Blocking myeloid cell activation with ART and adjunctive methylglyoxal-bis-guanylhydrazone (MGBG) decreases SIV-associated cardiovascular pathology:

White, Kevin Suresh

January 2024

Thesis advisor: Welkin Johnson / HIV-associated comorbidities including neurological disorders (HAND) and cardiovascular diseases (CVD) persist in people living with HIV (PLWH) regardless of adherence to antiretroviral therapies (ART). The development of these comorbidities correlates with increased monocyte/macrophages activation and accumulation. Studies report that the development of CVD and HAND are connected in PLWH, but few studies have examined the roles that monocyte/macrophages activation have in their co-development. We first asked how frequently CD8+ T lymphocyte depleted, SIV-infected rhesus macaques with AIDS co-developed cardiac pathology and SIV encephalitis (SIVE) compared to animals that developed CVD or SIVE alone, and animals with no significant cardiac pathology (NSF) and SIV with no encephalitis (SIVnoE) (Chapter 2). We sought to determine whether animals with concomitant CVD and SIVE had more monocyte activation, cardiac macrophages accumulation, and productively infected SIV-RNA+ and SIV- gp41+ cells in the heart and brain compared to animals with CVD or SIVE alone, and animals with NSF and SIVnoE. We found that animals with AIDS co-developed CVD and SIVE more frequently than animals developed CVD or SIVE alone, and NSF and SIVnoE. Animals with CVD and SIVE had increased biomarkers of monocyte activation, cardiac macrophages inflammation, and productively infected macrophages in the brain. We found that the quantity of SIV-RNA+ cells in the heart was sparse compared to the brain. When detected, cardiac SIV-RNA+ cells are CD68+ and CD206+ cardiac macrophages. Levels of plasma soluble CD163 (sCD163) correlated with plasma galectin-3 (Gal-3), galectin-9, and interleukin-18 (IL-18), more so than plasma viral load. We then assessed cardiac tissues from PWLH with HIV encephalitis (HIVE) and HIV no encephalitis (HIVnoE). We found that PLWH with HIVE had more cardiac inflammation and fibrosis than PLWH with HIVnoE. These findings indicate that CVD and HAND pathogenesis are connected, and that the level of myeloid cell activation correlates with the development and severity of concomitant CVD and HAND. The findings from this study emphasize the importance that macrophages accumulation has in developing AIDS-related comorbidities. Our findings highlight the importance of targeting monocyte/macrophages activation and accumulation in future HIV therapies. The persistence of CVD in the post-ART era suggests that ART successfully inhibits AIDS pathogenesis and HIV replication, but fails to block monocyte activation and macrophages accumulation correlated with CVD pathogenesis. We hypothesize that the optimal therapeutic approach for HIV-infection includes blocking AIDS pathogenesis and viral replication, and inhibiting monocyte/macrophages activation. Methylglyoxal-bis-guanylhydrazone (MGBG) is a polyamine biosynthesis inhibitor selectively taken up by monocytes and macrophages. MGBG treatment blocks monocyte/ macrophages activation in vitro, AIDS pathogenesis, and decreases inflammation in cardiac and brain tissues of SIV- infected rhesus macaques. We asked whether animals treated with ART and adjunct MGBG (ART+MGBG) had an additive decrease in monocyte activation and turnover, cardiac macrophages inflammation and collagen deposition compared to animals on ART, and untreated animals (Chapter 3). We found that animals on ART+MGBG had lower percentages of cardiac collagen deposition than animals on ART. Animals on ART, and ART+MGBG did not develop AIDS, and had decreased cardiac inflammation and collagen, and monocyte activation and turnover compared to untreated animals. Finally, we identified two populations of Gal-3 expressing (Gal-3+) cells in the heart, CD163+ Gal-3+ cardiac macrophages and CD163- Gal-3+ cells. Animals on ART, and ART+MGBG had decreased numbers of CD163+ Gal-3+ cardiac macrophages compared to untreated animals. All animals had similar numbers of CD163- Gal-3+ cells, and low frequencies of SIV-RNA+ cardiac macrophages regardless of treatment. These data suggests that blocking AIDS pathogenesis with ART, and ART+MGBG correlates with decreased monocyte activation and cardiac inflammation and collagen deposition. Overall, we did not find an additive effect in animals on ART+MGBG compared to animals on ART. Our findings show how targeting monocyte/macrophages activation with ART+MGBG blocks AIDS pathogenesis and decreases cardiac macrophages inflammation. This study demonstrates the advantages of therapeutic strategies blocking myeloid cell activation in conjunction with ART. / Thesis (MS) — Boston College, 2024. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Biology.

Cardiovascular disease

Human immunodeficiency virus

Inflammation

Macrophages

Monocytes

Simian immunodeficiency virus

Evaluation of reverse transcriptase assay for viral load monitoring /

Corrigan, Gary E.,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 5 uppsatser.

Generation of complex recombinant fowlpox virus 9 (FP9) encoding simian immunodeficiency virus (SIVmac239) sequences as a model HIV vaccine candidate

Alsafi, Radi Taha M.

January 2016

The development of a safe and effective HIV vaccine remains challenging due to its high antigenic variability. Poxviruses are large, stable, and have a track record of use as human vaccine candidates. Recombinant fowlpox virus 9 (rFP9), a highly attenuated host range-restricted poxvirus strain, has been safely administered to humans with no ill effects, and is known to be immunogenic. This thesis describes the construction of complex rFP9 encoding various sequences of SIVmac239. The SIVmac239/macaque model is widely used for HIV vaccine development. The ultimate aim of this work was to combine the advantages of FP9 with those of live attenuated SIV to produce a safe yet hopefully effective model HIV vaccine candidate. Transfer plasmids for five different insertion sites within the FP9 genome were designed and constructed. Homologous recombination (HR) of adjacent FP9 sequences was employed to facilitate the integration of SIVmac239 sequences into the FP9 genome. Positive rFP9 were identified by blue colouration in presence of X-gal using a transient colour selection (TCS) technique, and the final markerless pure recombinants were confirmed by PCR. Expression of the target SIV proteins in the presence of T7 polymerase has been demonstrated by immunocytochemical (ICC) staining and Western blotting (WB) assays. Expression was also quantified by enzyme-linked immunosorbent assay (ELISA) in various cell lines at multiple time points. Five different unique rFP9 have been constructed through this project. All SIVmac239 open reading frames (ORFs) save nef have been integrated into the FP9 genome, and protein expression demonstrated where possible. Moreover, a single rFP9 vector expressing the defective SIVmac239 genome driven by T7 RNA polymerase has been successfully constructed and validated using a green fluorescent protein marker.rFP9 showed appropriate transgene expression in both avian and mammalian cells, although at different levels. The expression efficiency of rFP9 was finally compared to another attenuated poxvirus vector, modified vaccinia Ankara (MVA). Comparing the protein expression levels between rFP9 and rMVA was quite difficult because different poxvirus promoters (early/late in rFP9; intermediate in rMVA) were used to direct the transcription of the T7 RNA gene. Given this limitation, although generally higher levels of expression were seen with rFP9, this cannot be attributed to the FP9 with any certainty.

616.97

Characterization of the Nef-TCR Zeta Interaction and Its Role in Modulation of Src Family Kinase Activity: A Dissertation

Kim, Walter Minsub

07 August 2009

One of the hallmarks of an infection with pathogenic HIV-1 is the elevated level of immune activation that leads to rapid progression to AIDS. Surprisingly, nonhuman primates naturally infected with SIV do not exhibit an augmented activation phenotype nor severe immunodeficiency. One of the viral components implicated in determining the state of immune activation is the accessory protein Nef which has been demonstrated to affect T cell signaling pathways from within the intracellular compartment and for Nef from SIV, to downregulate TCR surface expression. Recently, Nef from HIV-1 and SIV have been demonstrated to bind the ζ chain of the TCR which functions as the primary signaling subunit of the receptor. However, the molecular details of the Nef-TCRζ interaction as well as the role of complex formation in modulation of immune activation remain largely unknown. This thesis describes work directed at elucidating the biochemical and structural features of the Nef-TCRζ interaction and the functional consequences of complex formation relevant to T cell activation. Chapter I provides a brief introduction on HIV/SIV classification and pathogenesis with an emphasis on Nef and its pleiotropic function in T cells. Chapter II describes the biochemical characterization of the interaction of the conserved core domain of Nef proteins from HIV-1, HIV-2 and SIV with the cytoplasmic domain of TCRζ. The core domains of HIV-2 ST and SIVmac239 are demonstrated to bind the cytoplasmic domain of TCRζ at two distinct regions and with different affinities. In contrast, the core domain of HIV-1 isolate ELI Nef only binds to one region and with the weakest calculated affinity among the HIV-1, HIV-2 and SIV Nef proteins studied. In addition, both the N-terminal domain and the strong TCRζ-binding core domain of SIVmac239 Nef each are demonstrated to be necessary but not sufficient for downregulation of TCR surface expression. Chapter III describes the crystallization and structure determination methods used to solve the crystal structures of the core domain of SIVmac239 Nef in complex with two overlapping TCRζ polypeptides. Crystals of Nef in complex with the longer TCRζDP1 (L51-D93) polypeptide grew in a tetragonal space group but only diffracted to low resolution. In contrast, crystals of the Nefcore-TCRζA63-R80 complex grew in an orthorhombic space group and diffracted to high resolution but were nearly perfectly pseudo-merohedrally twinned thus complicating structure determination. Following identification of the twin law relating the twin domains, the structure of the Nefcore-TCRζA63-R80 complex was determined using refinement procedures that accounted for crystal twinning to 2.05 Å. The structure of the Nefcore-TCRζDP1 complex was solved to 3.7 Å from a single non-twinned crystal. The altered crystal packing induced by the shorter TCRζA63-R80polypeptide is postulated to have led to a reduction in crystal symmetry and increase in proneness to crystal twinning. Chapter IV provides a detailed analysis of the structure of the Nefcore-TCRζA63-R80 complex and demonstrates its effect on modulation of Src family kinase activity. The TCRζ polypeptide adopts an alpha helical conformation and occupies a hydrophobic crevice on Nef not shared by any of Nef’s reported interaction partners. The interaction of Nefcore with TCRζ is mediated primarily by the burial of hydrophobic residues on TCRζ (L75, L77) in a hydrophobic pocket on Nef and a salt bridge between a glutamic acid (E74) on TCRζ and a basic patch on Nef consisting of two conserved arginines (R105, R106). The TCRζ polypeptide additionally orders the N-terminus of Nefcore into a polyproline type II helix that has been described to bind the SH3 domain of Src family kinases. We demonstrate that in vitro phosphorylation of TCRζcyt by Fyn and Src is specifically augmented by HIV-1 and SIV Nefcoreand suggest that Nef-TCRζ complex formation cooperatively enhances kinase activity. Chapter V contains overall conclusions, future directions and a model illustrating the proposed role of the Nef-TCRζ interaction in immune activation modulation. The Appendices contain sequences of the proteins, gene constructs and primers used in this work.

HIV-1

Receptors

Immunologic

Gene Products

nef/chemistry

Simian immunodeficiency virus

Receptors

Antigen

T-Cell

src-Family Kinases

Biological Factors

Enzymes and Coenzymes

Genetic Phenomena

Viruses

Identification of the Function of the Vpx Protein of Primate Lentiviruses: A Dissertation

Zhu, Xiaonan

14 December 2009

Primate lentiviruses encode four “accessory proteins” including Vif, Vpu, Nef, and Vpr/ Vpx. Vif and Vpu counteract the antiviral effects of cellular restrictions to early and late steps in the viral replication cycle. The functions of Vpx/ Vpr are not well understood. This study presents evidence that the Vpx proteins of HIV-2/ SIVSMpromote HIV-1 infection by antagonizing an antiviral restriction in myeloid cells. Fusion of macrophages in which Vpx was essential for virus infection, with COS cells in which Vpx was dispensable for virus infection, generated heterokaryons that supported infection by wild-type SIV but not Vpx-deleted SIV. The restriction potently antagonized infection of macrophages by HIV-1, and expression of Vpx in macrophages in transovercame the restriction to HIV-1 and SIV infection. Similarly, the cellular restriction is the obstacle to transduction of macrophages by MLV. Neutralization of the restriction by Vpx rendered macrophages permissive to MLV infection. Vpx was ubiquitylated and both ubiquitylation and the proteasome regulated the activity of Vpx. The ability of Vpx to counteract the restriction to HIV-1 and SIV infection was dependent upon the HIV-1 Vpr interacting protein, damaged DNA binding protein 1 (DDB1), and DDB1 partially substituted for Vpx when fused to Vpr. This study further demonstrates that this restriction prevents transduction of quiescent monocytes by HIV-1. Although terminally differentiated macrophages are partially permissive to HIV-1, quiescent monocytes, which are macrophage precursors, are highly refractory to lentiviral infection. Monocyte-HeLa heterokaryons were resistant to HIV-1 infection, while heterokaryons formed between monocytes and HeLa cells expressing Vpx were permissive to HIV-1 infection, suggesting the resistance of quiescent monocytes to HIV-1 transduction is governed by a restriction factor. Encapsidation of Vpx within HIV-1 virions conferred the ability to infect quiescent monocytes. Introduction of Vpx into monocytes by pre-infection also rendered quiescent monocytes permissive to HIV-1 infection. Infection of monocytes by HIV-1 either with or without Vpx did not have an effect on temporal expression of CD71. In addition, Vpx increased permissivity of CD71– and CD71+cells to HIV-1 infection with no apparent bias. These results confirm that Vpx directly renders undifferentiated monocytes permissive to HIV-1 transduction without inducing their differentiation. The introduction of Vpx did not significantly alter APOBEC3G complex distribution, suggesting a restriction other than APOBEC3G was responsible for the resistance of monocytes to HIV-1. Collectively our results indicate that macrophages and monocytes harbor a potent antiviral restriction that is counteracted by the Vpx protein. The relative ability of primate lentiviruses and gammaretroviruses to transduce non-dividing myeloid-cells is dependent upon their ability to neutralize this restriction.

Viral Regulatory and Accessory Proteins

vpr Gene Products

Human Immunodeficiency Virus

Simian immunodeficiency virus

Lentiviruses

Primate

Amino Acids, Peptides, and Proteins

Cells

Genetic Phenomena

Viruses

Determining agents for reversing latency in HIV-infected CD4+ T cells to eradicate the virus in the infected host

Moore, Cameron Alexander

29 September 2022

Human Immunodeficiency Virus (HIV) is a virus that is transmitted through certain bodily fluids and compromises the immune system of its host. Despite the emergence of antiretroviral therapy (ART) converting human immunodeficiency virus type 1 (HIV-1) infection from a fatal disease to a chronic condition, there is still no cure. ART frequently reestablishes peripheral CD4+ T cell counts, but persistent immune dysfunction and inflammation strongly correlate with increased risks of attaining non-AIDS morbidity and mortality. Elimination of this reservoir may occur by the proposed mechanism of combining latency-reversing agents (LRAs) with immune effectors, such as CD8+ T cells (Meås et al., 2020). Here, our study investigates Toll-like receptor 7/8 (TLR 7/8) superagonists that may act as potent, effective latency reversal agents (LRAs). Whether this will prove to be the case needs to be further studied, and potential adverse toxicities must be identified. Whether comparable results will be observed in peripheral blood mononuclear cells (PBMCs) infected with HIV-1 as in our study using PBMCs infected with simian immunodeficiency virus (SIV) remains to be tested. Our results provide further hope for a potential cure for HIV-infected individuals.

Virology

Antiretroviral therapy

Human Immunodeficiency Virus

Latency-reversal agents

Peripheral blood mononuclear cells

Simian immunodeficiency virus

Toll-like receptor 7/8 superagonists

Evaluating The Kinetics Of Proinflammatory Immune Responses To Simian Immunodeficiency Virus Infection In Rhesus Macaques By Transcriptional Analysis

Unknown Date

Understanding the host response immediately following mucosal HIV-1 infection will be pivotal in determining whether the immune response induced by a vaccine will successfully sense and control viral replication. In order for effective vaccine strategies and modalities to be developed, these earliest immunological events must be fully assessed in a non-biased manner. Nonhuman primates (NHP), specifically Rhesus macaques (RM), serve as a model to investigate the immunological landscape immediately post-challenge and to define the spatiotemporal path of simian immunodeficiency virus (SIV). SIV infection of RM serves as a model of human HIV infection as it recapitulates many of the virological, immunological, and pathological features of HIV infection in the human host. In this thesis I will test the hypothesis whether transcriptional analysis will allow a sensitive measure of the early innate immune responses that accompany detection of the SIV virus in the periphery. I have determined that an early inflammatory profile arises early in tissues proximal to the challenge site that precedes widespread immune activation and the systemic antiviral interferon response. This study defines in detail the spatiotemporal relationship between virus and host immune response and may be a valuable resource in guiding future vaccine design strategies. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2016. / FAU Electronic Theses and Dissertations Collection

Rhesus monkeys.

Monkeys as laboratory animals.

Retrovirus infections.

Veterinary virology.

HIV infections--Immunology.

AIDS (Disease)

HIV (Viruses)

Metaphor--Data processing.

Myocardial Macrophage Phenotypic Variation and Cytokine-Mediated Induction of HIV-Associated Cardiac Disease: A Dissertation

Yearley, Jennifer Holmes

20 March 2008

Ventricular dysfunction and dilated cardiomyopathy (DCM) develop among untreated HIV-infected people at much higher rates than among HIV-negative individuals, resulting in significant contributions to morbidity and mortality. Mechanisms underlying development of HIV-associated cardiomyopathy (HIVCM) are as yet poorly understood. The well-characterized simian immunodeficiency virus (SIV) model of HIV infection provides a unique context for HIVCM pathogenesis studies in that SIV-infected rhesus monkeys develop myocardial lesions and contractile dysfunction similar to those described in HIV-infected people, suggesting a shared disease mechanism. Lymphocytic myocarditis is a commonly reported finding in AIDS patients at autopsy and constitutes one of several conditions known to predispose to development of DCM, irrespective of HIV-infection status. As lymphocytic myocarditis also occurs with high frequency among SIV-infected rhesus monkeys, a retrospective analysis of rhesus monkey cardiac tissue collected at necropsy was performed to examine viral and cellular correlates of lymphocytic inflammation within myocardial tissue. One subpopulation of macrophages, which has been reported by other groups to be associated with an anti-inflammatory phenotype, was found to correlate inversely with lymphocytic infiltration and positively with numbers of virus infected cells, suggesting effects of an anti-inflammatory cytokine production profile. In contrast, the detrimental effects of inflammatory cytokines on myocardial structure and function are well-recognized and HIV infection in general is characterized by chronic immune activation and inflammatory cytokine dysregulation. To further investigate a role for myocardial cytokine production in development of HIVCM, a prospective study was conducted in which SIV-infected rhesus monkeys and uninfected controls were treated with recurrent administration of inactivated Mycobacterium aviumcomplex bacteria (MAC). SIV-infected, MAC-treated animals rapidly developed significant ventricular systolic dysfunction and chamber dilatation not seen in control groups, suggesting an exaggerated myocardial sensitivity to exogenous antigenic stimulation. Concurrent treatment with the TNFα antagonist etanercept completely abrogated development of these changes, strongly implicating a causative role for TNFα in evolution of the contractile dysfunction and chamber remodeling. Findings reported from the current studies suggest that characteristics of local myocardial macrophage populations and the myocardial tissue cytokine milieu may play more important roles than lymphocytic infiltration, cardiomyocyte damage, or viral proteins in the pathogenesis of HIVCM.

Heart Diseases

Monocytes

Dendritic Cells

Myocarditis

Simian immunodeficiency virus

Tumor Necrosis Factor-alpha

Acquired Immunodeficiency Syndrome

Animal Diseases

Cardiovascular Diseases

Immune System Diseases

Pathology

Virus Diseases

Viruses

Charakterisierung zellulärer Immunantworten von mit SIV immunisierten und infizierten Makaken / Characterization of cellular immune responses in macaques immunized and infected with SIV

Schulte, Reiner

01 November 2007

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Rhesusaffe

SIV

Impfstoff

Gedächtnis-T-Zellen

Lymphozyten

intrazelluläre Zytokinfärbung

ICS

rhesus monkey

simian immunodeficiency virus

SIV

vaccine

memory T-cells

lymphocyte

intracellular cytokine staining

ICS

42.32

44.45

46.52

MED 334: Infektionskrankheiten