Hyaluronic acid production and CD44 expression in cultured dermal fibroblasts of patients with non-insulin-dependent diabetes mellitus with and without chronic ulcers on the lower extremity.
It is well known that hyaluronic acid and its principal receptor, CD44, are implicated in the regulation of the tissue repair process, but their role in the formation of chronic diabetic ulcers has not been studied. Hyaluronic acid metabolism and CD44 expression are regulated by lactate, where their increased production is considered to affect the properties of fibroblasts in non-insulin-dependent diabetes mellitus. The aim of our work was to investigate the possible role of hyaluronic acid and CD44, and their regulation by lactate, in the abnormal wound healing of diabetes. Fibroblasts were derived from uninjured skin from four non-insulin-dependent diabetic patients with ulcers and four without ulcers; and from four healthy age-matched volunteers. We observed that diabetic fibroblasts of both groups produced more L-lactate ( approximately 30%) and incorporated more (3)H-glucosamine into the medium hyaluronic acid ( approximately 28%) than controls. Fibroblasts of the diabetic group with ulcers, unlike those of the group without ulcers, showed significant increases in the high molecular weight hyaluronic acid accumulation in the pericellular matrix (30.5%, p