Abstract
SummaryEmerging evidence suggests that cell senescence plays an important role in aging‐associated diseases including neurodegenerative diseases. HIV leads to a spectrum of neurologic diseases collectively termed HIV‐associated neurocognitive disorders (HAND). Drug abuse, particularly methamphetamine (meth), is a frequently abused psychostimulant among HIV+ individuals and its abuse exacerbates HAND. The mechanism by which HIV and meth lead to brain cell dysregulation is not entirely clear. In this study, we evaluated the impact of HIV and meth on astrocyte senescence using in vitro and several animal models. Astrocytes constitute up to 50% of brain cells and play a pivotal role in marinating brain homeostasis. We show here that HIV and meth induce significant senescence of primary human fetal astrocytes, as evaluated by induction of senescence markers (β‐galactosidase and p16INK 4A), senescence‐associated morphologic changes, and cell cycle arrest. HIV‐ and meth‐mediated astrocyte senescence was also demonstrated in three small animal models (humanized mouse model of HIV/NSG‐huPBMCs, HIV‐transgenic rats, and in a meth administration rat model). Senescent astrocytes in turn mediated neuronal toxicity. Further, we show that β‐catenin, a pro‐survival/proliferation transcriptional co‐activator, is downregulated by HIV and meth in human astrocytes and this downregulation promotes astrocyte senescence while induction of β‐catenin blocks HIV‐ and meth‐mediated astrocyte senescence. These studies, for the first time, demonstrate that HIV and meth induce astrocyte senescence and implicate the β‐catenin pathway as potential therapeutic target to overcome astrocyte senescence.
Highlights
With the introduction of combined antiretroviral therapy, HIV has been transformed from a deadly virus to a chronic infection linked to a number of comorbid conditions associated with an aging population
HIVassociated neurocognitive disorders (HAND) is driven by complex interactions of HIV invasion into the central nervous system (CNS), inflammatory responses in the CNS that ensue, and comorbid factors such as illicit drug abuse
We previously demonstrated that endogenous Wnt/b-catenin signaling in astrocytes is a restriction pathway to productive HIV replication
Summary
With the introduction of combined antiretroviral therapy (cART), HIV has been transformed from a deadly virus to a chronic infection linked to a number of comorbid conditions associated with an aging population. In. Accepted for publication 27 February 2017 particular, HIV-infected individuals are at an increased risk of neurocognitive and motor impairments (Saylor et al, 2016) termed HIVassociated neurocognitive disorders (HAND). Incidences of HAND are expected to increase as the HIV+ population is living longer and aging. Methamphetamine (meth), in particular, is a potent psychostimulant (Hser et al, 2008) and is frequently abused in the HIV/AIDS population. HAND is more severe among HIV+ individuals who are meth abusers than those who are not (Nath et al, 2002; Chana et al, 2006; Purohit et al, 2011). We evaluated here the impact of HIV and meth on cellular aging in astrocytes
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
