Cubitt A B, Gershengorn M C
Department of Medicine, Cornell University Medical College, New York, NY.
Biochem J. 1990 Dec 15;272(3):813-6. doi: 10.1042/bj2720813.
CMP is known to activate phosphatidylinositol (PtdIns)/inositol (Ins) base exchange and has been reported to activate reversal of PtdIns synthase also. Because it is possible that PtdIns synthase acting in the reverse direction, followed by re-incorporation of ambient Ins, could be responsible for base-exchange activity, we characterized these processes in rat pituitary GH3 cells. In permeabilized GH3 cells prelabelled with [3H]Ins and incubated in buffer with LiCl but without added Ins, CMP stimulated rapid accumulation of [3H]Ins and decreases in [3H]PtdIns; the Km for CMP was 1.7 mM. CDP and CTP were less effective, whereas 2'-CMP, 3'-CMP, other nucleoside monophosphates and cytidine did not influence this process. In permeabilized cells prelabelled to isotopic equilibrium with [3H]Ins and [32P]Pi, CMP stimulated decreases in both the 32P and 3H labelling of PtdIns, but did not increase that of [32P]phosphatidic acid. These findings demonstrate that in the absence of added Ins the effect of CMP is not via activation of base exchange nor via a phospholipase D, but by reversal of PtdIns synthase. In permeabilized cells prelabelled with [3H]Ins and [32P]Pi, unlabelled Ins inhibited loss of 32P labelling of PtdIns caused by CMP while markedly stimulating loss of 3H labelling of PtdIns and release of [3H]Ins. These data demonstrate that Ins inhibits reversal of PtdIns synthase, but stimulates base exchange. We conclude that in GH3 cells reversal of PtdIns synthase and PtdIns/Ins base exchange are both stimulated by CMP, but are distinct processes.
已知胞苷一磷酸(CMP)可激活磷脂酰肌醇(PtdIns)/肌醇(Ins)碱基交换,并且有报道称它还能激活PtdIns合酶的逆向反应。由于逆向作用的PtdIns合酶,随后再掺入周围的Ins,可能是碱基交换活性的原因,因此我们在大鼠垂体GH3细胞中对这些过程进行了表征。在用[3H]Ins预标记并在含有LiCl但未添加Ins的缓冲液中孵育的透化GH3细胞中,CMP刺激了[3H]Ins的快速积累以及[3H]PtdIns的减少;CMP的米氏常数(Km)为1.7 mM。胞苷二磷酸(CDP)和胞苷三磷酸(CTP)的效果较差,而2'-CMP、3'-CMP、其他核苷单磷酸和胞嘧啶对这一过程没有影响。在用[3H]Ins和[32P]Pi预标记至同位素平衡的透化细胞中,CMP刺激了PtdIns的32P和3H标记的减少,但没有增加[32P]磷脂酸的标记。这些发现表明,在没有添加Ins的情况下,CMP的作用不是通过激活碱基交换,也不是通过磷脂酶D,而是通过PtdIns合酶的逆向反应。在用[3H]Ins和[32P]Pi预标记的透化细胞中,未标记的Ins抑制了由CMP引起的PtdIns的32P标记的损失,同时显著刺激了PtdIns的3H标记的损失和[3H]Ins的释放。这些数据表明,Ins抑制PtdIns合酶的逆向反应,但刺激碱基交换。我们得出结论,在GH3细胞中,PtdIns合酶的逆向反应和PtdIns/Ins碱基交换均受到CMP的刺激,但它们是不同的过程。