Keratocyte matrix interactions and thrombospondin 2

Abstract

Purpose: To determine whether human keratocytes synthesize thrombospondins 2 and 3 (TSP-2, TSP-3) in a collagen matrix and the effect of addition of antibodies to TSP-2 and TSP-3 on keratocyte-populated collagen matrix contraction.

Methods: Keratocyte-populated collagen matrices were evaluated for TSP-2 and TSP-3 mRNA. Sections of matrices were stained by immunohistochemistry for TSP-2 and TSP-3. Keratocyte populated collagen matrices were treated with antibodies specific for TSP-2 and TSP-3 and these preparations were evaluated for contraction and keratocyte morphology.

Results: Keratocyte derived fibroblasts in collagen matrices contained TSP-2 and TSP-3 mRNA, and the cells were immunoreactive for both proteins. Compared to controls, an antibody specific to the N-terminal domain of TSP-2 significantly inhibited matrix contraction for up to 10 days at a concentration of 20 microg/ml antibody. At 2 microg/ml TSP-2 antibody concentration significant inhibition occurred up to 3 days. Removal of the antibody from the media reversed the inhibitory effect. Cultured keratocytes in TSP-2 treated collagen matrices appeared more rounded than keratocytes in control matrices. An antibody specific to TSP-3 had no effect on matrix contraction or keratocyte morphology.

Conclusions: Keratocyte derived fibroblasts synthesize TSP-2 and TSP-3 when seeded in collagen matrices. Antibody specific to TSP-2 reversibly inhibits matrix contraction. TSP-2 may play a key role in keratocyte/collagen matrix interactions, as may occur during corneal stromal repair.