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电压门控性H通道(HVCN1)的抑制会诱导白血病Jurkat T细胞酸化,从而通过凋亡促进细胞死亡。

The inhibition of voltage-gated H channel (HVCN1) induces acidification of leukemic Jurkat T cells promoting cell death by apoptosis.

作者信息

Asuaje Agustín, Smaldini Paola, Martín Pedro, Enrique Nicolás, Orlowski Alejandro, Aiello Ernesto A, Gonzalez León Carlos, Docena Guillermo, Milesi Verónica

机构信息

Instituto de Estudios Inmunológicos y Fisiopatológicos (IIFP, CONICET-Universidad Nacional de la Plata), Fac. de Ciencias Exactas, Universidad Nacional de La Plata, 47 y 115, 1900, La Plata, Argentina.

Centro de Investigaciones Cardiovasculares (CIC, CONICET-Universidad Nacional de la Plata), Fac. de Ciencias Médicas, Universidad Nacional de La Plata, 60 y 120, 1900, La Plata, Argentina.

出版信息

Pflugers Arch. 2017 Feb;469(2):251-261. doi: 10.1007/s00424-016-1928-0. Epub 2016 Dec 24.

DOI:10.1007/s00424-016-1928-0
PMID:28013412
Abstract

Cellular energetic deregulation is widely known to produce an overproduction of acidic species in cancer cells. This acid overload must be counterbalanced with a high rate of H extrusion to maintain cell viability. In this sense, many H transporters have been reported to be crucial for cell survival and proposed as antineoplastic target. By the way, voltage-gated proton channels (Hv1) mediate highly selective H outward currents, capable to compensate acid burden in brief periods of time. This structure is canonically described acting as NADPH oxidase counterbalance in reactive oxygen species production. In this work, we show, for the first time in a oncohematologic cell line, that inhibition of Hv1 channels by Zn and the more selective blocker 2-(6-chloro-1H-benzimidazol-2-yl)guanidine (ClGBI) progressively decreases intracellular pH in resting conditions. This acidification is evident minutes after blockade and progresses under prolonged exposure (2, 17, and 48 h), and we firstly demonstrate that this is followed by cell death through apoptosis (annexin V binding). Altogether, these results contribute strong evidence that this channel might be a new therapeutic target in cancer.

摘要

细胞能量调节异常会导致癌细胞中酸性物质过度产生,这是广为人知的。这种酸负荷必须通过高比率的氢离子(H⁺)外排来平衡,以维持细胞活力。从这个意义上说,许多氢离子转运蛋白据报道对细胞存活至关重要,并被提议作为抗肿瘤靶点。顺便提一下,电压门控质子通道(Hv1)介导高度选择性的氢离子外向电流,能够在短时间内补偿酸负荷。这种结构通常被描述为在活性氧产生过程中作为烟酰胺腺嘌呤二核苷酸磷酸(NADPH)氧化酶的平衡物。在这项研究中,我们首次在一种血液肿瘤细胞系中表明,锌和更具选择性的阻滞剂2 -(6 -氯 - 1H -苯并咪唑 - 2 -基)胍(ClGBI)对Hv1通道的抑制作用会在静息状态下逐渐降低细胞内pH值。这种酸化在阻断后几分钟就很明显,并在长时间暴露(2、17和48小时)后持续进展,并且我们首次证明这随后会导致细胞通过凋亡(膜联蛋白V结合)死亡。总之,这些结果提供了有力证据,表明该通道可能是癌症治疗的新靶点。

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ACS Chem Neurosci. 2016 Jul 20;7(7):864-9. doi: 10.1021/acschemneuro.6b00083. Epub 2016 Jun 2.
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Na(+)/H(+) antiporter (NHE1) and lactate/H(+) symporters (MCTs) in pH homeostasis and cancer metabolism.钠/氢反向转运体(NHE1)和乳酸/氢同向转运体(MCTs)在pH稳态和癌症代谢中的作用
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Alkalinity of neutrophil phagocytic vacuoles is modulated by HVCN1 and has consequences for myeloperoxidase activity.
基于结构的虚拟筛选鉴定新型 H1 抑制剂结构类别。
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N-terminal region is responsible for mHv1 channel activity in MDSCs.N 端区域负责 MDSCs 中 mHv1 通道的活性。
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Role of S100 and YKL40 on Intraventricular Cerebral Hemorrhages in the Preterm Infant and the Neuroprotective Role of miR-138- siRNAs-HIF-1a and miR-21-siRNAs-HVCN1 in Neonatal Mice with Nerve Injury.S100 和 YKL40 在早产儿脑室出血中的作用以及 miR-138-siRNAs-HIF-1a 和 miR-21-siRNAs-HVCN1 在神经损伤新生鼠中的神经保护作用。
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Voltage-Gated Proton Channels in the Tree of Life.生命之树中的电压门控质子通道。
Biomolecules. 2023 Jun 24;13(7):1035. doi: 10.3390/biom13071035.
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5-Chloro-2-Guanidinobenzimidazole (ClGBI) Is a Non-Selective Inhibitor of the Human H1 Channel.5-氯-2-胍基苯并咪唑(ClGBI)是人类H1通道的非选择性抑制剂。
Pharmaceuticals (Basel). 2023 Apr 27;16(5):656. doi: 10.3390/ph16050656.
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Role of voltage-gated proton channel (Hv1) in cancer biology.电压门控质子通道(Hv1)在癌症生物学中的作用。
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Zn(2+) induces apoptosis in human highly metastatic SHG-44 glioma cells, through inhibiting activity of the voltage-gated proton channel Hv1.Zn(2+) 通过抑制电压门控质子通道 Hv1 的活性诱导人高转移性 SHG-44 神经胶质瘤细胞凋亡。
Biochem Biophys Res Commun. 2013 Aug 23;438(2):312-7. doi: 10.1016/j.bbrc.2013.07.067. Epub 2013 Jul 24.
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Molecular mechanism of voltage sensing in voltage-gated proton channels.电压门控质子通道中电压感应的分子机制。
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