Brain-Accumulating
Nanoparticles for Assisting Astrocytes
to Reduce Human Immunodeficiency Virus and Drug Abuse-Induced Neuroinflammation
and Oxidative Stress
posted on 2021-08-06, 10:43authored byBapurao Surnar, Anuj S. Shah, Minseon Park, Akil A. Kalathil, Mohammad Z. Kamran, Royden Ramirez Jaime, Michal Toborek, Madhavan Nair, Nagesh Kolishetti, Shanta Dhar
Human
neurotropic immunodeficiency virus (HIV) ingress into the
brain and its subsequent replication after infection results in viral
reservoirs in the brain. The infected cells include microglia, perivascular
macrophages, and astrocytes. HIV-associated neurocognitive disorders
(HAND) affect glial cells by activating microglia and macrophages
through neuroinflammation, as well as astrocytes through mitochondrial
dysfunctions and the onset of oxidative stress, impairing the ability
of these cells to engage in neuroprotection. Furthermore, the risk
of neuroinflammation associated with HAND is magnified by recreational
drug use in HIV-positive individuals. Most of the therapeutic options
for HIV cannot be used to tackle the virus in the brain and treat
HAND due to the inability of currently available combination antiretroviral
therapies (ARTs) and neuroprotectants to cross the blood–brain
barrier, even if the barrier is partially compromised by infection.
Here, we report a strategy to deliver an optimized antiretroviral
therapy combined with antioxidant and anti-inflammatory neuroprotectants
using biodegradable brain-targeted polymeric nanoparticles to reduce
the burden caused by viral reservoirs in the brain and tackle the
oxidative stress and inflammation in astrocytes and microglia. Through in vitro coculture studies in human microglia and astrocytes
as well as an in vivo efficacy study in an EcoHIV-infected,
methamphetamine-exposed animal model, we established a nanoparticle-based
therapeutic strategy with the ability to treat HIV infection in the
central nervous system in conditions simulating drug use while providing
enhanced protection to astrocytes, microglia, and neurons.