[咬肌肌浆网稳态钙积累及其因咖啡因的减少]。

G Saito
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引用次数: 0

摘要

骨骼肌浆网(SR)囊泡中的被动Ca2+外排途径包括通过Ca2+通道的外排和平行于通道和泵的被动泄漏。众所周知,咖啡因刺激Ca(2+)诱导的Ca2+释放。为了进一步了解咖啡因对犬咬肌SR囊泡Ca2+流量行为的影响,本研究主要关注在内源性钙调蛋白(CaM)存在或不存在的情况下,稳态Ca2+积累和被动Ca2+通透性的相互作用,已知CaM调节Ca2+释放通道。咖啡因(1)产生的钌红或内源性cam抑制草酸支持的Ca2+摄取速度的降低,对Ca2+, Mg(2+)- atp酶活性没有影响;(2)稳态Ca2+摄取减少;(3)对SR囊泡对Ca2+的通透性没有影响,这是通过测量停止泵介导的通量后Ca2+的净流出来确定的,这表明被动Ca2+通透性是改变稳态Ca2+积累的重要途径。咖啡因对稳态Ca2+摄取的抑制作用通过去除SR囊泡中的内源性CaM而适度消除。肌醇1,4,5-三磷酸(IP3)对草酸支持的Ca2+摄取速度、稳态Ca2+摄取和被动Ca2+通透性的影响与咖啡因相同。综上所述,数据表明咖啡因(1)通过抑制CaM抑制草酸盐进入途径,(2)直接改变SR中CaM依赖的Ca2+通量成分,通过Ca2+外排途径增加Ca2+释放,减少稳态Ca2+积累,而Ca2+外排途径被CaM抑制,而不是由于泵的催化活性降低;咬肌SR囊泡具有ip3敏感的Ca2+释放通道。
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[Steady-state calcium accumulation and its reduction by caffeine in sarcoplasmic reticulum from masseter muscle].

The passive Ca2+ efflux pathways in skeletal sarcoplasmic reticulum (SR) vesicles include the efflux through a Ca2+ channel and a passive leak parallel to the channel and the pump. It is known that caffeine stimulates Ca(2+)-induced Ca2+ release. To gain further insight into the effect of caffeine on Ca2+ flux behavior of canine masseter muscle SR vesicles, the present study focuses on the interaction of steady-state Ca2+ accumulation and passive Ca2+ permeability in the presence or absence of endogenous calmodulin (CaM), which is known to regulate Ca2+ release channel. Caffeine (1) produced ruthenium red- or endogenous CaM-inhibitable reduction of oxalate-supported Ca2+ uptake velocity with no effect on Ca2+, Mg(2+)-ATPase activity; (2) reduced steady-state Ca2+ uptake; and (3) had no effect on the permeability of the SR vesicles to Ca2+, determined by measuring net efflux of Ca2+ after stopping pump mediated fluxes, suggesting that passive Ca2+ permeability is unimportant pathway for changing steady-state Ca2+ accumulation. The inhibitory effect of caffeine on steady-state Ca2+ uptake was moderately abolished by the removal of endogenous CaM from SR vesicles. Inositol 1,4,5-trisphosphate (IP3) caused the same effect as that of caffeine on oxalate-supported Ca2+ uptake velocity, steady-state Ca2+ uptake and passive Ca2+ permeability. In summary, the data reveal that caffeine (1) inhibits oxalate entry pathway via inhibition of CaM, and (2) directly modifies CaM-dependent component of Ca2+ fluxes in the SR and reduces steady-state Ca2+ accumulation due to increased Ca2+ release through a Ca2+ efflux pathway which is inhibited by CaM but not due to reduced catalytic activity of the pump; and that the masseter muscle SR vesicles include IP3-sensitive Ca2+ release channel.

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