Abstract
Infection with human immunodeficiency virus (HIV) increases risk for maladies of the gut barrier, which promotes sustained systemic inflammation even in virally controlled patients. We previously revealed morphological disorganization of colon epithelial barrier proteins in HIV-1 transgenic (Tg) rats. The current study evaluated mechanisms that may underlie gut barrier pathology induced by toxic HIV-1 proteins. Methamphetamine (meth) use is prevalent among HIV-infected individuals, and meth can exaggerate morbidity of HIV infection. Thus, we determined whether meth exposure worsened HIV-associated gut pathology using colon samples from HIV-1 Tg and non-Tg rats that self-administered meth 2h/day for 21 days. Immunoblotting was conducted for occludin (a gut barrier protein) and matrix metalloproteinase-9 (MMP-9; a proteinase regulator of occludin). Colon levels of occludin were decreased, and MMP-9 levels and activity were increased in HIV-1 Tg rats. A Pearson correlation revealed an inverse relationship between occludin levels and MMP-9 activity. Doses of meth that were self-administered by Tg rats were lower than other rat models. Meth-induced trends in non-Tg rats were not significant, and meth did not exaggerate effects seen in Tg rats. Accordingly, only the HIV-effects on epithelial function were explored further. Transepithelial resistance (TER) across a monolayer of human colon epithelial cells (Caco-2) was used to examine treatments with the HIV-1 toxic protein, Tat, and the ability of pioglitazone, a PPARγ agonist that inhibits MMP-9, to mitigate Tat-induced changes. Exposure to Tat for 24h decreased TER, which co-occurred with decreases in levels of barrier tight junction proteins (occludin, claudin-1, and zonula occludens-1) and with increases in the level and activity of MMP-9. Pretreatment or post-treatment with pioglitazone respectively prevented and restored Tat-induced impairments of Caco-2 barrier. Thus, while low doses of meth did not alter barrier proteins in the current study, exposure to HIV-1 proteins disrupted the gut barrier, and this action involved a dysregulation of MMP-9.
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