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Persistent spreading of ligament cells on osteopontin/bone sialoprotein-I or collagen enhances tolerance to heat shock

1990; Elsevier BV; Volume: 188; Issue: 1 Linguagem: Inglês

10.1016/0014-4827(90)90283-g

1090-2422

John J. Sauk, Craig L. Van Kampen, Kathleen Norris, Jennifer Moehring, Ruth A. Foster, Martha J. Somerman,

Cellular Mechanics and Interactions

Fibronectin (FN), bone sialoprotein-I (BSP-I), Type I collagen, and a number of synthetic peptides containing the integrin attachment sequence (RDG) were evaluated for their ability to affect stress tolerance in osteo-ligament cells (OL). The attachment and spreading of OL cells was determined by the method of Klebe (1974) and Akiyama et al. (1986). Survival from heat shock was evaluated after the methods of Gerner et al. (1976). These studies showed that FN, BSP-I, and synthetic RGD peptides enhance attachment of OL cells. Increased survival from heat was limited to cells spread on fibronectin, BSP-I, and Type I collagen. OL cells that persistently spread on BSP-I and Type I collagen had more survivors than cells demonstrating transient spreading on FN. These studies indicate that (a) cell spreading is a prerequisite for stress tolerance and (b) enhanced stress tolerance is mediated by protein sequences other than those immediately surrounding the RGD sites in native proteins.