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葡萄糖增强轮状病毒肠毒素诱导的肠道氯离子分泌。

Glucose enhances rotavirus enterotoxin-induced intestinal chloride secretion.

机构信息

Department of Radiation Oncology, University of Florida Health Cancer Center, Cancer and Genomic Research Complex, 2033 Mowry Rd., Box 103633, Gainesville, FL, 32610, USA.

出版信息

Pflugers Arch. 2017 Sep;469(9):1093-1105. doi: 10.1007/s00424-017-1987-x. Epub 2017 May 10.

Abstract

Rotavirus causes severe diarrhea in small children and is typically treated using glucose-containing oral rehydration solutions; however, glucose may have a detrimental impact on these patients, because it increases chloride secretion and presumably water loss. The rotavirus enterotoxin nonstructural protein 4 (NSP4) directly inhibits glucose-mediated sodium absorption. We examined the effects of NSP4 and glucose on sodium and chloride transport in mouse small intestines and Caco-2 cells. Mouse small intestines and Caco-2 cells were incubated with NSP4 in the presence/absence of glucose. Absorption and secretion of sodium and chloride, fluid movement, peak amplitude of intracellular calcium fluorescence, and expression of Ano1 and sodium-glucose cotransporter 1 were assessed. NHE3 activity increased, and chloride secretory activity decreased with age. Net chloride secretion increased, and net sodium absorption decreased in the intestines of 3-week-old mice compared to 8-week-old mice with NSP4. Glucose increased NSP4-stimulated chloride secretion. Glucose increased NSP4-stimulated increase in short-circuit current measurements (I ) and net chloride secretion. Ano1 cells with siRNA knockdown showed a significant difference in I in the presence of NSP4 and glucose without a significant difference in peak calcium fluorescence intracellular when compared to non-silencing (N.S.) cells. The failure of glucose to stimulate significant sodium absorption was likely due to the inhibition of sodium-hydrogen exchange and sodium-glucose cotransport by NSP4. Since glucose enhances intestinal chloride secretion and fails to increase sodium absorption in the presence of NSP4, glucose-based oral rehydration solutions may not be ideal for the management of rotaviral diarrhea.

摘要

轮状病毒会导致幼儿严重腹泻,通常采用含葡萄糖的口服补液盐进行治疗;然而,葡萄糖可能会对这些患者造成不利影响,因为它会增加氯离子分泌,从而可能导致水分流失。轮状病毒非结构蛋白 4(NSP4)可直接抑制葡萄糖介导的钠吸收。我们研究了 NSP4 和葡萄糖对小鼠小肠和 Caco-2 细胞中钠和氯转运的影响。将 NSP4 与葡萄糖共同孵育于小鼠小肠和 Caco-2 细胞中。评估了钠和氯的吸收和分泌、液体流动、细胞内钙荧光峰值幅度以及 Ano1 和钠-葡萄糖协同转运蛋白 1 的表达。NHE3 活性随年龄增加而增加,氯离子分泌活性则降低。与 8 周龄小鼠相比,3 周龄小鼠的肠道中 NSP4 可导致净氯离子分泌增加,净钠吸收减少。葡萄糖增加了 NSP4 刺激的氯离子分泌。葡萄糖增加了 NSP4 刺激的短电路电流测量(I)和净氯离子分泌。与非沉默(N.S.)细胞相比,用 siRNA 敲低的 Ano1 细胞在存在 NSP4 和葡萄糖的情况下,I 有显著差异,而细胞内钙荧光峰值无显著差异。葡萄糖未能刺激显著的钠吸收可能是由于 NSP4 抑制了钠-氢交换和钠-葡萄糖协同转运。由于葡萄糖增强了肠道氯离子分泌,并且在存在 NSP4 的情况下未能增加钠吸收,因此基于葡萄糖的口服补液盐可能不是治疗轮状病毒腹泻的理想选择。

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