OBJECTIVE: Based on our previous observations on the expression of Tenascin-C (Tn-C) in human atherosclerotic plaques and its colocalization with macrophages, we explored whether Tn-C undergoes fragmentation and the potential pathobiological significance of this fragmentation. METHODS AND RESULTS: Using cultured human smooth muscle cells (SMCs), we found that Tn-C upregulates expression of matrix metalloproteinases (MMPs). Western blot analysis revealed that Tn-C substrate is fragmented and most of the cleavage products have fibronectin-like and epidermal growth factor-like (EGF-like) domains of Tn-C. One fragment that contains an EGF-like domain was found in some human atherosclerotic plaques. Cell culture studies revealed that the recombinant EGF-like domain inhibits growth, induces apoptosis of SMCs in a dose-dependent, time-dependent, and caspase-dependent manner, and activates caspase-3 before SMC detachment. Conversely, the caspase inhibitor z-YVAD.cmk, serum, and protease inhibitors blocked cell apoptosis conferred by the EGF-like domain. In addition, these inhibitors blocked EGF-like domain-induced caspase-3 activation. In contrast to this EGF-like domain, intact Tn-C, its fibronectin-like, and its fibrinogen-like domains were inactive. CONCLUSIONS: Together with our previous observations, our data suggest that Tn-C upregulates MMP expression that cleaves Tn-C into fragments containing the EGF-like domain. This domain has proapoptotic activity for SMCs.
OBJECTIVE: Based on our previous observations on the expression of Tenascin-C (Tn-C) in humanatherosclerotic plaques and its colocalization with macrophages, we explored whether Tn-C undergoes fragmentation and the potential pathobiological significance of this fragmentation. METHODS AND RESULTS: Using cultured human smooth muscle cells (SMCs), we found that Tn-C upregulates expression of matrix metalloproteinases (MMPs). Western blot analysis revealed that Tn-C substrate is fragmented and most of the cleavage products have fibronectin-like and epidermal growth factor-like (EGF-like) domains of Tn-C. One fragment that contains an EGF-like domain was found in some humanatherosclerotic plaques. Cell culture studies revealed that the recombinant EGF-like domain inhibits growth, induces apoptosis of SMCs in a dose-dependent, time-dependent, and caspase-dependent manner, and activates caspase-3 before SMC detachment. Conversely, the caspase inhibitor z-YVAD.cmk, serum, and protease inhibitors blocked cell apoptosis conferred by the EGF-like domain. In addition, these inhibitors blocked EGF-like domain-induced caspase-3 activation. In contrast to this EGF-like domain, intact Tn-C, its fibronectin-like, and its fibrinogen-like domains were inactive. CONCLUSIONS: Together with our previous observations, our data suggest that Tn-C upregulates MMP expression that cleaves Tn-C into fragments containing the EGF-like domain. This domain has proapoptotic activity for SMCs.
Authors: Azhar Maqbool; Emma J Spary; Iain W Manfield; Michaela Ruhmann; Lorena Zuliani-Alvarez; Filomena O Gamboa-Esteves; Karen E Porter; Mark J Drinkhill; Kim S Midwood; Neil A Turner Journal: World J Cardiol Date: 2016-05-26
Authors: Mollie A Minear; David R Crosslin; Beth S Sutton; Jessica J Connelly; Sarah C Nelson; Shera Gadson-Watson; Tianyuan Wang; David Seo; Jeffrey M Vance; Michael H Sketch; Carol Haynes; Pascal J Goldschmidt-Clermont; Svati H Shah; William E Kraus; Elizabeth R Hauser; Simon G Gregory Journal: Hum Genet Date: 2011-02-05 Impact factor: 4.132
Authors: Doris M Benbrook; Stan Lightfoot; James Ranger-Moore; Tongzu Liu; Shylet Chengedza; William L Berry; Igor Dozmorov Journal: Gene Regul Syst Bio Date: 2008