Residual HIV-1 infection during antiretroviral therapy: the challenge of viral persistence

Sexually transmitted infections and HIV in the era of antiretroviral treatment and prevention: the biologic basis for epidemiologic synergy

INTRODUCTION

HIV is a unique sexually transmitted infection (STI) that is greatly affected by other concomitant "classical" bacterial and viral STIs that cause genital ulcers and/or mucosal inflammation. STIs also serve as a marker for risky sexual behaviours. STIs increase infectiousness of people living with HIV by increasing the viral concentration in the genital tract, and by increasing the potential for HIV acquisition in people at risk for HIV. In addition, some STIs can increase blood HIV concentration and promote progression of disease. This review is designed to investigate the complex relationship between HIV and classical STIs.

DISCUSSION

Treatment of STIs with appropriate antibiotics reduces HIV in blood, semen and female genital secretions. However, community-based trials could not reliably reduce the spread of HIV by mass treatment of STIs. Introduction of antiretroviral agents for the treatment and prevention of HIV has led to renewed interest in the complex relationship between STIs and HIV. Antiretroviral treatment (ART) reduces the infectiousness of HIV and virtually eliminates the transmission of HIV in spite of concomitant or acquired STIs. However, while ART interrupts HIV transmission, it does not stop intermittent shedding of HIV in genital secretions. Such shedding of HIV is increased by STIs, although the viral copies are not likely replication competent or infectious. Pre-exposure prophylaxis (PrEP) of HIV with the combination of tenofovir disoproxil fumarate and emtricitabine (TDF/FTC) prevents HIV acquisition in spite of concomitant STIs.

CONCLUSIONS

STIs remain pandemic, and the availability of ART may have led to an increase in STIs, as fear of HIV has diminished. Classical STIs present a huge worldwide health burden that cannot be separated from HIV, and they deserve far more attention than they currently receive.

Hydroxyurea plus Didanosine as Maintenance Therapy for HIV-Infected Patients on Long-Term Successful Highly Active Antiretroviral Therapy

BACKGROUND

Toxicity and quality of life issues have moved to delay the initiation of highly active antiretroviral therapy (HAART) and to explore novel treatment strategies for HIV infection. The switch to simpler regimens or treatment discontinuation has been attempted with limited success. The combination of hydroxyurea (HU) plus didanosine (ddI) is a simple regimen that might be able to restrain virus replication for long periods of time and could be an acceptable option as maintenance therapy in patients on prolonged successful HAART.

METHOD

The combination of HU (500 mg bid) plus ddI (400 mg qd) was offered to participants with viral load (VL) <50 HIV RNA copies/mL and CD4 counts >350 cells/microL for more than 6 months under HAART. The prior HAART regimen was resumed if VL rose to >5,000 copies/mL and/or the CD4 count fell to <200 cells/microL after being on HU + ddI maintenance therapy.

RESULTS

A total of 187 participants replaced HAART with HU + ddI. In an intent-to-treat analysis at 48 weeks, 109 (58%) and 77 (41%) patients had VL below 5,000 and 500 HIV RNA copies/mL, respectively. The mean CD4 count dropped from 809 +/- 283 to 573 +/- 270 cells/microL, while 77% of patients remained above 350 cells/microL. The proportion of participants with hypercholesterolemia declined from 70% to 46% (p <.001), while those with hypertriglyceridemia fell from 36% to 21% (p <.05). Significant improvements in lipohypertrophy and lipoatrophy were observed in 52% and 64% of participants, respectively. Grade 3-4 toxicities appeared in 20 patients (11%), including 3 cases of pancreatitis and 1 of peripheral neuropathy. Prior history of VL >5 log, CD4 counts <200 cells/microL, and ddI experience were independently associated with lower response to HU + ddI maintenance therapy.

CONCLUSION

The combination of HU + ddI may be a satisfactory maintenance therapy for more than half of patients on successful HAART who want to alleviate drug-related toxicities and/or pill burden. Patients with metabolic and/or body-shape abnormalities might particularly benefit from switching to this simple regimen.

Evaluation of atazanavir and darunavir interactions with lipids for developing pH-responsive anti-HIV drug combination nanoparticles

We evaluated two human immunodeficiency virus (HIV) protease inhibitors, atazanavir (ATV) and darunavir (DRV), for pH-dependent solubility, lipid binding, and drug release from lipid nanoparticles (LNPs). Both ATV and DRV incorporated into LNPs composed of pegylated and non-pegylated phospholipids with nearly 100% efficiency, but only ATV-LNPs formed stable lipid-drug particles and exhibited pH-dependent drug release. DRV-LNPs were unstable and formed mixed micelles at low drug-lipid concentrations, and thus are not suitable for lipid-drug particle development. When ATV-LNPs were prepared with ritonavir (RTV), a metabolic and cellular membrane exporter inhibitor, and tenofovir (TFV), an HIV reverse-transcriptase inhibitor, stable, scalable, and reproducible anti-HIV drug combination LNPs were produced. Drug incorporation efficiencies of 85.5 ± 8.2, 85.1 ± 7.1, and 6.1 ± 0.8% for ATV, RTV, and TFV, respectively, were achieved. Preliminary primate pharmacokinetic studies with these pH-responsive anti-HIV drug combination LNPs administered subcutaneously produced detectable plasma concentrations that lasted for 7 days for all three drugs. These anti-HIV LNPs could be developed as a long-acting targeted antiretroviral therapy.

Comparative antiviral activity of integrase inhibitors in human monocyte-derived macrophages and lymphocytes

The activity of raltegravir and 4 other integrase inhibitors (MK-2048, L870,810, IN2, and IN5) was investigated in primary human macrophages, PBMC and C8166-lymphocytic T cells, in order to determine their relative potency and efficacy in different cellular systems of HIV infection. Raltegravir showed better protective efficacy in all cell types; MK-2048, L870,810 and IN5 showed a potent anti-HIV-1 activity in macrophages, while in lymphocytes only MK-2048 and L870,810 showed an inhibitory effect comparable to raltegravir. IN2 was a poorly effective anti-HIV-1 compound in all cellular systems. All effective integrase inhibitors exhibited a potent antiviral activity against both X4 and R5 HIV-1 strains. In general, raltegravir, MK-2048, L870,810 and IN5 showed anti HIV activity similar or slightly higher in macrophages compared to PBMC and C8166 T cells: for MK-2048, the EC(50) was 0.4, 0.9, 11.5 nM in macrophages, in PBMCs and T cells, respectively; for L870,810, the EC(50) was 1.5, 14.3, and 10.6 nM, respectively; for IN5 the EC(50) was 0.5, 13.7, and 5.7 nM, respectively.

Pediatric antiretroviral therapy

The rate of perinatal HIV transmission has decreased significantly in developed countries. However, worldwide, it remains the main source of HIV infection within the pediatric population. Recent advances as a result of findings from clinical trials, viral resistance testing and the advent of new drugs have increased the options for initial treatment regimens. This article provides an overview of antiretroviral therapy in treatment-naive children, including recent pediatric data and updated guidelines from the NIH. It also provides information on new drugs approved for the pediatric age group, dosage information, drug resistance testing and monitoring suggestions for children and adolescents receiving antiretroviral therapy. Special issues pertaining to adherence, disclosure and contraception are also highlighted.

Colon M, Porrata-Doria T, Johnston ICD, Lorenzo E. Characterization of HIV-1 RNA forms in the plasma of patients undergoing successful HAART

An assay to characterize plasma human immunodeficiency virus 1 (HIV-1) sequences for patients with low viral loads was developed by combining the selective binding of anti-CD44 MicroBeads with a nested RT-PCR targeting the env C2V4 region. Sequences were obtained from 10 of 20 HIV+ patients who had viral loads below 48 copies/ml. Sequences derived from plasma were compared to those from CD14+ CD16 +monocytes and CD4+ T cells. The plasma sequences were most closely related to those amplified from monocytes, suggesting that during successful antiretroviral therapy, the predominant plasma virus originates from myeloid cells. By characterizing HIV-1 RNA sequences from 8 ml of plasma while avoiding multiple steps, which can lead to contamination and deterioration, this method can help elucidate the viral forms in patients with therapeutically suppressed HIV-1. Understanding the source of residual viremia is crucial in developing approaches for viral eradication.

HIV rebounds from latently infected cells, rather than from continuing low-level replication

Rapid rebound of plasma viremia in patients after interruption of long-term combination antiretroviral therapy (cART) suggests persistence of low-level replicating cells or rapid reactivation of latently infected cells. To further characterize rebounding virus, we performed extensive longitudinal clonal evolutionary studies of HIV env C2-V3-C3 regions and exploited the temporal relationships of rebounding plasma viruses with regard to pretreatment sequences in 20 chronically HIV-1-infected patients having undergone multiple 2-week structured treatment interruptions (STI). Rebounding virus during the short STI was homogeneous, suggesting mono- or oligoclonal origin during reactivation. No evidence for a temporal structure of rebounding virus in regard to pretreatment sequences was found. Furthermore, expansion of distinct lineages at different STI cycles emerged. Together, these findings imply stochastic reactivation of different clones from long-lived latently infected cells rather than expansion of viral populations replicating at low levels. After treatment was stopped, diversity increased steadily, but pretreatment diversity was, on average, achieved only >2.5 years after the start of STI when marked divergence from preexisting quasispecies also emerged. In summary, our results argue against persistence of ongoing low-level replication in patients on suppressive cART. Furthermore, a prolonged delay in restoration of pretreatment viral diversity after treatment interruption demonstrates a surprisingly sustained evolutionary bottleneck induced by punctuated antiretroviral therapy.

Monocyte-derived macrophages and myeloid cell lines as targets of HIV-1 replication and persistence

HIV infection of mononuclear phagocytes (MP), mostly as tissue macrophages, is a dominant feature in the pathogenesis of HIV disease and its progression to AIDS. Although the general mechanism of infection is not dissimilar to that of CD4+ T lymphocytes occurring via interaction of the viral envelope with CD4 and a chemokine receptor (usually CCR5), other features are peculiar to MP infection. Among others, the long-term persistence of productive infection, sustained by the absence of substantial cell death, and the capacity of the virions to bud and accumulate in intracellular multivesicular bodies (MVB), has conferred to MP the role of "Trojan horses" perpetuating the chronic state of infection. Because the investigation of tissue macrophages is often very difficult for both ethical and practical reasons of accessibility, most studies of in vitro infection rely upon monocyte-derived macrophages (MDM), a methodology hampered by inter-patient variability and lack of uniformity of experimental protocols. A number of cell lines, mostly Mono Mac, THP-1, U937, HL-60, and their derivative chronically infected counterparts (such as U1 and OM-10.1 cell lines) have complemented the MDM system of infection providing useful information on the features of HIV replication in MP. This article describes and compares the most salient features of these different cellular models of MP infection by HIV.

IL-7 as a potential therapy for HIV-1-infected individuals

Highly active antiretroviral therapy (HAART), although effective in ameliorating the quality of life of HIV-1-infected individuals and their survival, has not been able to eradicate HIV-1. In fact, when HAART is interrupted, HIV-1 plasma viral load rebounds from viral reservoirs such as resting CD4+ T lymphocytes, monocytes and macrophages, remaining a major obstacle in attempting HIV eradication. Different therapeutic strategies have been attempted, such as structured treatment interruption (STI), immunotherapy (interleukin [IL]-2 and anti-CD3 antibodies [e.g., OKT3]), to try to stimulate HIV-1 out of latency along with antiretroviral intensification therapy. IL-7, a pleiotropic cytokine, bears diverse immune properties and plays a major role in T cell homeostasis. Moreover, IL-7 has recently been investigated as a possible immune adjuvant as well as a viral strain-specific inducer of HIV-1 replication. In fact, IL-7 was shown not only to be more effective than IL-2 in stimulating HIV-1 replication from resting CD4+ T lymphocytes ex vivo, but also to selectively induce a specific HIV-1 viral strain as compared with IL-2, suggesting the potential need for different viral inducers if complete eradication is to be achieved. In this present review, different immunological and virological properties of IL-7 are discussed, along with the possibility of its use as part of a combined antiretroviral-immune rationally based HIV-1 eradication approach.

Seminal reservoirs during an HIV type 1 eradication trial

Despite dramatic reduction of the levels of human immunodeficiency virus type I (HIV-1) virions in blood and seminal plasma of infected patients, highly active antiretroviral therapy (HAART) does not eradicate HIV-1. Three patients, with less than 50 copies/ml of plasma viral RNA, were enrolled in this eradication protocol. Didanosine (DDI) and hydroxyurea (HU) were added to their baseline HAART and after a month of therapy, low dose OKT3, followed by a 2-week course of interleukin 2 (IL-2), was administrated. All antiretroviral therapy was then interrupted and the three patients developed viral rebound in the peripheral blood. The V3 loop region of the HIV-1 gp120 from cell-free viral RNA and proviral DNA in blood and seminal compartments was sequenced in one patient. The two major viral isolates in semen cells were macrophage- tropic (R5) and dual-tropic (R5X4), and these isolates were also present in the PBMCs. Six months after the viral rebound, we demonstrated a shift toward dual tropism in semen cell-associated HIV-1 proviral DNA, with the first appearance of a T-lymphotropic (X4) provirus solely in this compartment. The virus responsible for the blood plasma viral rebound was never found in the semen microenvironment. This study suggests viral compartmentalization of the semen microenvironment after an intensification and stimulatory HIV-1 eradication protocol, with evidence of viral evolution.

HIV type 1 cervicovaginal reservoirs in the era of HAART

Highly active antiretroviral therapy (HAART) does not lead to viral eradication, due to HIV-1 residual disease. We investigated whether the cervicovaginal tract serves as a viral reservoir. Seven out of eight cervicovaginal fluids were positive for cell-free HIV-1, by supersensitive reverse transcriptase-polymerase chain reactions (RT-PCR), with a detection limit of 1 copy/ml. No viral outgrowth, intracellular proviral DNA, or viral RNA was detected from cervicovaginal lavage and ecto- and endocervical cells. The cervicovaginal tract of patients on HAART is likely not a major solid tissue reservoir for HIV-1. Nonetheless, the presence of even low cell-free HIV-1 RNA in cervicovaginal secretions continues to suggest the importance of practicing protected sex, even in the era of HAART.

Down-modulation of the CXCR4 co-receptor by intracellular expression of a single chain variable fragment (SFv) inhibits HIV-1 entry into primary human brain microvascular endothelial cells and post-mitotic neurons

Our laboratories previously demonstrated that expression of a single chain variable antibody fragment (SFv), anti-CXCR4 SFv, in human lymphoid cells suppresses surface display of the chemokine co-receptor CXCR4 and inhibits infectious entry of human immunodeficiency virus type I (HIV-1). We now sought to extend these results to two types of central nervous system (CNS) cells, primary isolated human brain microvascular endothelial cells (MVECs), and post-mitotic differentiated human neurons, both of which normally express significant levels of CXCR4. The anti-CXCR4 SFv expression construct was delivered using an HIV-1-based vector, and control cells received LacZ-expressing viral particles. Upon intracellular expression of the anti-CXCR4 SFv, immunostaining revealed a marked reduction in surface display of CXCR4 on both cell types. Consequently, post-mitotic neurons expressing the anti-CXCR4 SFv were significantly protected from HIV-1 infection, as measured by HIV-1 p24 antigen production, and partial protection was observed in human brain MVECs. The ability to selectively down-modulate the surface expression of CXCR4 in CNS cells may allow for the development of clinical molecular therapy strategies against HIV-1-related neurodegenerative disorders and neuroinvasion.

Expression of latent HAART-persistent HIV type 1 induced by novel cellular activating agents

The novel antitumor-promoting phorbol ester, prostratin, was evaluated for its ability to induce the expression of latent, highly active antiretroviral therapy (HAART)-persistent human immunodeficiency virus type I (HIV-1) from specific subsets of patients' peripheral blood cells. This evaluation was performed relative to the use of other cellular activating agents, such as OKT3, a monoclonal antibody against the human T cell receptor, interleukin-2 (IL-2), phytohemagglutinin (PHA), p24 antigen (HIV-1-specific capsid protein), and a molecular relative of prostratin, 12-deoxyphorbol 13-phenylacetate (DPP). Prostratin performed as efficiently as the other cellular activators at inducing the expression of latent HIV-1 from cells of patients on virally suppressive HAART. Of interest was the induction of a novel species of latent virus from the cells of an individual after exposure to the HIV-1-specific capsid protein, p24, relative to virus expression induced by several other cell activators. This suggests that a variety of agents may be available for animal model studies of lentiviral latency and clinical use to broadly induce the expression of latent, HAART-persistent HIV-1 in vivo with the goal of potential HIV-1 reservoir depletion or eradication.

Monitoring HIV disease with new and clinically useful surrogate markers

PURPOSE OF REVIEW

This review aims to identify which patient based observations could enable the development of new surrogate markers for widespread clinical use.

RECENT FINDINGS

Anti-retroviral drug therapy reduces but does not abolish HIV transmission and replication in all body compartments. It is now clear that monitoring plasma HIV RNA does not help to predict drug failure or to define the existence of persistent viral reservoirs.

SUMMARY

New surrogate markers are required for long-term patient monitoring and to enable the evaluation of additional therapeutic strategies.

Peripheral blood Dendritic cells are not a major reservoir for HIV type 1 in infected individuals on virally suppressive HAART

Dendritic cells (DCs) are potent antigen-presenting cells, and their physiological localization in tissues that interact with the external environment is important as a first barrier against pathogens such as human immunodeficiency virus type I (HIV-1). Several models have been proposed to explain the possible role of DCs as a reservoir for HIV-1 in patients on virally suppressive highly active antiretroviral therapy (HAART). However, the low yield of cell isolates has made this evaluation a difficult task. The present study analyzes whether peripheral blood DCs from HIV-1-infected individuals on virally suppressive HAART, with plasma HIV-1 RNA levels of less than 50 copies/ml, carry either HIV-1 provirus and/or HIV-1 virions. Peripheral blood DCs were isolated from a cohort of 10 HIV-1-seropositive men taking suppressive HAART. In five patients, plasmacytoid and myeloid dendritic cells were isolated to attempt to identify their respective roles in HIV-1 residual disease. Viral out-growth assays were performed in vitro, as well as gag and R/U5 polymerase chain reaction (PCR) amplification of viral RNA and DNA, respectively, from DC and peripheral blood mononuclear cell (PBMC) extracts. Fluorescence activated cell-sorting (FACS) data revealed cellular yields from 85.90 to 95.18%, of relatively pure DCs isolated from patients' PBMCs. Although HIV-1 RNA gag and DNA RU/5 were detected in all PBMC samples isolated from the patients, proviral DNA and viral RNA forms were not detected in any of the DC isolates. In addition, no replication-competent virus was demonstrated in DC coculture assays, while virus was isolated from each patients' CD8+ T-lymphocyte-depleted PBMC cocultures. Furthermore, HIV-1 gag proviral DNA was not detected in either plasmacytoid or myeloid DC subfractions. The current study suggests that in HIV-1-infected individuals treated with suppressive HAART, peripheral blood DCs do not carry HIV-1 proviral DNA or viral particles attached to their surface. These populations of peripheral blood DCs are likely not a major HIV-1 reservoir in patients on HAART with clinically undetectable plasma viral RNA.

Gene therapy for inborn and acquired immune deficiency disorders

Gene therapy has been under development as a way to correct inborn errors for over 20 years. Immune deficiencies are favorable candidates for gene therapy because of the potential selective advantage of genetically corrected cells in these conditions. Gene therapy for immune deficiencies has been the only application to show incontrovertible benefit in clinical trials to date. Despite the success in treating the underlying disease, there have been two cases of insertional oncogenesis reported in one of these early phase trials. Gene therapy approaches and clinical trials for several inborn as well as acquired immune deficiencies will be reviewed.

Genotypic alteration of HAART-persistent HIV-1 reservoirs in vivo

Three HIV-1-infected individuals, on virally-suppressive highly active anti-retroviral therapy (HAART), were treated in vivo with anti-retroviral inhibitor intensification and cell stimulatory therapies in attempting to eradicate latent viral reservoirs. Afterwards, the patients ceased all anti-retroviral drugs. Sequences of the V3 region of HIV-1 envelope protein (ENV) from patient peripheral blood mononuclear cell (PBMC) proviral DNA, patient blood plasma viral RNA and virion-associated RNA from viruses amplified by patient cell co-culture, were obtained before, during, and certain times after the clinical regimen. As anticipated, the V3 loop sequencing results indicate diversity in viral strain complexity among the individual patients. However, the detection of unique V3 ENV signature sequences or V3 signatures of low frequency, relative to those observed prior to therapy, indicate that the expression of specific viruses, or viruses of low abundance, can be induced through stimulation in vivo. Furthermore, this stimulation or general immune activation therapy (IAT) approach, consisting of administration of the anti-T-cell receptor antibody, OKT3, and IL-2 in vivo, appeared to have subsequently altered the genotype of the persistent viral reservoir in peripheral blood cells for two of the three patients.

Inhibition of HIV-1 in the Central Nervous System by IFN-α2 Delivered by an SV40 Vector

In human immunodeficiency virus type 1 (HIV-1)-infected individuals, virus-induced production of interferon alpha (IFN-alpha) is impaired. In order to obtain regulated expression of IFN-alpha that responds to HIV-1 infection, a recombinant SV40 vector was designed that carries the human IFN-alpha2 cDNA under the control of the HIV-1 long terminal repeat (LTR) (SV[HIVLTR]IFN). Thus, the IFN-alpha2 gene would be trans-activated on infection with HIV-1. This vector was tested to determine if central nervous system (CNS) cell types that may be potential HIV-1 targets could be transduced and protected from HIV. SV[HIVLTR]IFN transduced NT2 cells, a human neuronal precursor cell line, mature neurons derived from NT2 precursor cells, and human primary monocyte-derived macrophages. IFN-alpha2 expression was retained in mature neurons after SV[HIVLTR]IFN-transduced NT2 precursor cells were induced to differentiate using retinoic acid. IFN-alpha expression was detected only after exposing transduced cells to HIV. Furthermore, SV[HIVLTR]IFN-delivered IFN-alpha2 expression significantly inhibited replication of multiple strains of HIV in both NT2 and NT2-derived mature neurons. SV[HIVLTR]IFN transduction also inhibited HIV-1(BaL) replication in human primary monocyte-derived macrophages. Therefore, we have demonstrated the effectiveness of IFN-alpha2, delivered by an SV40 vector driven by HIV-1 LTR as a promoter, to protect several CNS-based, potentially HIV-susceptible cell types. These findings may have implications for therapy of HIV-1 infection in the CNS.

The medical, personal, and social causes of uncertainty in HIV illness

Uncertainty is an important part of the illness experience. Mishel elaborated a theory of uncertainty in acute illness and later expanded the framework to account for uncertainty in chronic illness. Researchers subsequently have investigated the causes and outcomes associated with the uncertainty in illness experience across a variety of medical conditions. The current study applies and extends Mishel's model within the context of HIV illness-related uncertainty. In this qualitative study, focus group methods were used to examine the nature of illness uncertainty experienced by persons living with HIV or AIDS. Findings confirm Mishel's contention that the causes of uncertainty extend beyond those of medical diagnosis, treatment, and recovery to personal and social aspects of daily life. Identified sources of uncertainty may have important mental health and quality of life implications.

Twenty years of therapy for HIV-1 infection

Antiretroviral therapy, where available, has transformed HIV-1 disease into a treatable and somewhat chronic infection. This article summarizes the accomplishments thus far and what lies ahead in our struggle to improve the treatment of, and possibly eliminate, HIV-1 infection.

Neurologic aspects of HIV infection in infants and children: therapeutic approaches and outcome

Central nervous system (CNS) HIV-related disorders frequently have devastating consequences. Significant progress has been made in the early diagnosis and treatment of the HIV-infected patient. As a result, the prevalence and natural history of neurologic illnesses have changed. This paper reviews the epidemiology, clinical manifestations, and neuropathogenesis of HIV-related CNS disorders. Advances in antiretroviral therapy, neuroprophylaxis, and neuroprotective strategies are also discussed.

In a subset of subjects on highly active antiretroviral therapy, human immunodeficiency virus type 1 RNA in plasma decays from 50 to <5 copies per milliliter, with a half-life of 6 months

Three of five virally suppressed human immunodeficiency virus type I (HIV-1)-infected patients treated with highly active antiretroviral therapy and followed intensively with a supersensitive reverse transcriptase PCR assay with a lower limit of quantitation of 5 copies/ml showed statistically significant viral load decays below 50 copies/ml, with half-lives of 5 to 8 months and a mean of 6 months. This range of half-lives is consistent with the estimated half-life of the latent HIV-1 reservoir in the peripheral blood. Those patients without decay of viral load in plasma may have significant cryptic HIV-1 residual replication.

Approaching eradication of highly active antiretroviral therapy-persistent human immunodeficiency virus type 1 reservoirs with immune activation therapy

Highly active antiretroviral therapy (HAART) has dramatically altered the human immunodeficiency virus type 1 (HIV-1) pandemic in the developed world. Most patients treated with HAART will maintain clinically undetectable plasma virus loads with concomitant dramatic decreases in mortality and morbidity. Nevertheless, HAART does not eradicate HIV-1 infection on the basis of persistent low-level or cryptic viral replication and, of importance, latent provirus in resting CD4+ T lymphocytes. New approaches are now being developed for stimulation of "HAART-persistent" reservoirs. Immune activation therapy (IAT) has begun to be used in attempts to stimulate the HIV-1 latent reservoir. These studies and new approaches to activating latent virus in resting CD4+ T cells are reviewed and critically analyzed in the present report. Development of novel IAT may lead to long-term remission or viral eradication in the future.

Reliable and reproducible LightCycler qPCR for HIV-1 DNA 2-LTR circles

Highly active anti-retroviral therapy (HAART) has reduced the plasma load of HIV-1 to undetectable levels. It has however failed to eliminate the virus from other body compartments. Current methods for monitoring persistent viral replication in HIV-1+ patients require a large amount of blood and/or repeated tissue biopsies. Furthermore, some of the viral reservoirs, such as brain and eye, are inaccessible for sampling. The detection of episomal HIV-1 DNA 2-LTR circles in CD4+ cells is indicative of recent, acute infection events. This paper describes a reliable and reproducible LightCycler-based assay for the quantitative measurement of HIV-1 DNA 2-LTR circles in human peripheral blood mononuclear (PBMN) cells. It details the modifications to the DNA extraction procedure and to the LightCycler PCR procedure that were required to achieve this. This new surrogate marker of persistent viral replication can now be reliably, reproducibly and robustly used to study the clinical progress of large numbers of patients whose plasma HIV-1 RNA has been reduced to undetectable levels by anti-retroviral drugs.

HIV-1 reservoirs

In most infected individuals, HIV-1 replicates high levels throughout the duration of infection, including the clinically quiescent phase of disease. The level of this active viral replication correlates directly with disease progression and survival. The advent of combination therapeutics for HIV-1 (i.e., highly active antiretroviral therapy [HAART]) has led to dramatic reductions in viral replication in vivo and morbidity and mortality, at least in the developed world.

Decreased recovery of replication-competent HIV-1 from peripheral blood mononuclear cell-derived monocyte/macrophages of HIV-positive patients after 3 years on highly active antiretroviral therapy

We studied the release of p24 antigen from peripheral blood mononuclear cell-derived monocyte/macrophages obtained from 13 HIV-positive patients receiving highly active antiretroviral therapy (HAART). Although HIV-infected monocyte/macrophages were detected in 80% of patients after 36 months of continuous treatment, additional exposure to HAART reduced the chance of detecting HIV-releasing monocyte/macrophages. Therefore, after more than 3 years of HAART, recently infected monocytes may play a less important role as a source of emerging HIV-1 upon HAART interruption.

Selection of drug-resistant HIV-1 mutants in response to repeated structured treatment interruptions

BACKGROUND

A new HIV-1 treatment strategy based on repeated structured treatment interruptions (STI) is currently being evaluated in clinical trials to determine whether immune cell-mediated control of viral replication can be stimulated by intermittent periods of viral replication. The potential for selection of drug-resistant quasi-species remains a major concern of such a treatment strategy.

METHODS

Plasma and peripheral blood lymphocyte (PBL) samples from 12 patients who had three consecutive STIs were studied. Genotypic analysis was based on population and clonal sequencing. Drug susceptibility and their corresponding replication capacities were evaluated by a single-cycle growth assay.

RESULTS

Consistent with a loss of phenotypic susceptibility to lamivudine, the M184V mutation was detected by genotypic analysis (direct and clonal sequencing) in plasma samples collected from two patients at the end of the second or third STI. Longitudinal analysis of patient samples revealed a step-wise increase in the M184V mutation in each patient virus population over successive STIs, despite the lower replicative capacity associated with this mutation in the absence of antiviral agents.

CONCLUSION

Drug-resistant virus can rise to high frequencies in chronically HIV-1 infected individuals during consecutive STIs. Evolution of resistance is likely to be more important in patients with prior suboptimal therapies, particularly when few mutations are required for resistance. Maximum care should be taken in designing STI protocols that minimize development of drug-resistant mutations that may lead to treatment failure. Thus, drug-resistance testing may be useful before restarting treatment during STI studies.

Reservoirs of human immunodeficiency virus type 1: the main obstacles to viral eradication

Highly active antiretroviral therapy (HAART) has led to profound decreases in morbidity and mortality rates in human immunodeficiency virus type 1 (HIV-1)-infected persons, at least in the developed world. Many infected persons have plasma levels of HIV-1 RNA that are less than the limits of detection of most clinical assays as a result of combination antiretroviral therapy. Nonetheless, HIV-1 has not been eradicated by HAART. This has been shown to be because of latent HIV-1 replication-competent provirus in resting CD4+ T lymphocytes, cryptic viral replication below the limits of detection of most clinical assays, and, possibly, the presence of viral sanctuary sites. An understanding of these reservoirs for HIV-1 in the setting of virally suppressive HAART will be critical for the development of new approaches to induce HIV-1 remissions and for the exploration of the possibility of viral eradication in the future.