Project description:BackgroundThe optimal stage for initiating antiretroviral therapies in HIV-1 bearing patients is still a matter of debate.MethodsWe present computer simulations of HIV-1 infection aimed at identifying the pro et contra of immediate as compared to deferred Highly Active Antiretroviral Therapy (HAART).ResultsOur simulations highlight that a prompt specific CD8+ cytotoxic T lymphocytes response is detected when therapy is delayed. Compared to very early initiation of HAART, in deferred treated patients CD8+ T cells manage to mediate the decline of viremia in a shorter time and, at interruption of therapy, the virus experiences a stronger immune pressure. We also observe, however, that the immunological effects of the therapy fade with time in both therapeutic regimens. Thus, within one year from discontinuation, viral burden recovers to the value at which it would level off in the absence of therapy.In summary, simulations show that immediate therapy does not prolong the disease-free period and does not confer a survival benefit when compared to treatment started during the chronic infection phase.ConclusionOur conclusion is that, since there is no therapy to date that guarantees life-long protection, deferral of therapy should be preferred in order to minimize the risk of adverse effects, the occurrence of drug resistances and the costs of treatment.

Project description:BACKGROUND:Recent reports showed that functional control of HIV-1 infection for a prolonged time is possible by early antiretroviral therapy (ART); however, its underlying mechanism needs to be studied with a suitable animal model. Recently, humanized-BLT (bone marrow, liver, and thymus) mouse (hu-BLT) was shown to be an excellent model for studying HIV-1 infection. We thus tested the feasibility of studying functional control of HIV-1 infection using hu-BLT mice. METHODS:Animals in 3 treatment groups (Rx-6h, Rx-24h, and Rx-48h) and untreated group were infected with HIV-1, followed by ART initiation at 6, 24, or 48 hours postinfection and continued daily for 2 weeks. Three weeks after stopping ART, CD8 T cells were depleted from all animals. Plasma viral load was monitored weekly using droplet digital polymerase chain reaction. Percentage of CD4 and CD8 T cells were measured by flow cytometry. In situ hybridization and droplet digital polymerase chain reaction were used to detect viral RNA (vRNA) and DNA. RESULTS:Although control animals had high viremia throughout the study, all Rx-6h animals had undetectable plasma viral load after ART cessation. After CD8 T-cell depletion, viremia increased and CD4 T cells decreased in all animals except the Rx-6h group. Viral DNA was detected in spleens of all animals and a few vRNA cells were detected by in situ hybridization in 1 of 3 Rx-6h animals. CONCLUSIONS:Early ART did not act as prophylaxes but, rather, can control HIV-1 productive infection and prevented CD4 T-cell depletion in hu-BLT mice. This mouse model can be used to elucidate the mechanism for functional control of HIV-1.

Project description:We compared transcriptional profiles of CD4+ and CD8+ T lymphocytes from HIV infected individuals before and 1 year after interruption of antiretroviral therapy (ART).

Project description:Despite years of fully suppressive antiretroviral therapy (ART), HIV persists in its hosts and is never eradicated. One major barrier to eradication is that the virus infects multiple cell types that may individually contribute to HIV persistence. Tissue macrophages are critical contributors to HIV pathogenesis; however, their specific role in HIV persistence during long-term suppressive ART has not been established. Using humanized myeloid-only mice (MoM), we demonstrate that HIV infection of tissue macrophages is rapidly suppressed by ART, as reflected by a rapid drop in plasma viral load and a dramatic decrease in the levels of cell-associated viral RNA and DNA. No viral rebound was observed in the plasma of 67% of the ART-treated animals at 7 weeks after ART interruption, and no replication-competent virus was rescued from the tissue macrophages obtained from these animals. In contrast, in a subset of animals (?33%), a delayed viral rebound was observed that is consistent with the establishment of persistent infection in tissue macrophages. These observations represent the first direct evidence, to our knowledge, of HIV persistence in tissue macrophages in vivo.

Project description:Long-acting nanoformulated antiretroviral therapy (nanoART) with improved pharmacokinetics, biodistribution and limited systemic toxicities will likely improve drug adherence and access to viral reservoirs.Atazanavir and ritonavir crystalline nanoART were formulated in a poloxamer-188 excipient by high-pressure homogenization. These formulations were evaluated for antiretroviral and neuroprotective activities in humanized NOD/scid-IL-2Rgc (NSG) mice.NanoART-treated NSG mice were evaluated for drug biodistribution, pharmacodynamics and toxicity. CD34 human hematopoietic stem cells were transplanted at birth in replicate NSG mice. The mice were infected with HIV-1ADA at 5 months of age. Eight weeks later, the infected animals were treated with weekly subcutaneous injections of nanoformulated ATV and RTV. Peripheral viral load, CD4 T-cell counts and lymphoid and brain histopathology and immunohistochemistry tests were performed.NanoART treatments by once-a-week injections reduced viral loads more than 1000-fold and protected CD4 T-cell populations. This paralleled high ART levels in liver, spleen and blood that were in or around the human minimal effective dose concentration without notable toxicities. Importantly, examination of infected brain subregions showed that nanoART elicited neuroprotective responses with detectable increases in microtubule-associated protein-2, synaptophysin and neurofilament expression when compared to untreated virus-infected animals. Therapeutic interruptions produced profound viral rebounds.Long-acting nanoART has translational potential with sustained and targeted efficacy and with limited systemic toxicities. Such success in drug delivery and distribution could improve drug adherence and reduce viral resistance in infected people.

Project description:Objective and Design:A randomized, open-label pilot study in individuals treated with antiretroviral therapy (ART) since acute HIV infection (AHI) with a regimen including a histone deacetylase inhibitor to induce HIV from latency and control HIV replication during subsequent treatment interruption (TI). Methods:Fifteen participants who initiated ART at AHI were randomized to vorinostat/hydroxychloroquine/maraviroc (VHM) plus ART (n ?= ?10) or ART alone (n ?= ?5). The VHM arm received three 14-day vorinostat cycles within 10 weeks before TI. ART was resumed for plasma viral load (VL) ?> ?1,000 HIV RNA copies/mL. Primary outcome was proportion of participants on VHM ?+ ?ART versus ART only with VL ?< ?50 copies/mL for 24 weeks after TI. Results:Fifteen participants on ART (median: 178 weeks: range 79-295) enrolled. Two on VHM ?+ ?ART experienced serious adverse events. Fourteen participants underwent TI; all experienced VL rebound with no difference in time between arms: VHM ?+ ?ART (n ?= ?9) median: 4 weeks and ART only (n ?= ?5) median: 5 weeks. VHM induced a 2.2-fold increase in VL (p ?= ?0.008) by single-copy HIV RNA assay after the first cycle. Neopterin levels increased significantly following the first two cycles. After VHM treatment, the frequencies of peripheral blood mononuclear cells harboring total HIV DNA and cell-associated RNA were unchanged. All participants achieved VL suppression following ART re-initiation. Conclusions:Administration of VHM increased HIV VL in plasma, but this was not sustained. VHM did not impact time to viral rebound following TI and had no impact on the size of the HIV reservoir, suggesting that HIV reservoir elimination will require alternative treatment strategies.

Project description:Dissemination of HIV-1 throughout lymphoid tissues leads to systemic virus spread following infection. We combined tissue clearing, 3D-immunofluorescence, and electron tomography (ET) to longitudinally assess early HIV-1 spread in lymphoid tissues in humanized mice. Immunofluorescence revealed peak infection density in gut at 10-12 days post-infection when blood viral loads were low. Human CD4+ T-cells and HIV-1-infected cells localized predominantly to crypts and the lower third of intestinal villi. Free virions and infected cells were not readily detectable by ET at 5-days post-infection, whereas HIV-1-infected cells surrounded by pools of free virions were present in ~10% of intestinal crypts by 10-12 days. ET of spleen revealed thousands of virions released by individual cells and discreet cytoplasmic densities near sites of prolific virus production. These studies highlight the importance of multiscale imaging of HIV-1-infected tissues and are adaptable to other animal models and human patient samples.

Project description:To design effective eradication strategies, it may be necessary to target HIV reservoirs in anatomic compartments other than blood. This study examined HIV RNA rebound following interruption of antiretroviral therapy (ART) in blood and cerebrospinal fluid (CSF) to determine whether the central nervous system (CNS) might serve as an independent source of resurgent viral replication. Paired blood and CSF samples were collected longitudinally from 14 chronically HIV-infected individuals undergoing ART interruption. HIV env (C2-V3), gag (p24) and pol (reverse transcriptase) were sequenced from cell-free HIV RNA and cell-associated HIV DNA in blood and CSF using the Roche 454 FLX Titanium platform. Comprehensive sequence and phylogenetic analyses were performed to search for evidence of unique or differentially represented viral subpopulations emerging in CSF supernatant as compared with blood plasma. Using a conservative definition of compartmentalization based on four distinct statistical tests, nine participants presented a compartmentalized HIV RNA rebound within the CSF after interruption of ART, even when sampled within 2 weeks from viral rebound. The degree and duration of viral compartmentalization varied considerably between subjects and between time-points within a subject. In 10 cases, we identified viral populations within the CSF supernatant at the first sampled time-point after ART interruption, which were phylogenetically distinct from those present in the paired blood plasma and mostly persisted over time (when longitudinal time-points were available). Our data suggest that an independent source of HIV RNA contributes to viral rebound within the CSF after treatment interruption. The most likely source of compartmentalized HIV RNA is a CNS reservoir that would need to be targeted to achieve complete HIV eradication.

Project description:OBJECTIVE:The impact of short-term analytical treatment interruptions (ATI) on the levels of cellular HIV and of residual activation after subsequent antiretroviral therapy (ART)-mediated plasma HIV viral load re-suppression remains under active investigation. DESIGN:Peripheral blood mononuclear cells (PBMC) from 23 ART-suppressed, chronically HIV-1-infected patients were evaluated at the initiation of an ATI, during ATI, and following plasma re-suppression of HIV with ART. METHODS:T-cell activation was measured by flow cytometry. Total cellular HIV DNA, and episomal 2-long terminal repeat (2-LTR) circles were measured by droplet digital PCR (ddPCR). Cellular HIV multiply spliced RNA (tat/rev), unspliced (gag), and poly(A) tailed transcripts [poly(A)] were measured by reverse transcriptase-ddPCR. Analyses were performed using R version 2.5.1 or JMP Pro 11. RESULTS:ATI (median ATI duration, 4 weeks) resulted in a rise of plasma HIV RNA (median?=?72900?copies/ml), decrease in CD4+ T cells/?l (median?=?511.5?cells/?l; P?=?0.0001), increase in T-cell activation, and increase in cellular HIV DNA and RNA. Mean fluorescence intensity of CD38 on CD4+HLA-DR+ T cells at baseline was positively associated with total HIV DNA levels during ATI (pol: P?=?0.03, Rho?=?0.44). Upon ART resumption, plasma HIV re-suppression occurred after a median of 13 weeks and resulted in restoration of pre-ATI CD4+ T cells/?l, T-cell activation, and levels of cellular HIV DNA and RNA. CONCLUSION:Monitored viremia and immune activation during an ATI in ART-suppressed chronic HIV-infected patients does not change the amount of persistent cellular HIV RNA or total HIV DNA after ART-mediated re-suppression.

Project description:BackgroundLong-term benefits of combination antiretroviral therapy (cART) initiation during primary HIV-1 infection are debated.MethodsThe evolution of plasma HIV-RNA (432 measurements) and cell-associated HIV-DNA (325 measurements) after cessation of cART (median exposure 18 months) was described for 33 participants from the Zurich Primary HIV Infection Study using linear regression and compared with 545 measurements from 79 untreated controls with clinically diagnosed primary HIV infection, respectively a known date for seroconversion.ResultsOn average, early treated individuals were followed for 37 months (median) after cART cessation; controls had 34 months of pre-cART follow-up. HIV-RNA levels one year after cART interruption were -0.8 log₁₀ copies/mL [95% confidence interval -1.2;-0.4] lower in early treated patients compared with controls, but this difference was no longer statistically significant by year three of follow-up (-0.3 [-0.9; 0.3]). Mean HIV-DNA levels rebounded from 2 log₁₀ copies [1.8; 2.3] on cART to a stable plateau of 2.7 log₁₀ copies [2.5; 3.0] attained 1 year after therapy stop, which was not significantly different from cross-sectional measurements of 9 untreated members of the control group (2.8 log₁₀ copies [2.5; 3.1]).ConclusionsThe rebound dynamics of viral markers after therapy cessation suggest that early cART may indeed limit reservoir size of latently infected cells, but that much of the initial benefits are only transient. Owing to the non-randomized study design the observed treatment effects must be interpreted with caution.