Tunicamycin-induced alterations in the synthesis of sulfated proteoglycans and cell surface morphology in the chick embryo fibroblast

Abstract

The effect of tunicamycin (TM) on the synthesis and secretion of sulfated proteoglycans and hyaluronate was examined in chick embryo fibroblasts and chondrocytes. The incorporation of the precursors [ 3H]glucosamine, [ 3H]mannose and [ 35S]sulfate into glycoconjugates in both the cell layer and medium of cultures was determined. In the chick embryo fibroblast, but not in the chondrocyte, synthesis of sulfated proteoglycan was inhibited 60–75% by TM (5 × 10 −8 M), while synthesis of hyaluronate and protein was only inhibited slightly. The inhibition of sulfate incorporation into glycosaminoglycans of the chick embryo fibroblast was overcome to a great extent by addition of β-xyloside, which provides an exogenous initiator for chondroitin sulfate synthesis. TM treatment also altered cell shape and surface morphology in chick embryo fibroblasts, as observed by phase contrast and scanning electron microscopy (SEM). Cells treated with TM became rounded, and increased numbers of microvilli and blebs appeared on the cell surface. These alterations in cell morphology were reversed by removal of TM, but not by exogenous addition of xyloside, chondroitin sulfate or the adhesive cell surface glycoprotein fibronectin. These results demonstrate that TM inhibits synthesis of sulfated proteoglycans in the chick embryo fibroblast and causes a dramatic alteration in cell shape and surface morphology.