Increased expression of CD169 on monocytes has been reported in HIV-1-infected humans. Using rhesus macaque models of HIV infection, we sought to investigate whether simian immunodeficiency virus (SIV) infection upregulates CD169 expression on monocytes/macrophages. We also sought to determine whether CD8 T cells and plasma viral load directly impact the expression of CD169 on monocytes during SIV infection. We longitudinally assessed monocyte expression of CD169 during the course of SIV infection by flow cytometry, and examined the expression of CD169 on macrophages by immunohistochemistry in the spleen and lymph nodes of uninfected and infected macaques. CD169 expression on monocytes was substantially upregulated as early as 4 days during the hyperacute phase and peaked by 5-15 days after infection. After a transient decrease following the peak, its expression continued to increase during progression to AIDS. Monocyte CD169 expression was directly associated with plasma viral loads. To determine the contribution of CD8(+) T lymphocytes and virus to the control of monocyte CD169 expression, we used experimental CD8(+) lymphocyte depletion and antiretroviral therapy (ART) in SIV-infected macaques. Rapid depletion of CD8 T cells during acute infection of rhesus macaques induced an abrupt increase in CD169 expression. Importantly, levels of CD169 expression plummeted following initiation of ART and rebounded upon cessation of therapy. Taken together, our data reveal independent roles for virus and CD8(+) T lymphocytes in controlling monocyte CD169 expression, which may be an important link in further investigating the host response to viral infection.
The aim of the present study was to investigate if macrophage proliferation occurs in the brain during simian immunodeficiency virus (SIV) infection of adult macaques. We examined the expression of the Ki-67 proliferation marker in the brains of uninfected and SIV-infected macaques with or without encephalitis. Double-label immunohistochemistry using antibodies against the pan-macrophage marker CD68 and Ki-67 showed that there was a significant increase in CD68+Ki-67+ cells in macaques with SIV encephalitis (SIVE) compared to uninfected and SIV-infected animals without encephalitis, a trend that was also confirmed in brain samples from patients with HIV encephalitis. Multi-label immunofluorescence for CD163 and Ki-67 confirmed that the vast majority of Ki-67+ nuclei were localized to CD163+ macrophages in perivascular cuffs and lesions. The proliferative capacity of Ki-67+ perivascular macrophages (PVM) was confirmed by their nuclear incorporation of bromodeoxyuridine. Examining SIVE lesions, using double-label immunofluorescence with antibodies against SIV-Gag-p28 and Ki-67, showed that the population of Ki-67+ cells were productively infected and expanded proportionally with lesions. Altogether, this study shows that there are subpopulations of resident PVM that express Ki-67 and are SIV-infected, suggesting a mechanism of macrophage accumulation in the brain via PVM proliferation.
We examined the expression of the mannose receptor CD206 by perivascular macrophages (PVM) in normal human and monkey brains and in brains of HIV-infected humans and of monkeys infected with simian immunodeficiency virus (SIV). Depletion of brain PVM in SIV-infected monkeys by intrathecal injection of liposome-encapsulated bisphosphonates eliminated CD206-expressing cells in the brain, confirming their perivascular location and phagocytic capacity. In vivo labeling with bromodeoxyuridine in normal uninfected and SIV-infected macaques in combination with CD206 immunostaining revealed a CD206+-to-CD206– shift within pre-existing PVM during SIV brain infection and neuroinflammation. These findings identify CD206 as a unique marker of human and macaque PVM, and underscore the utility of this marker in studying the origin, turnover and functions of these cells in AIDS.
Objectives: CD4 þ T-cell decline and increasing virus levels are considered hallmarks of HIV/AIDS pathogenesis but we previously demonstrated in rhesus macaques that tissue macrophage destruction by simian immunodeficiency virus (SIV) infection associated with increased monocyte turnover also appear to impact pathogenesis. It remains unclear, however, which factors best predict onset of terminal disease progression and survival time. The objective of this study, therefore, was to directly compare these co-variates of infection for predicting survival times in retrospective studies of SIV/simian-HIV (SHIV)-infected adult rhesus macaques Methods: Rhesus macaques were infected with various strains of SIV/SHIV and evaluated longitudinally for monocyte turnover, CD4 þ T-cell loss, plasma viral load, and SIV/SHIV strain. Correlation analyses and machine learning algorithm modeling were applied to compare relative contributions of each of the co-variates to survival time.Results: All animals with AIDS-related clinical signs requiring euthanasia exhibited increased monocyte turnover regardless of CD4 þ T-cell level, viral strain, or plasma viral load. Regression analyses and machine learning algorithms indicated a stronger correlation and contribution between increased monocyte turnover and reduced survival time than between CD4 þ T-cell decline, plasma viral load, or virus strain and reduced survival time. Decision tree modeling categorized monocyte turnover of 13.2% as the initial significant threshold that best predicted decreased survival time. Conclusion:These results demonstrate that monocytes/macrophages significantly affect HIV/SIV pathogenesis outcomes. Monocyte turnover analyses are not currently feasible in humans, so there is a need to identify surrogate biomarkers reflecting tissue macrophage damage that predict HIV infection disease progression.
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