HIV-1 envelope protein gp120 modulation of glutamate effects on cortical neuronal synapses: implications for HIV-1-associated neuropathogenesis.

Jianuo Liu, Jinyan Xie, Debashis Dutta, Huangui Xiong
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Abstract

Despite the introduction of combined antiretroviral therapy (cART) HIV-1 virus persists in the brain in a latent or restricted manner and viral proteins, such as gp120, continue to play a significant disease-inciting role. Gp120 is known to interact with N-methyl-D-aspartate (NMDA) receptors (NMDARs) resulting in neuronal injury. Glutamate is the main excitatory neurotransmitter in the brain and plays an important role in cognitive function and dysregulation of excitatory synaptic transmission impairs neurocognition. It is our hypothesis that gp120 may alter synaptic function via modulating glutamate function from a physiological molecule to a pathophysiological substance. To test this hypothesis, we studied the modulatory effects of gp120 and glutamate on NMDAR-mediated spontaneous excitatory postsynaptic current (sEPSCNMDAR) and dynamic dendritic spine changes in rat cortical neuronal cultures. Our results revealed that gp120 and glutamate each, at low concentrations, had no significant effects on sEPSCNMDAR and dendritic spines, but increased sEPSCNMDAR frequency, decreased numbers of dendritic spines when tested in combination. The observed effects were blocked by either a CXCR4 blocker or an NMDAR antagonist, indicating the involvements of chemokine receptor CXCR4 and NMDARs in gp120 modulation of glutamate effects. These results may imply a potential mechanism for HIV-1-associated neuropathogenesis in the cART era.

谷氨酸对皮质神经元突触影响的HIV-1包膜蛋白gp120调节:与HIV-1相关的神经发病机制的含义。
尽管引入了联合抗逆转录病毒疗法(cART), HIV-1病毒仍以潜伏或受限的方式持续存在于大脑中,病毒蛋白,如gp120,继续发挥着重要的疾病刺激作用。已知Gp120与n -甲基- d -天冬氨酸(NMDA)受体(NMDARs)相互作用导致神经元损伤。谷氨酸是大脑中主要的兴奋性神经递质,在认知功能中起重要作用,兴奋性突触传递失调会损害神经认知。我们的假设是gp120可能通过调节谷氨酸从生理分子到病理生理物质的功能来改变突触功能。为了验证这一假设,我们研究了gp120和谷氨酸对nmdar介导的自发兴奋性突触后电流(sEPSCNMDAR)和大鼠皮层神经元培养中树突棘动态变化的调节作用。结果显示,低浓度gp120和谷氨酸对sEPSCNMDAR和树突棘均无显著影响,但联合使用时sEPSCNMDAR频率增加,树突棘数量减少。观察到的效应被CXCR4阻滞剂或NMDAR拮抗剂阻断,表明趋化因子受体CXCR4和NMDARs参与gp120调节谷氨酸的作用。这些结果可能暗示了cART时代hiv -1相关神经发病机制的潜在机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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