OBJECTIVE: To assess if various biological responses to transforming growth factor-beta (TGF-beta) in chondrocytes are differentially regulated by Smad-6 and Smad-7. DESIGN: Adenoviral overexpression of Smad-6 or -7 mRNA in a chondrocyte cell line was determined via semi-quantitative RT-PCR and protein overexpression was studied by immunocytochemistry. Furthermore, the effect of Smad-6 and -7 overexpression on TGF-beta-induced PAI-1 and aggrecan mRNA upregulation was studied via quantitative RT-PCR. The effect of Smad-6 and -7 overexpression on TGF-beta-induced chondrocyte proliferation was studied via DNA quantification, whereas TGF-beta-induced proteoglycan (PG) synthesis was studied by 35S-sulfate incorporation. RESULTS: Adenoviral transfection of chondrocytes with Smad-6 and -7 resulted in strong upregulation of Smad-6 and -7 mRNA levels, respectively. Immunocytochemistry showed overexpression of Smad-6 and -7 proteins in both the nucleus and cytoplasm. Smad-6 overexpression significantly inhibited TGF-beta-stimulated chondrocyte proliferation, although proliferation was not completely abolished. Smad-7 overexpression, however, completely antagonized the TGF-beta effect on proliferation. Smad-6 overexpression had no effect on TGF-beta-induced PAI-1 expression, while overexpression of Smad-7 completely blocked this TGF-beta effect. Additionally, overexpression of Smad-7, but not Smad-6, totally prevented TGF-beta-induced PG synthesis on the mRNA and protein levels. CONCLUSIONS: Adenoviral transfection of chondrocytes with Smad-6 and -7 resulted in strong upregulation of Smad-6 and -7 mRNA and protein levels. Furthermore, overexpression of Smad-7 in chondrocytes totally inhibited important TGF-beta-mediated biological responses such as proliferation and PG synthesis, while overexpressed Smad-6 had no or only a partial inhibitory effect on TGF-beta activity. We conclude that in chondrocytes distinct TGF-beta activities are differentially regulated by Smad-6 and Smad-7.
OBJECTIVE: To assess if various biological responses to transforming growth factor-beta (TGF-beta) in chondrocytes are differentially regulated by Smad-6 and Smad-7. DESIGN: Adenoviral overexpression of Smad-6 or -7 mRNA in a chondrocyte cell line was determined via semi-quantitative RT-PCR and protein overexpression was studied by immunocytochemistry. Furthermore, the effect of Smad-6 and -7 overexpression on TGF-beta-induced PAI-1 and aggrecan mRNA upregulation was studied via quantitative RT-PCR. The effect of Smad-6 and -7 overexpression on TGF-beta-induced chondrocyte proliferation was studied via DNA quantification, whereas TGF-beta-induced proteoglycan (PG) synthesis was studied by 35S-sulfate incorporation. RESULTS: Adenoviral transfection of chondrocytes with Smad-6 and -7 resulted in strong upregulation of Smad-6 and -7 mRNA levels, respectively. Immunocytochemistry showed overexpression of Smad-6 and -7 proteins in both the nucleus and cytoplasm. Smad-6 overexpression significantly inhibited TGF-beta-stimulated chondrocyte proliferation, although proliferation was not completely abolished. Smad-7 overexpression, however, completely antagonized the TGF-beta effect on proliferation. Smad-6 overexpression had no effect on TGF-beta-induced PAI-1 expression, while overexpression of Smad-7 completely blocked this TGF-beta effect. Additionally, overexpression of Smad-7, but not Smad-6, totally prevented TGF-beta-induced PG synthesis on the mRNA and protein levels. CONCLUSIONS: Adenoviral transfection of chondrocytes with Smad-6 and -7 resulted in strong upregulation of Smad-6 and -7 mRNA and protein levels. Furthermore, overexpression of Smad-7 in chondrocytes totally inhibited important TGF-beta-mediated biological responses such as proliferation and PG synthesis, while overexpressed Smad-6 had no or only a partial inhibitory effect on TGF-beta activity. We conclude that in chondrocytes distinct TGF-beta activities are differentially regulated by Smad-6 and Smad-7.
Authors: Kristine D Estrada; Weiguang Wang; Kelsey N Retting; Chengan T Chien; Fuad F Elkhoury; Rainer Heuchel; Karen M Lyons Journal: Dev Biol Date: 2013-08-29 Impact factor: 3.582
Authors: Kyung-Ok Kim; Erik R Sampson; Robert D Maynard; Regis J O'Keefe; Di Chen; Hicham Drissi; Randy N Rosier; Matthew J Hilton; Michael J Zuscik Journal: J Cell Biochem Date: 2012-06 Impact factor: 4.429
Authors: Henk M van Beuningen; Marloes L de Vries-van Melle; Elly L Vitters; Wim Schreurs; Wim B van den Berg; Gerjo J V M van Osch; Peter M van der Kraan Journal: Tissue Eng Part A Date: 2014-03-25 Impact factor: 3.845