Abstract
Platelet-derived growth factor-CC (PDGF-CC) is the third member of the PDGF family, and has been implicated both in embryogenesis and development of the CNS. The biological function of this isoform however, remains largely unexplored in the context of HIV-associated dementia (HAD). In the present study, we demonstrate that exposure of human neuroblastoma cells SH-SY5Y to HIV transactivator protein Tat resulted in decreased intrinsic expression of PDGF-CC as evidenced by RT-PCR and western blot assays. Reciprocally, pretreatment of SH-SY5Y cells with PDGF-CC abrogated Tat-mediated neurotoxicity by mitigating apoptosis and neurite & MAP-2 loss. Using pharmacological and loss of function approaches we identified the role of phosphatidylinositol 3-kinase (PI3K)/Akt signaling in PDGF-CC-mediated neuroprotection. We report herein a novel role about the involvement of transient receptor potential canonical (TRPC) channel 1 in modulation of calcium transients in PDGF-CC-mediated neuroprotection. Furthermore we also demonstrated PDGF-CC-mediated inactivation of the downstream mediator - glycogen synthase kinase 3β (GSK3β) evidenced by its phosphorylation at Ser-9. This was further validated by gain and loss of function studies using cells transfected with either the wild type or mutant GSK3β constructs. Intriguingly, pretreatment of cells with either the PI3K inhibitor or TRPC blocker resulted in failure of PDGF-CC to inactivate GSK3β, thereby suggesting the intersection of PI3K and TRPC signaling at GSK3β. Taken together our findings lead to the suggestion that PDGF-CC could be developed as a therapeutic target to reverse Tat-mediated neurotoxicity with implications for HAD.
Highlights
Worldwide there are around 40 million people infected with human immunodeficiency virus (HIV)
In the present study we demonstrate the involvement of transient receptor potential canonical (TRPC) and Akt in Platelet-derived growth factor-CC (PDGF-CC) mediated neuroprotection against toxicity induced by Tat
Tat Down-regulates platelet-derived growth factor (PDGF)-C Chain Expression in Neurons Because several neurodegenerative disorders are characterized by lack of trophic support [44], and based on our previous study that HIV associated protein gp120 was able to down-regulate the expression of trophic factors in neurons [41], we sought to explore whether HIV viral protein Tat could down regulate the expression of PDGF-CC
Summary
Worldwide there are around 40 million people infected with human immunodeficiency virus (HIV). In the late phase of HIV-1 infection, a subset of patients will go on to develop end-organ diseases including HIV-associated dementia (HAD) [1,2]. The disease is characterized by cognitive impairment that is later accompanied by motor symptoms such as gait disturbance and tremor [3]. Pathological manifestation of the syndrome is accompanied by prominent microglial activation, formation of microglial nodules, perivascular accumulations of mononuclear cells, presence of virus-infected multinucleated giant cells, and neuronal damage & loss [4,5,6]. The mechanism(s) underlying the pathogenesis of HAD are complex. Multiple pathways have been implicated in the HIV-mediated neuronal apoptosis/death, including cellular and viral factors
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