The effect of extracellular calcium on colonocytes: evidence for differential responsiveness based upon degree of cell differentiation

Abstract

Calcium supplementation decreases the incidence of colon cancer in animal models and may prevent colon cancer in man. Potential mechanisms include binding of mitogens and direct effects of calcium on colonic epithelial cells. In this study, the effects of extracellular calcium on epithelial cell growth and differentiation were studied in three colon carcinoma and two colonic adenoma cell lines. The characteristics studied included morphology, cell cycle kinetics, [Ca²⁺]_IC (intracellular calcium concentration), proliferation, and expression of differentiation markers such as carcinoembryonic antigen (CEA) and alkaline phosphatase (AP). Sodium butyrate (NaB) and 1,25‐dihydroxyvitamin D₃ were used as controls in the latter three assays as these two agents are known differentiating agents. Alteration of [Ca⁺²]_EC (extracellular calcium concentration) did not affect carcinoembryonic antigen (CEA) or alkaline phosphatase (AP) expression. NaB enhanced the expression of AP three‐fold and CEA five‐fold. This effect was augmented by increasing [Ca²⁺]_EC. The exposure of cells to 1,25‐(OH)₂‐Vitamin D₃ increased CEA but not AP. [Ca²⁺]_IC increased in response to 1,25‐(OH)₂‐vitamin D₃ and NaB but not with variation in [Ca²⁺]_EC. Increased [Ca²⁺]_EC inhibited proliferation of well‐differentiated cells, but had no effect on poorly‐differentiated cells. Morphological studies showed that extracellular calcium was necessary for normal cell—cell interactions.These studies have demonstrated direct effects of calcium on colonic epithelial cells which may contribute to the protective effects of dietary calcium against colon cancer. Loss of responsivess to the antiprotective effects of [Ca²⁺]_EC with de‐differentiation suggests that calcium supplementation may be most beneficial prior to the development of neoplastic changes in colonic epithelium.