaB and PPARgamma. Cell Death Differ 2002, 9:842-855.
17. Lindner V., Booth C., Prudovsky I., Small D., Maciag T., Liaw L. Members of the Jagged/notch gene families are expressed in injured arteries and regulate cell phenotype via alterations in cell matrix and cell-cell interaction. Am J Pathol 2001, 159:875-883.
18. Beckstead B.L., Santosa D.M., Giachelli C.M. Mimicking cell-cell interactions at the biomaterial-cell interface for control of stem cell differentiation. JBiomed Mater Res A 2006, 79:94-103.
19. Beckstead B.L., Tung J.C., Liang K.J., Tavakkol Z., Usui M.L., Olerud J.E., et al. Methods to promote notch signaling at the biomaterial interface and evaluation in a rafted organ culture model. JBiomed Mater Res A 2009, 91:436-446.
20. Varnum-Finney B., Wu L., Yu M., Brashem-Stein C., Staats S., Flowers D., et al. Immobilization of notch ligand, delta-1, is required for induction of notch signaling. JCell Sci 2000, 113:4313-4318.
21. Goncalves R.M., Martins M.C., Almeida-Porada G., Barbosa M.A. Induction of notch signaling by immobilization of Jagged-1 on self-assembled monolayers. Biomaterials 2009, 30:6879-6887.
22. Xie C.Q., Huang H., Wei S., Song L.S., Zhang J., Ritchie R.P., et al. Acomparison of murine smooth muscle cells generated from embryonic versus induced pluripotent stem cells. Stem Cells Dev 2009, 18:741-748.
23. Noseda M., Fu Y., Niessen K., Wong F., Chang L., McLean G., et al. Smooth muscle alpha-actin is a direct target of notch/CSL. Circ Res 2006, 98:1468-1470.
24. Tang Y., Urs S., Liaw L. Hairy-related transcription factors inhibit notch-induced smooth muscle alpha-actin expression by interfering with notch intracellular domain/CBF-1 complex interaction with the CBF-1-binding site. Circ Res 2008, 102:661-668.
25. Eves R., Webb B.A., Zhou S., Mak A.S. Caldesmon is an integral component of podosomes in smooth muscle cells. JCell Sci 2006, 119:1691-1702.
26. Fillinger M.F., Sampson L.N., Cronenwett J.L., Powell R.J., Wagner R.J. Coculture of endothelial cells and smooth muscle cells in bilayer and conditioned media models. JSurg Res 1997, 67:169-178.
27. Vernon S.M., Campos M.J., Haystead T., Thompson M.M., DiCorleto P.E., Owens G.K. Endothelial cell-conditioned medium downregulates smooth muscle contractile protein expression. Am J Physiol 1997, 272:C582-C591.
28. Villa N., Walker L., Lindsell C.E., Gasson J., Iruela-Arispe M.L., Weinmaster G. Vascular expression of notch pathway receptors and ligands is restricted to arterial vessels. Mech Dev 2001, 108:161-164.
29. Trifonova R., Small D., Kacer D., Kovalenko D., Kolev V., Mandinova A., et al. The non-transmembrane form of delta1, but not of Jagged1, induces normal migratory behavior accompanied by fibroblast growth factor receptor 1-dependent transformation. JBiol Chem 2004, 279:13285-13288.
30. Urs S., Roudabush A., O'Neill C.F., Pinz I., Prudovsky I., Kacer D., et al. Soluble forms of the notch ligands delta1 and Jagged1 promote invivo tumorigenicity in NIH3T3 fibroblasts with distinct phenotypes. Am J Pathol 2008, 173:865-878.
31. High F.A., Zhang M., Proweller A., Tu L., Parmacek M.S., Pear W.S., et al. An essential role for notch in neural crest during cardiovascular development and smooth muscle differentiation. JClin Invest 2007, 117:353-363.
32. Doi H., Iso T., Sato H., Yamazaki M., Matsui H., Tanaka T., et al. Jagged1-selective notch signaling induces smooth muscle differentiation via a RBP-Jkappa-dependent pathway. JBiol Chem 2006, 281:28555-28564.
33. Morrow D., Sweeney C., Birney Y.A., Cummins P.M., Walls D., Redmond E.M., et al. Cyclic strain inhibits notch receptor signaling in vascular smooth muscle cells invitro. Circ Res 2005, 96:567-575.
34. Proweller A., Pear W.S., Parmacek M.S. Notch signaling represses myocardin-induced smooth muscle cell differentiation. JBiol Chem 2005, 280:8994-9004.
35. Taqvi S., Dixit L., Roy K. Biomaterial-based notch signaling for the differentiation of hematopoietic stem cells into T cells. JBiomed Mater Res A 2006, 79:689-697.
36. High F.A., Lu M.M., Pear W.S., Loomes K.M., Kaestner K.H., Epstein J.A. Endothelial expression of the notch ligand Jagged1 is required for vascular smooth muscle development. Proc Natl Acad Sci USA 2008, 105:1955-1959.
37. Brown D.J., Rzucidlo E.M., Merenick B.L., Wagner R.J., Martin K.A., Powell R.J. Endothelial cell activation of the smooth muscle cell phosphoinositide 3-kinase/Akt pathway promotes differentiation. JVasc Surg 2005, 41:509-516.
38. Fetalvero K.M., Shyu M., Nomikos A.P., Chiu Y.F., Wagner R.J., Powell R.J., et al. The prostacyclin receptor induces human vascular smooth muscle cell differentiation via the protein kinase A pathway. Am J Physiol Heart Circ Physiol 2006, 290:H1337-H1346.
39. Wu X., Zou Y., Zhou Q., Huang L., Gong H., Sun A., et al. Role of Jagged1 in arterial lesions after vascular injury. Arterioscler Thromb Vasc Biol. 2011, 31:2000-2006.
40. Saunders K.B., D'Amore P.A. An invitro model for cell-cell interactions. InVitro Cell Dev Biol 1992, 28A:521-528.
41. Jin S., Hansson E.M., Tikka S., Lanner F., Sahlgren C., Farnebo F., et al. Notch signaling regulates platelet-derived growth factor receptor-beta expression in vascular smooth muscle cells. Circ Res 2008, 102:1483-1491.
42. Cines D.B., Pollak E.S., Buck C.A., Loscalzo J., Zimmerman G.A., McEver R.P., et al. Endothelial cells in physiology and in the pathophysiology of vascular disorders. Blood 1998, 91:3527-3561.
43. Gong Z., Niklason L.E. Small-diameter human vessel wall engineered from bone marrow-derived mesenchymal stem cells (hMSCs). FASEB J 2008, 22:1635-1648.