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American Journal of Pathology, Vol 147, 718-727, Copyright © 1995 by American Society for Investigative Pathology

REGULAR ARTICLES

All-trans retinoic acid inhibits fluctuations in intracellular Ca2+ resulting from changes in extracellular Ca2+

J Varani, B Burmeister, P Perone, M Bleavins and KJ Johnson
Department of Pathology, University of Michigan, Ann Arbor 48109, USA.

Previous studies have shown that all-trans retinoic acid (RA) preserves fibroblast viability and stimulates their proliferation, in part, by reducing the extracellular Ca2+ requirement (Am J Pathol 1990, 130:1275). Based on this observation, we have in the present study examined the effects of RA on Ca2+ mobilization in human dermal fibroblasts. For these studies we used the Ca(2+)-binding dyes, Fluo-3 and Indo-1. Using fluorescence of Fluo-3-loaded cells or Indo-1-loaded cells as indicators of intracellular free Ca2+, we observed that treatment of the cells with RA did no, by itself, alter the concentration of intracellular Ca2+. Nor did it interfere with the rapid, transient rise in intracellular Ca2+ induced by treatment with ionomycin. However, treatment of the cells with RA prevented re- equilibration of intracellular Ca2+ when the cells were initially equilibrated in low Ca2+ (0.15 mmol/L) culture medium and then switched to high Ca2+ (1.4 mmol/L) medium or when cells were first equilibrated in high Ca2+ medium and then switched to low Ca2+ medium. This effect of RA could be seen within seconds after treatment and the effect was observed 1 day after treatment (longest time point examined). The effect was concentration dependent and concentrations of RA that modulated Ca2+ re-equilibration (0.3 to 3.0 mumol/L) were the same as those that have previously been shown to promote fibroblast survival and growth. A biologically inactive retinoid did not have this effect. Specificity of the response was suggested by the finding that concentrations of RA that modulated Ca2+ movement had no effect on Ba2+ transport. These data suggest that RA prevents re-equilibration of intracellular Ca2+ in human dermal fibroblasts by interfering with Ca2+ movement across the plasma membrane.

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