Neurotoxicity of HIV-1 Tat is attributed to its penetrating property

Abstract

We have recently engineered an exosomal Tat (Exo-Tat) which can activate latent HIV-1 in resting CD4+ T lymphocytes from antiretroviral treated HIV-1 infected patients. HIV-1 Tat protein can penetrate cell membrane freely and secrete into extracellular medium. Exo-Tat loses this penetrating property. HIV-1 Tat protein can damage the synaptic membranes contributing to the development of dementia in HIV-1 infected patients. To investigate whether the penetrating property attributes to synaptic damage in vivo, we have generated adeno-associated viruses AAV-Tat and AAV-Exo-Tat viruses. Vehicle control or AAV viruses (1 × 1012GC/mouse in 200 μl PBS) were injected into Balb/cj mice via tail veins. The mRNA and protein expression levels in blood, brain, heart, intestine, kidney, liver, lung, muscle and spleen were determined on day 21. Intravenously injected AAV-Tat or AAV-Exo-Tat mainly infects liver and heart. Short-term expression of Tat or Exo-Tat doesn’t change the expression levels of neuronal cytoskeletal marker β3-tubulin and synaptic marker postsynaptic density 95 protein (PSD-95). Wild-type Tat, but not Exo-Tat, reduces the expression level of synaptic marker synaptophysin significantly in mice, indicating that penetrating property of HIV-1 Tat protein attributes to synaptic damage.