AbstractWe report here the effects of growth conditions and myogenic differentiation on rat myoblast hexose transport activities. We have previously shown that in undifferentiated myoblasts the preferred substrates for the high (HAHT)‐ and low (LAHT)‐affinity hexose transport systems are 2‐deoxyglucose (2‐DG) and 3‐O‐methyl‐D‐glucose (3‐OMG), respectively. The present study shows that at cell density higher than 4.4 × 104cells/cm2, the activities of both transport processes decrease with increasing cell densities of the undifferentiated myoblasts. Since the transport affinities are not altered, the observed decrease is compatible with the notion that the number of functional hexose transporters may be decreased in the plasma membrane. Myogenic differentiation is found to alter the 2‐DG, but not the 3‐OMG, transport affinity. The Km values of 2‐DG uptake are elevated upon the onset of fusion and are directly proportional to the extent of fusion. This relationship between myogenesis and hexose transport is further explored by using cultures impaired in myogenesis. Treatment of cells with 5‐bromo‐2′‐deoxyuridine abolishes not only myogenesis but also the myogenesis‐induced change in 2‐DG transport affinity. Similarly, alteration in 2‐DG transport affinity cannot be observed in a myogenesis‐defective mutant, D1. However, under myogenesis‐permissive condition, the myogenesis of this mutant is also accompanied by changes in its 2‐DG transport affinity. The myotube 2‐DG transport system also differs from its myoblast counterpart in its response to sulfhydryl reagents and in its turnover rate. It may be surmised from the above observations that myogenesis results in the alteration of the turnover rate or in the modification of the 2‐DG transport system. Although glucose starvation has no effect on myogenesis, it is found to alter the substrate specificity and transport capacity of HAHT. In conclusion, the present study shows that hexose transport in rat myoblasts is very sensitive to the growth conditions and the stages of differentiation of the cultures. This may explain why different hexose transport properties have been observed
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