Long-term protective immunity induced by an adjuvant-containing live-attenuated AIDS virus

The use of an adjuvant in vaccination is thought to be effective for enhancing immune responses to various pathogens. We genetically constructed a live attenuated simian human immunodeficiency virus (SHIV) to express the adjuvant molecule Ag85B (SHIV-Ag85B). SHIV-Ag85B could not be detected 4 weeks after injection in cynomolgus macaques, and strong SHIV-specific T cell responses were induced in these macaques. When the macaques in which SHIV-Ag85B had become undetectable were challenged with pathogenic SHIV89.6P at 37 weeks after SHIV-Ag85B had become undetectable, SHIV89.6P was not detected after the challenge. Eradication of SHIV89.6P was confirmed by adoptive transfer experiments and CD8-depletion studies. The SHIV-Ag85B-inoculated macaques showed enhancement of Gag-specific monofunctional and polyfunctional CD8+ T cells in the acute phase of the pathogenic SHIV challenge. The results suggest that SHIV-Ag85B elicited strong sterile immune responses against pathogenic SHIV and that it may lead to the development of a vaccine for AIDS virus infection.

Sustained viremia suppression by SHIVSF162P3CN-recalled effector-memory CD8+ T cells after PD1-based vaccination

HIV-1 functional cure requires sustained viral suppression without antiretroviral therapy. While effector-memory CD8+ T lymphocytes are essential for viremia control, few vaccines elicit such cellular immunity that could be potently recalled upon viral infection. Here, we investigated a program death-1 (PD1)-based vaccine by fusion of simian immunodeficiency virus capsid antigen to soluble PD1. Homologous vaccinations suppressed setpoint viremia to undetectable levels in vaccinated macaques following a high-dose intravenous challenge by the pathogenic SHIVSF162P3CN. Poly-functional effector-memory CD8+ T cells were not only induced after vaccination, but were also recalled upon viral challenge for viremia control as determined by CD8 depletion. Vaccine-induced effector memory CD8+ subsets displayed high cytotoxicity-related genes by single-cell analysis. Vaccinees with sustained viremia suppression for over two years responded to boost vaccination without viral rebound. These results demonstrated that PD1-based vaccine-induced effector-memory CD8+ T cells were recalled by AIDS virus infection, providing a potential immunotherapy for functional cure.

Interleukin-18 and cytotoxic impairment are independent and synergistic causes of murine virus-induced hyperinflammation

Hemophagocytic lymphohistiocytosis (HLH) and macrophage activation syndrome (MAS) are life-threatening hyperinflammatory syndromes typically associated with underlying hematologic and rheumatic diseases, respectively. Familial HLH is associated with genetic cytotoxic impairment and thereby to excessive antigen presentation. Extreme elevation of serum interleukin-18 (IL-18) has been observed specifically in patients with MAS, making it a promising therapeutic target, but how IL-18 promotes hyperinflammation remains unknown. In an adjuvant-induced MAS model, excess IL-18 promoted immunopathology, whereas perforin deficiency had no effect. To determine the effects of excess IL-18 on virus-induced immunopathology, we infected Il18-transgenic (Il18tg) mice with lymphocytic choriomeningitis virus (LCMV; strain Armstrong). LCMV infection is self-limited in wild-type mice, but Prf1−/− mice develop prolonged viremia and fatal HLH. LCMV-infected Il18-transgenic (Il18tg) mice developed cachexia and hyperinflammation comparable to Prf1−/− mice, albeit with minimal mortality. Like Prf1−/− mice, immunopathology was largely rescued by CD8 depletion or interferon-γ (IFNg) blockade. Unlike Prf1−/− mice, they showed normal target cell killing and normal clearance of viral RNA and antigens. Rather than impairing cytotoxicity, excess IL-18 acted on T lymphocytes to amplify their inflammatory responses. Surprisingly, combined perforin deficiency and transgenic IL-18 production caused spontaneous hyperinflammation specifically characterized by CD8 T-cell expansion and improved by IFNg blockade. Even Il18tg;Prf1-haplosufficient mice demonstrated hyperinflammatory features. Thus, excess IL-18 promotes hyperinflammation via an autoinflammatory mechanism distinct from, and synergistic with, cytotoxic impairment. These data establish IL-18 as a potent, independent, and modifiable driver of life-threatening innate and adaptive hyperinflammation and support the rationale for an IL-18–driven subclass of hyperinflammation.

Long-term sterile immunity induced by an adjuvant-containing live-attenuated AIDS virus

Antigen 85B (Ag85B) is one of the most dominant proteins secreted from most mycobacterial species, and it induces Th1-type immune responses as an adjuvant. We genetically constructed a live attenuated simian human immunodeficiency virus to express the adjuvant molecule Ag85B (SHIV-Ag85B). SHIV-Ag85B could not be detected 4 weeks after injection in cynomolgus macaques, and strong SHIV-specific T cell responses were induced in these macaques. When these macaques in which SHIV-Ag85B had become undetectable were challenged with pathogenic SHIV89.6P at 37 weeks after SHIV-Ag85B became undetectable, SHIV89.6P could not be detected after the challenge. Eradication of SHIV89.6P was confirmed by adoptive transfer experiments and CD8-depletion studies. The SHIV-Ag85B-inoculated macaques showed enhancement of Gag-specific monofunctional and polyfunctional CD8+ T cells in the acute phase of pathogenic SHIV challenge. The results suggest that SHIV-Ag85B elicited strong sterile immune responses against pathogenic SHIV and that it may lead to the development of a vaccine for AIDS virus infection.ImportanceDevelopment of an effective HIV vaccine has been a major priority to control the worldwide AIDS epidemic. The moderately attenuated prototypic vaccine strain SIVmac239Δnef has been used in various studies; however, it does not provide sufficient effects to prevent infection. The use of adjuvant in vaccination is thought to be useful for enhancing the immune responses to various pathogens. In the present study, we constructed a live attenuated SHIV virus expressing adjuvant molecule Ag85B and assessed vaccine effects in cynomolgus macaques. The present study shows that live-attenuated SHIV expressing Ag85B elicits viral antigen-specific polyfunctional CD8+ T cell responses against pathogenic SHIV and provide the possibility of eradicating a pathogenic lentivirus from infected animals.

CD8+ lymphocytes modulate Zika virus dynamics and tissue dissemination and orchestrate antiviral immunity

CD8+ lymphocytes are critically important in the control of viral infections, but their roles in acute Zika virus (ZIKV) infection remain incompletely explored in a model sufficiently similar to humans immunologically. Here, we use CD8+ lymphocyte depletion to dissect acute immune responses in adult male rhesus and cynomolgus macaques infected with ZIKV. CD8 depletion delayed serum viremia and dysregulated patterns of innate immune cell homing and monocyte-driven transcriptional responses in the blood. CD8-depleted macaques also showed evidence of compensatory adaptive immune responses, with elevated Th1 activity and persistence of neutralizing antibodies beyond the clearance of serum viremia. The absence of CD8+ lymphocytes increased viral burdens in lymphatic tissues, semen, and cerebrospinal fluid, and neural lesions were also evident in both CD8-depleted rhesus macaques. Together, these data support a role for CD8+ lymphocytes in the control of ZIKV dissemination and in maintaining immune regulation during acute infection of nonhuman primates.

Dynamics of Simian Immunodeficiency Virus Two-Long-Terminal-Repeat Circles in the Presence and Absence of CD8+Cells

ABSTRACTCD8+cells play a key role in human immunodeficiency virus (HIV)/simian immunodeficiency virus (SIV) infection, but their specific mechanism(s) of action in controlling the virus is unclear. Two-long-terminal-repeat (2-LTR) circles are extrachromosomal products generated upon failed integration of HIV/SIV. To understand the specific effects of CD8+cells on infected cells, we analyzed the dynamics of 2-LTR circles in SIVmac251-infected rhesus macaques (RMs) treated with an integrase inhibitor (INT). Twenty RMs underwent CD8+cell depletion and received raltegravir (RAL) monotherapy or a combination of both. Blood, lymph nodes (LNs), and gut biopsy specimens were routinely sampled. Plasma viral loads (pVLs) and 2-LTR circles from peripheral blood mononuclear cells (PBMCs) and LN lymphocytes were measured with quantitative reverse transcription-PCR (qRT-PCR). In the CD8 depletion group, an ∼1-log increase in pVLs and a slow increase in PBMC 2-LTRs occurred following depletion. In the INT group, a strong decline in pVLs upon treatment initiation and no change in 2-LTR levels were observed. In the INT and CD8+cell depletion group, an increase in pVLs following CD8 depletion similar to that in the CD8 depletion group was observed, with a modest decline following INT initiation, and 2-LTR circles significantly increased in PBMCs and LNs. Analyzing the 2-LTR data across all treatment groups with a mathematical model indicates that the data best support an effect of CD8+cells in killing cells prior to viral integration. Sensitivity analyses of these results confirm that effect but also allow for additional effects, which the data do not discriminate well. Overall, we show that INT does not significantly increase the levels of 2-LTR circles. However, CD8+cell depletion increases the 2-LTR levels, which are enhanced in the presence of an INT.IMPORTANCECD8+T cells play an essential role in controlling HIV and SIV infection, but the specific mechanisms involved remain poorly understood. Due to failed viral infection, HIV and SIV can form 2-LTR extrachromosomal circles that can be quantified. We present novel data on the dynamics of these 2-LTR forms in a SIV-infected macaque model under three different treatment conditions: depletion of CD8+cells, administration of the integrase inhibitor in a monotherapy, which favors the formation of 2-LTR circles, and a combination of the two treatments. We used a new mathematical model to help interpret the data, and the results suggest that CD8+cells exert a killing effect on infected cells prior to virus integration. These results provide new insights into the mechanisms of action of CD8+cells in SIV infection. Confirmation of our results would be an important step in understanding immune control of HIV.

Simian Immunodeficiency Virus-Producing Cells in Follicles Are Partially Suppressed by CD8+CellsIn Vivo

ABSTRACTHuman immunodeficiency virus (HIV)- and simian immunodeficiency virus (SIV)-specific CD8+T cells are typically largely excluded from lymphoid B cell follicles, where HIV- and SIV-producing cells are most highly concentrated, indicating that B cell follicles are somewhat of an immunoprivileged site. To gain insights into virus-specific follicular CD8+T cells, we determined the location and phenotype of follicular SIV-specific CD8+T cellsin situ, the local relationship of these cells to Foxp3+cells, and the effects of CD8 depletion on levels of follicular SIV-producing cells in chronically SIV-infected rhesus macaques. We found that follicular SIV-specific CD8+T cells were able to migrate throughout follicular areas, including germinal centers. Many expressed PD-1, indicating that they may have been exhausted. A small subset was in direct contact with and likely inhibited by Foxp3+cells, and a few were themselves Foxp3+. In addition, subsets of follicular SIV-specific CD8+T cells expressed low to medium levels of perforin, and subsets were activated and proliferating. Importantly, after CD8 depletion, the number of SIV-producing cells increased in B cell follicles and extrafollicular areas, suggesting that follicular and extrafollicular CD8+T cells have a suppressive effect on SIV replication. Taken together, these results suggest that during chronic SIV infection, despite high levels of exhaustion and likely inhibition by Foxp3+cells, a subset of follicular SIV-specific CD8+T cells are functional and suppress viral replicationin vivo. These findings support HIV cure strategies that augment functional follicular virus-specific CD8+T cells to enhance viral control.IMPORTANCEHIV- and SIV-specific CD8+T cells are typically largely excluded from lymphoid B cell follicles, where virus-producing cells are most highly concentrated, suggesting that B cell follicles are somewhat of an immunoprivileged site where virus-specific CD8+T cells are not able to clear all follicular HIV- and SIV-producing cells. To gain insights into follicular CD8+T cell function, we characterized follicular virus-specific CD8+T cellsin situby using an SIV-infected rhesus macaque model of HIV. We found that subsets of follicular SIV-specific CD8+T cells are able to migrate throughout the follicle, are likely inhibited by Foxp3+cells, and are likely exhausted but that, nonetheless, subsets are likely functional, as they express markers consistent with effector function and show signs of suppressing viral replicationin vivo. These findings support HIV cure strategies that increase the frequency of functional follicular virus-specific CD8+T cells.

Differential Impact ofIn VivoCD8+T Lymphocyte Depletion in Controller versus Progressor Simian Immunodeficiency Virus-Infected Macaques

ABSTRACTNumerous studies have demonstrated that CD8+T lymphocytes suppress virus replication during human immunodeficiency virus (HIV)/simian immunodeficiency virus (SIV) infection. However, the mechanisms underlying this activity of T cells remain incompletely understood. Here, we conducted CD8+T lymphocyte depletion in 15 rhesus macaques (RMs) infected intravenously (i.v.) with SIVmac239. At day 70 postinfection, the animals (10 progressors with high viremia and 5 controllers with low viremia) were CD8 depleted by i.v. administration of the antibody M-T807R1. As expected, CD8 depletion resulted in increased virus replication, more prominently in controllers than progressors, which correlated inversely with predepletion viremia. Of note, the feature of CD8+T lymphocyte predepletion that correlated best with the increase in viremia postdepletion was the level of CD8+T-bet+lymphocytes. We next found that CD8 depletion resulted in a homogenous increase of SIV RNA in superficial and mesenteric lymph nodes, spleen, and the gastrointestinal tract of both controllers and progressors. Interestingly, the level of SIV DNA increased postdepletion in both CD4+central memory T lymphocytes (TCM) and CD4+effector memory T lymphocytes (TEM) in progressor RMs but decreased in the CD4+TCMof 4 out of 5 controllers. Finally, we found that CD8 depletion is associated with a greater increase in CD4+T lymphocyte activation (measured by Ki-67 expression) in controllers than in progressors. Overall, these data reveal a differential impact of CD8+T lymphocyte depletion between controller and progressor SIV-infected RMs, emphasizing the complexity of thein vivoantiviral role of CD8+T lymphocytes.IMPORTANCEIn this study, we further dissect the impact of CD8+T lymphocytes on HIV/SIV replication during SIV infection. CD8+T lymphocyte depletion leads to a relatively homogenous increase in viral replication in peripheral blood and tissues. CD8+T lymphocyte depletion resulted in a more prominent increase in viral loads and CD4+T lymphocyte activation in controllers than in progressors. Interestingly, we found T-bet expression on CD8+T lymphocytes to be the best predictor of viral load increase following depletion. The levels of SIV DNA increase postdepletion in both CD4+TCMand TEMin progressor RMs but decrease in the CD4+TCMof controllers. The findings described in this study provide key insights into the differential functions of CD8+T lymphocytes in controller and progressor RMs.