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Glucose-6-phosphate Reduces Calcium Accumulation in Rat Brain Endoplasmic Reticulum.

机译：葡萄糖-6-磷酸降低大鼠脑内质网钙积累。

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Brain cells expend large amounts of energy sequestering calcium (Ca2+), while loss of Ca2+ compartmentalization leads to cell damage or death. Upon cell entry, glucose is converted to glucose-6-phosphate (G6P), a parent substrate to several metabolic major pathways, including glycolysis. In several tissues, G6P alters the ability of the endoplasmic reticulum (ER) to sequester Ca2+. This led to the hypothesis that G6P regulates Ca2+ accumulation by acting as an endogenous ligand for sarco-endoplasmic reticulum calcium ATPase(SERCA).Whole brain ER microsomes were pooled from adult male Sprague- Dawley rats. Using radio-isotopic assays, 45Ca2+ accumulation was quantified following incubation with increasing amounts of G6P, in the presence or absence of thapsigargin, a potent SERCA inhibitor. To qualitatively assess SERCA activity, the simultaneous release of inorganic phosphate (Pi) coupled with Ca2+ accumulation was quantified. Addition of G6P significantly and decreased Ca2+ accumulation in a dose-dependent fashion (1 10mM). The reduction in Ca2+ accumulation was not significantly different that seen with addition of thapsigargin. Addition of glucose-1-phosphate or fructose-6-phosphate, or other glucose metabolic pathway intermediates, had no effect on Ca2+ accumulation. Further, the release ofPi wasmarkedly decreased, indicatingG6P- mediatedSERCAinhibition as the responsible mechanism for reduced Ca2+ uptake. Simultaneous addition of thapsigargin and G6P did decrease inorganic phosphate in comparison to either treatment alone, which suggests that the two treatments have different mechanisms of action. Therefore, G6P may be a novel, endogenous regulator of SERCA activity. Additionally, pathological conditions observed during disease states that disrupt glucose homeostasis, may be attributable to Ca2+ dystasis caused by altered G6P regulation of SERCA activity.

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Cole, J. T.; Kean, W. S.; Pollard, H. B.; Verma, A.; Watson, W. D.;
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年度 2012
页码 1-9
总页数 9
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Brain; Microsomes; Phosphates; Calcium; Cells(Biology); Coupling(Interaction); Cytoplasm; Damage; Diseases; Glucose; Homeostasis; Hypotheses; Inorganic compounds; Ligands; Metabolism; Pathology; Rats; Reticular formation; Skills; Synchronism; Tissues(Biology); Endoplasmic reticulum; Thapsigargin;

机译：脑;微粒体;磷酸盐;钙;细胞（生物学）;偶联（相互作用）;细胞质;损伤;疾病;葡萄糖;体内平衡;假设;无机化合物;配体;代谢;病理学;大鼠;网状结构;技能;同步;组织（生物学）;内质网; Thapsigargin;

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机译：证明海胆卵皮质内质网摄取和释放钙。
3. Demonstration of calcium uptake and release by sea urchin egg cortical endoplasmic reticulum. [J] . M Terasaki, C Sardet Journal of cell biology . 1991,第4期

机译：证明海胆卵皮质内质网摄取和释放钙。
4. Effects of Aluminum Exposure on Calcium Homeostasis in Chicken Brain: Preliminary Study of Aluminum Accumulation on Nervous System in Chickens [C] . Zhang Li-chao, Li Xin-wei, Liu Hong-qiang, 2010 4th International Conference on Bioinformatics and Biomedical Engineering . 2010

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5. Dynamic structural mechanism for active calcium transport by the calcium-ATPase in skeletal muscle sarcoplasmic reticulum. [D] . Huang, Shaohui. 1998

机译：钙-ATP酶在骨骼肌肌浆网中主动钙转运的动态结构机制。
6. Glucose-6-phosphate reduces calcium accumulation in rat brain endoplasmic reticulum [O] . Jeffrey T. Cole, William S. Kean, Harvey B. Pollard, 2012

机译：6-磷酸葡萄糖减少大鼠脑内质网中钙的积累
7. Glucose-6-phosphate reduces calcium accumulation in rat brain endoplasmic reticulum [O] . Cole, Jeffrey T., Kean, William S., Pollard, Harvey B., 2012

机译：6-磷酸葡萄糖减少大鼠脑内质网中钙的积累

Glucose-6-phosphate Reduces Calcium Accumulation in Rat Brain Endoplasmic Reticulum.

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