François J, Hers H G
Laboratoire de Chimie Physiologique de l'Université Catholique de Louvain, Bruxelles, Belgium.
Eur J Biochem. 1988 Jun 15;174(3):561-7. doi: 10.1111/j.1432-1033.1988.tb14135.x.
Two interconvertible forms of glycogen synthase and glycogen phosphorylase, one active (a) or the other less active (b), were predominantly present in a thermosensitive adenylate-cyclase-deficient mutant that had been preincubated at the restrictive temperature of 35 degrees C, either in the presence or in the absence of glucose. Glycogen phosphorylase was at least 20-fold less active after incubation of the cells in the presence of glucose, but this residual activity had kinetic properties identical to those of the active form of enzyme, obtained after incubation in the absence of glucose; this suggests that the b form might be completely inactive and that the low activity measured after glucose treatment must be attributed to a residual amount of phosphorylase a. By contrast, the kinetic properties of the two forms of glycogen synthase were very different. When measured in the absence of glucose 6-phosphate, the two forms of enzyme had a similar affinity for UDP-Glc but differed essentially by their Vmax. Glucose 6-phosphate had no effect on synthase a, but increased both Vmax and Km of synthase b; these effects, however, were in great part counteracted by sulfate and by inorganic phosphate, the latter also having the property of increasing the Km of the a form, without affecting Vmax. It was estimated that at physiological concentrations of substrates and effectors, synthase a was about 20-fold more active than synthase b. When an extract of cells that had been preincubated in the absence of glucose was gel-filtered and then incubated at 30 degrees C, phosphorylase was progressively fully inactivated and synthase was partially activated; these reactions were severalfold faster and, in the case of glycogen synthase, more complete in the presence of 10 mM glucose 6-phosphate. When a gel-filtered extract of cells that had been preincubated in the presence of glucose was incubated at 30 degrees C in the presence of ATP-Mg and EGTA, phosphorylase became activated and synthase was inactivated; the first of these two reactions was severalfold stimulated by micromolar concentrations of Ca2+, whereas both reactions were completely inhibited by 10 mM glucose 6-phosphate and only slightly and irregularly stimulated by cyclic AMP.
在一个对温度敏感的腺苷酸环化酶缺陷型突变体中,糖原合酶和糖原磷酸化酶主要存在两种可相互转化的形式,一种是活性形式(a),另一种是活性较低的形式(b)。该突变体在35℃的限制温度下预孵育,无论有无葡萄糖存在。在有葡萄糖存在的情况下培养细胞后,糖原磷酸化酶的活性至少降低20倍,但这种残余活性的动力学性质与在无葡萄糖情况下培养后获得的酶活性形式相同;这表明b形式可能完全无活性,葡萄糖处理后测得的低活性一定归因于残余量的磷酸化酶a。相比之下,两种形式的糖原合酶的动力学性质非常不同。在没有6-磷酸葡萄糖的情况下进行测量时,两种形式的酶对UDP-葡萄糖具有相似的亲和力,但主要区别在于它们的Vmax。6-磷酸葡萄糖对合酶a没有影响,但增加了合酶b的Vmax和Km;然而,这些效应在很大程度上被硫酸盐和无机磷酸盐抵消,无机磷酸盐还具有增加a形式的Km而不影响Vmax的特性。据估计,在底物和效应物的生理浓度下,合酶a的活性比合酶b高约20倍。当在无葡萄糖的情况下预孵育的细胞提取物进行凝胶过滤,然后在30℃下孵育时,磷酸化酶逐渐完全失活,合酶部分活化;这些反应快几倍,并且在糖原合酶的情况下,在10 mM 6-磷酸葡萄糖存在下更完全。当在有葡萄糖的情况下预孵育的细胞的凝胶过滤提取物在ATP-Mg和EGTA存在下于30℃孵育时,磷酸化酶被激活,合酶失活;这两个反应中的第一个被微摩尔浓度的Ca2+刺激几倍,而两个反应都被10 mM 6-磷酸葡萄糖完全抑制,并且仅被环磷酸腺苷轻微且不规则地刺激。
