Neuromedin B通过pkc依赖性和pkc非依赖性机制激活磷脂酶D

Wei Hou, Takaharu Tsuda, Robert T Jensen
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引用次数: 15

摘要

神经介质蛋白B (NMB)是最近发现的一种哺乳动物炸弹素相关肽,其作用是通过与一种独特的受体相互作用来介导的;然而,人们对其作用的细胞基础知之甚少。最近的研究表明,磷脂酶D (PLD)的激活是许多GI激素的重要转导级联,特别是刺激生长和蛋白质分选。本研究的目的是确定NMB受体的激活是否会导致PLD的激活,并探索这种激活是否与PLC的激活相耦合。实验使用含有低密度天然NMB受体的大鼠C6胶质母细胞瘤细胞(C6细胞)和稳定转染了大鼠NMB受体的BALB 3T3细胞。NMB导致C6细胞PLD活性增加3倍,rNMB-R转染细胞PLD活性增加11倍。PLD活性迅速增加,NMB比胃泌素释放肽(GRP)强100倍。NMB在0.2 nM时引起[Ca2+]i的一半最大增加,在1 nM时引起[3H]IP和PLD的一半最大增加,在1.2 nM时引起受体占用的一半最大增加。TPA增加PLD的剂量依赖性,在60 nM处达到半最大效应。单独的钙离子载体A23187 (1 μM)不能增加PLD活性,但可以增强TPA的作用。Ca2+- atp酶抑制剂thapsigarin不影响NMB-或tpa刺激的PLD活性,尽管它完全阻断了NMB诱导的[Ca2+]i的增加。PKC抑制剂GF109203X完全消除tpa诱导的PLD活性,但仅抑制nmb诱导的PLD活性20%。thapsigargin与GF109203X联合使用与单独使用GF109203X效果相同。这些数据表明NMB受体激活与PLC和PLD都耦合。与许多其他磷脂酶c偶联受体相比,NMB受体刺激的[Ca2+]i的变化不会导致PLD激活。pkc依赖性和pkc非依赖性机制都参与了nmb刺激的PLD激活,其中pkc非依赖性途径占主导地位。
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Neuromedin B activates phospholipase D through both PKC-dependent and PKC-independent mechanisms

The actions of neuromedin B (NMB), a recently discovered mammalian bombesin-related peptide, are mediated by interacting with a distinct receptor; however, little is known about its cellular basis of action. Recent studies show activation of phospholipase D (PLD) is an important transduction cascade for a number of GI hormones, especially for stimulation of growth and protein sorting. The purpose of the present study was to determine whether activation of the NMB receptor causes activation of PLD and to explore whether this activation was coupled to PLC activation. Rat C6 glioblastoma cells (C6 cells), which contain a low density of native NMB receptors and BALB 3T3 cells stably transfected with rat NMB receptors, were used. NMB caused a 3-fold increase in C6 cells and an 11-fold increase in rNMB-R transfected cells in PLD activity. Increases in PLD activity were rapid and NMB was 100-fold more potent than gastrin-releasing peptide (GRP). NMB caused a half-maximal increase in [Ca2+]i at 0.2 nM, in [3H]IP and PLD at 1 nM, and half-maximal receptor occupation at 1.2 nM. TPA increased PLD dose-dependently with a half-maximal effect at 60 nM. The calcium ionophore A23187 (1 μM) alone did not increase PLD activity but potentiated the effect of TPA. The Ca2+-ATPase inhibitor, thapsigargin, did not affect NMB- or TPA-stimulated PLD activities, although it blocked completely the NMB-induced increase in [Ca2+]i. The PKC inhibitor GF109203X completely abolished TPA-induced PLD activity, however, it only inhibited NMB-induced PLD activity by 20%. The combination of thapsigargin and GF109203X had the same effect as GF109203X alone. These data indicate that NMB receptor activation is coupled to both PLC and PLD. In contrast to a number of other phospholipase C-coupled receptors, NMB receptor stimulated changes in [Ca2+]i do not contribute to PLD activation. Both PKC-dependent and PKC-independent mechanisms are involved in the NMB-stimulated PLD activation with the PKC-independent pathway predominating.

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