The B-Cell Follicle in HIV Infection: Barrier to a Cure

Bronnimann, Matthew P.; Skinner, Pamela J.; Connick, Elizabeth

doi:10.3389/fimmu.2018.00020

Cited by 73 publications

(70 citation statements)

References 149 publications

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“…In addition, in the analyzed six HIV-infected patients, a high percentage of HIV-expressing cells localized within the B cell follicle also coexpressed the CD32a transcripts (median, 94%) compared to 4% of cells that were single CD32a + and 2% of cells that only expressed HIV RNA. The B cell follicle has been identified as an immune-privileged sanctuary site for HIV persistence (39). No differences were observed between viremic and aviremic donors (Fig.…”

Section: Resultsmentioning

confidence: 99%

CD32 is expressed on cells with transcriptionally active HIV but does not enrich for HIV DNA in resting T cells

et al. 2018

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The persistence of HIV reservoirs, including latently infected, resting CD4+ T cells, is the major obstacle to cure HIV infection. CD32a expression was recently reported to m ark CD4+ T cells harboring a replication-competent HIV reservoir during antiretroviral therapy (ART) suppression. We aimed to determine whether CD32 expression marks HIV latently or transcriptionally active infected CD4+ T cells. Using peripheral blood and lymphoid tissue of ART-treated HIV+ or SIV+ subjects, we found that most of the circulating memory CD32+ CD4+ T cells expressed markers of activation, including CD69, HLA-DR, CD25, CD38, and Ki67, and bore a TH2 phenotype as defined by CXCR3, CCR4, and CCR6. CD32 expression did not selectively enrich for HIV- or SIV-infected CD4+ T cells in peripheral blood or lymphoid tissue; isolated CD32+ resting CD4+ T cells accounted for less than 3% of the total H IV DNA in CD4+ T cells. Cell-associated HIV DNA and RNA loads in CD4+ T cells positively correlated with the frequency of CD32+ CD69+ CD4+ T cells but not with CD32 expression on resting CD4+ T cells. Using RNA fluorescence in situ hybridization, CD32 coexpression with HIV RNA or p24 was detected after in vitro HIV infection (peripheral blood mononuclear cell and tissue) and in vivo within lymph node tissue from HIV-infected individuals. Together, these results indicate that CD32 is not a marker of resting CD4+ T cells or of enriched HIV DNA-positive cells after ART; rather, CD32 is predominately expressed on a subset of activated CD4+ T cells enriched for transcriptionally active HIV after long-term ART.

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Section: Resultsmentioning

confidence: 99%

CD32 is expressed on cells with transcriptionally active HIV but does not enrich for HIV DNA in resting T cells

et al. 2018

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“…In order to determine the immunological effects of VDZ on the GI tract, we examined both immune inductive sites (represented by lymphoid aggregates, concentrated in the TI) and Moreover, B cell follicles may be semi-immune privileged sites due to the inability of cytotoxic T cells lacking follicular homing molecule CXCR5 (54) from entering them (55). In accordance with this concept, it has been hypothesized that overcoming the immune privilege of lymphoid follicles may be key to HIV-cure efforts (56). Among the strategies being considered are the development CXCR5-expressing chimeric antigen receptor (CAR) T cells (57), the use of bispecific antibodies (58) or treatment with latency reversal agents (LRA) (59).…”

Section: Discussionmentioning

confidence: 99%

Anti-α4β7 therapy targets lymphoid aggregates in the gastrointestinal tract of HIV-1 infected individuals

Uzzan

Tokuyama

Rosenstein

et al. 2018

Preprint

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Herein, we present the first human study of anti-α4β7 therapy in a cohort of HIV-1 infected subjects with mild inflammatory bowel disease. α4β7 + gut homing CD4 + T cells are early viral targets and contribute to HIV-1 pathogenesis, likely by seeding the gastrointestinal (GI) tract with HIV. Although, simianized anti-α4β7 monoclonal antibodies (Mab) have shown promise in preventing or attenuating the disease course of SIV in Non-Human Primate studies, the mechanisms of drug action remain elusive and the impact on HIV-1 persistence remains unanswered. By sampling the immune inductive and effector sites of the GI tract, we have discovered that anti-α4β7 therapy led to a significant and unexpected attenuation of lymphoid aggregates, most notably in the terminal ileum. Given that lymphoid aggregates serve as important sanctuary sites for establishing and maintaining viral reservoirs, their attrition by anti-α4β7 therapy has important implications for HIV-1 therapeutics and eradication efforts, and defines a rational basis for the continued evaluation of anti-α4β7 therapy in HIV-1 infection.

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“…It is well established that macrophages can serve as a reservoir for HIV [106][107][108]; thus, the BLTS-humanized mouse model provides a system for investigating human splenic macrophage-HIV interactions [5]. Additionally, the spleen is a major lymphoid tissue reservoir, with B cell follicles in the white-pulp serving as an immune privilege site for anti-HIV T-cells [109]. The human spleen in BLTShumanized mice provides a model for investigating anti-HIV immune response within the white-pulp and the role of B cell follicle in mediating HIV persistence.…”

Section: Bone Marrow-liver-thymus-spleen (Blts)-humanized Mouse Modelmentioning

confidence: 99%

Moving beyond the mousetrap: current and emerging humanized mouse and rat models for investigating prevention and cure strategies against HIV infection and associated pathologies

et al. 2020

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The development of safe and effective combination antiretroviral therapies for human immunodeficiency virus (HIV) infection over the past several decades has significantly reduced HIV-associated morbidity and mortality. Additionally, antiretroviral drugs have provided an effective means of protection against HIV transmission. Despite these advances, significant limitations exist; namely, the inability to eliminate HIV reservoirs, the inability to reverse lymphoid tissues damage, and the lack of an effective vaccine for preventing HIV transmission. Evaluation of the safety and efficacy of therapeutics and vaccines for eliminating HIV reservoirs and preventing HIV transmission requires robust in vivo models. Since HIV is a human-specific pathogen, that targets hematopoietic lineage cells and lymphoid tissues, in vivo animal models for HIV-host interactions require incorporation of human hematopoietic lineage cells and lymphoid tissues. In this review, we will discuss the construction of mouse models with human lymphoid tissues and/or hematopoietic lineage cells, termed, human immune system (HIS)-humanized mice. These HIS-humanized mouse models can support the development of functional human innate and adaptive immune cells, along with primary (thymus) and secondary (spleen) lymphoid tissues. We will discuss applications of HIS-humanized mouse models in evaluating the safety and efficacy of therapeutics against HIV reservoirs and associated immunopathology, and delineate the human immune response elicited by candidate HIV vaccines. In addition to focusing on how these HIS-humanized mouse models have already furthered our understanding of HIV and contributed to HIV therapeutics development, we discuss how emerging HIS-humanized rat models could address the limitations of HIS-mouse models.

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The B-Cell Follicle in HIV Infection: Barrier to a Cure

Cited by 73 publications

References 149 publications

CD32 is expressed on cells with transcriptionally active HIV but does not enrich for HIV DNA in resting T cells

CD32 is expressed on cells with transcriptionally active HIV but does not enrich for HIV DNA in resting T cells

Anti-α4β7 therapy targets lymphoid aggregates in the gastrointestinal tract of HIV-1 infected individuals

Moving beyond the mousetrap: current and emerging humanized mouse and rat models for investigating prevention and cure strategies against HIV infection and associated pathologies

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