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2. Evaluation of immune responses to porcine reproductive and respiratory syndrome virus in pigs during early stage of infection under farm conditions

Author

Dwivedi Varun, Manickam Cordelia, Binjawadagi Basavaraj, Linhares Daniel, Murtaugh Michael P, and Renukaradhya Gourapura J

Subjects
Porcine reproductive and respiratory syndrome virus, NK cells, Cytokines, Immune cells, Innate Immunity, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Porcine reproductive and respiratory syndrome virus (PRRSV) causes chronic, economically devastating disease in pigs of all ages. Frequent mutations in the viral genome result in viruses with immune escape mutants. Irrespective of regular vaccination, control of PRRSV remains a challenge to swine farmers. In PRRSV-infected pigs, innate cytokine IFN-α is inhibited and the adaptive arm of the immunity is delayed. To elucidate both cellular and innate cytokine responses at very early stages of PRRSV infection, seven weeks old pigs maintained on a commercial pig farm were infected and analyzed. Results One pig in a pen containing 25 pigs was PRRSV infected and responses from this pig and one penmate were assessed two days later. All the infected and a few of the contact neighbor pigs were viremic. At day 2 post-infection, approximately 50% of viremic pigs had greater than 50% reduction in NK cell-mediated cytotoxicity, and nearly a 1-fold increase in IFN-α production was detected in blood of a few pigs. Enhanced secretion of IL-4 (in ~90%), IL-12 (in ~40%), and IL-10 (in ~20%) (but not IFN-γ) in PRRSV infected pigs was observed. In addition, reduced frequency of myeloid cells, CD4-CD8+ T cells, and CD4+CD8+ T cells and upregulated frequency of lymphocytes bearing natural T regulatory cell phenotype were detected in viremic pigs. Interestingly, all viremic contact pigs also had comparable immune cell modulations. Conclusion Replicating PRRSV in both infected and contact pigs was found to be responsible for rapid modulation in NK cell-meditated cytotoxicity and alteration in the production of important immune cytokines. PRRSV-induced immunological changes observed simultaneously at both cellular and cytokine levels early post-infection appear to be responsible for the delay in generation of adaptive immunity. As the study was performed in pigs maintained under commercial environmental conditions, this study has practical implications in design of protective vaccines.

Published
2012
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3. A genetically engineered, stem-cell-derived cellular vaccine

Author

Cooper, Amanda, Sidaway, Adam, Chandrashekar, Abishek, Latta, Elizabeth, Chakraborty, Krishnendu, Yu, Jingyou, McMahan, Katherine, Giffin, Victoria, Manickam, Cordelia, Kroll, Kyle, Mosher, Matthew, Reeves, R. Keith, Gam, Rihab, Arthofer, Elisa, Choudhry, Modassir, Henley, Tom, and Barouch, Dan H.

Published
2022
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4. NK cells modulate in vivo control of SARS-CoV-2 replication and suppression of lung damage.

Author

Balachandran, Harikrishnan, Kroll, Kyle, Terry, Karen, Manickam, Cordelia, Jones, Rhianna, Woolley, Griffin, Hayes, Tammy, Martinot, Amanda J., Sharma, Ankur, Lewis, Mark, Jost, Stephanie, and Reeves, R. Keith

Subjects
SARS-CoV-2 Delta variant, KILLER cells, PATHOLOGY, VIRAL shedding, SARS-CoV-2
Abstract

Natural killer (NK) cells play a critical role in virus control. However, it has remained largely unclear whether NK cell mobilization in SARS-CoV-2 infections is beneficial or pathologic. To address this deficit, we employed a validated experimental NK cell depletion non-human primate (NHP) model with SARS-CoV-2 Delta variant B.1.617.2 challenge. Viral loads (VL), NK cell numbers, activation, proliferation, and functional measures were evaluated in blood and tissues. In non-depleted (control) animals, infection rapidly induced NK cell expansion, activation, and increased tissue trafficking associated with VL. Strikingly, we report that experimental NK cell depletion leads to higher VL, longer duration of viral shedding, significantly increased levels of pro-inflammatory cytokines in the lungs, and overt lung damage. Overall, we find the first significant and conclusive evidence for NK cell-mediated control of SARS-CoV-2 virus replication and disease pathology. These data indicate that adjunct therapies for infection could largely benefit from NK cell-targeted approaches. Author summary: Natural killer (NK) cells play a critically understudied role in controlling SARS-CoV-2 viral replication, clearance, and disease sequelae. In this manuscript, we investigated the protective role of NK cells in acute infection using a well-established NK cell depletion strategy in cynomolgus macaques (CM) and a SARS-CoV-2 delta variant infection model. Circulating NK cells exhibited an increased proliferative and activated phenotype following infection, concomitant with peak NK cell expansion at 10 days post-infection (DPI). Importantly, following experimental NK cell depletion, CM exhibited increased viral shedding and delayed viral clearance compared to controls. NK cell-depleted animals also exhibited significantly increased lung pathology and Luminex cytokine analyses of broncho-alveolar lavage (BAL) fluid showed a 5-fold increase in interferon-alpha (IFNα) compared to controls during peak infection. Collectively, our findings suggest that NK cells play a crucial role in controlling SARS-CoV-2 replication and reducing lung damage. These results underscore the potential of NK cell-based vaccines and therapies for COVID-19 and other infectious diseases, warranting further investigation in this area. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Natural killer like B cells are a distinct but infrequent innate immune cell subset modulated by SIV infection of rhesus macaques.

Author

Manickam, Cordelia, Upadhyay, Amit A., Woolley, Griffin, Kroll, Kyle W., Terry, Karen, Broedlow, Courtney A., Klatt, Nichole R., Bosinger, Steven E., and Reeves, R. Keith

Subjects
*KILLER cells, *B cells, *RHESUS monkeys, *NATURAL immunity, *TRAFFIC signs & signals, *CELL imaging, *RNA sequencing, *B cell receptors, *ORAL mucosa
Abstract

Natural killer-like B (NKB) cells are unique innate immune cells expressing both natural killer (NK) and B cell receptors. As first responders to infection, they secrete IL-18 to induce a critical cascade of innate and adaptive immune cell infiltration and activation. However, limited research exists on the role of NKB cells in homeostasis and infection, largely due to incomplete and erroneous evaluations. To fill this knowledge gap, we investigated the expression of signaling and trafficking proteins, and the in situ localization and transcriptome of naïve NKB cells comparied to conventionally-defined NK and B cells, as well as modulations of these cells in SIV infection. Intracellular signaling proteins and trafficking markers were expressed differentially on naïve NKB cells, with high expression of CD62L and Syk, and low expression of CD69, α4β7, FcRg, Zap70, and CD3z, findings which were more similar to B cells than NK cells. CD20+NKG2a/c+ NKB cells were identified in spleen, mesenteric lymph nodes (MLN), colon, jejunum, and liver of naïve rhesus macaques (RM) via tissue imaging, with NKB cell counts concentrated in spleen and MLN. For the first time, single cell RNA sequencing (scRNAseq), including BCR sequencing, of sorted NKB cells confirmed that NKB cells are unique. Transcriptomic analysis of naïve splenic NKB cells by scRNAseq showed that NKB cells undergo somatic hypermutation and express Ig receptors, similar to B cells. While only 15% of sorted NKB cells showed transcript expression of both KLRC1 (NKG2A) and MS4A1 (CD20) genes, only 5% of cells expressed KLRC1, MS4A1, and IgH/IgL transcripts. We observed expanded NKB frequencies in RM gut and buccal mucosa as early as 14 and 35 days post-SIV infection, respectively. Further, mucosal and peripheral NKB cells were associated with colorectal cytokine mileu and oral microbiome changes, respectively. Our studies indicate that NKB cells gated on CD3-CD14-CD20+NKG2A/C+ cells were inclusive of transcriptomically conventional B and NK cells in addition to true NKB cells, confounding accurate phenotyping and frequency recordings that could only be resolved using genomic techniques. Although NKB cells were clearly elevated during SIV infection and associated with inflammatory changes during infection, further interrogation is necessary to acurately identify the true phenotype and significance of NKB cells in infection and inflammation. Author summary: Recently, our understanding of traditional innate immunity has become reshaped by the discovery of new innate immune cell subsets as well as newly identified functions/programming of previously described innate immune cell subsets. One such new and unique innate immune cell subset are the natural killer-like B (NKB) cells, which express both NK and B cell receptors. These cells have been described as first responder immune cells in infection and inflammation within mice, non-human primates (NHP), and humans. To clarify if the simple definition of CD3-NKG2A/C+CD20+ cells as NKB cells is sufficient to truly identify the unique NKB cell phenotype, we characterized these cells via imaging cytometry and single cell RNA sequencing for the first time in an NHP model. Our data suggests that the NKB cell phenotype and transcriptome, while unique and relevant in SIV infection, remains very infrequent. Therefore, using flow cytometry to identify NKB cells based on the commonly accepted marker expression could be misleading and cause the erroneous classification of conventional NK cells and/or B cells as NKB cells. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Multiplex interrogation of the NK cell signalome reveals global downregulation of CD16 signaling during lentivirus infection through an IL-18/ADAM17-dependent mechanism.

Author

Sugawara, Sho, Hueber, Brady, Woolley, Griffin, Terry, Karen, Kroll, Kyle, Manickam, Cordelia, Ram, Daniel R., Ndhlovu, Lishomwa C., Goepfert, Paul, Jost, Stephanie, and Reeves, R. Keith

Subjects
KILLER cells, LENTIVIRUS diseases, SIMIAN immunodeficiency virus, CELL receptors, DOWNREGULATION, KNOWLEDGE gap theory
Abstract

Despite their importance, natural killer (NK) cell responses are frequently dysfunctional during human immunodeficiency virus-1 (HIV-1) and simian immunodeficiency virus (SIV) infections, even irrespective of antiretroviral therapies, with poorly understood underlying mechanisms. NK cell surface receptor modulation in lentivirus infection has been extensively studied, but a deeper interrogation of complex cell signaling is mostly absent, largely due to the absence of any comprehensive NK cell signaling assay. To fill this knowledge gap, we developed a novel multiplex signaling analysis to broadly assess NK cell signaling. Using this assay, we elucidated that NK cells exhibit global signaling reduction from CD16 both in people living with HIV-1 (PLWH) and SIV-infected rhesus macaques. Intriguingly, antiretroviral treatment did not fully restore diminished CD16 signaling in NK cells from PLWH. As a putative mechanism, we demonstrated that NK cells increased surface ADAM17 expression via elevated plasma IL-18 levels during HIV-1 infection, which in turn reduced surface CD16 downregulation. We also illustrated that CD16 expression and signaling can be restored by ADAM17 perturbation. In summary, our multiplex NK cell signaling analysis delineated unique NK cell signaling perturbations specific to lentiviral infections, resulting in their dysfunction. Our analysis also provides mechanisms that will inform the restoration of dysregulated NK cell functions, offering potential insights for the development of new NK cell-based immunotherapeutics for HIV-1 disease. Author summary: Natural killer (NK) cells exert critical innate effector responses against human immunodeficiency virus-1 (HIV-1) and simian immunodeficiency virus (SIV) infections, but their functions are often dysregulated during chronic lentiviral infection with understudied mechanisms. Specifically, the effect on NK cell signaling linked to this immune dysfunction has not been comprehensively elucidated. To fill the gap in knowledge, we developed a novel multiplex signaling assay for NK cells and applied it to NK cells from people living with HIV-1 (PLWH) or SIV-infected rhesus macaques (RM). We illustrated the signaling activation downstream of CD16, a critical receptor for NK cell function, is systemically downregulated in NK cells in chronic lentiviral infection regardless of antiretroviral treatment, which is mediated by inflammatory responses triggered by HIV-1/SIV infection. Taken together, we demonstrated that global CD16 signaling downregulation in NK cells in HIV-1 and SIV infection using our novel multiplex signaling assay and elucidated the putative mechanism of impaired NK cell activities. These data are beneficial to further advance NK cell-based immunotherapeutics for an HIV-1 cure. [ABSTRACT FROM AUTHOR]

Published
2023
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12. NK cell education: Physiological and pathological influences.

Author

Rascle, Philippe, Woolley, Griffin, Jost, Stephanie, Manickam, Cordelia, and Reeves, R. Keith

Subjects
KILLER cells, HISTOCOMPATIBILITY class I antigens, MAJOR histocompatibility complex, CELL receptors, IMMUNE response, CELL physiology
Abstract

Natural killer (NK) cells represent a critical defense against viral infections and cancers. NK cells require integration of activating and inhibitory NK cell receptors to detect target cells and the balance of these NK cell inputs defines the global NK cell response. The sensitivity of the response is largely defined by interactions between self-major histocompatibility complex class I (MHC-I) molecules and specific inhibitory NK cell receptors, so-called NK cell education. Thus, NK cell education is a crucial process to generate tuned effector NK cell responses in different diseases. In this review, we discuss the relationship between NK cell education and physiologic factors (type of self-MHC-I, self-MHC-I allelic variants, variant of the self-MHC-I-binding peptides, cytokine effects and inhibitory KIR expression) underlying NK cell education profiles (effector function or metabolism). Additionally, we describe the broad-spectrum of effector educated NK cell functions on different pathologies (such as HIV-1, CMV and tumors, among others). [ABSTRACT FROM AUTHOR]

Published
2023
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15. Systemic and mucosal mobilization of granulocyte subsets during lentiviral infection.

Author

Jones, Rhianna, Manickam, Cordelia, Ram, Daniel R., Kroll, Kyle, Hueber, Brady, Woolley, Griffin, Shah, Spandan V., Smith, Scott, Varner, Valerie, and Reeves, R. Keith

Subjects
*EOSINOPHILS, *LYMPHOID tissue, *GASTROINTESTINAL mucosa, *MUCOUS membranes, *FC receptors
Abstract

Granulocytes mediate broad immunoprotection through phagocytosis, extracellular traps, release of cytotoxic granules, antibody effector functions and recruitment of other immune cells against pathogens. However, descriptions of granulocytes in HIV infection and mucosal tissues are limited. Our goal was to characterize granulocyte subsets in systemic, mucosal and lymphoid tissues during lentiviral infection using the rhesus macaque (RM) model. Mononuclear cells from jejunum, colon, cervix, vagina, lymph nodes, spleen, liver and whole blood from experimentally naïve and chronically SHIVsf162p3‐infected RM were analysed by microscopy and polychromatic flow cytometry. Granulocytes were identified using phenotypes designed specifically for RM: eosinophils—CD45+ CD66+ CD49d+; neutrophils—CD45+ CD66+ CD14+; and basophils—CD45+ CD123+ FcRε+. Nuclear visualization with DAPI staining and surface marker images by ImageStream (cytometry/microscopy) further confirmed granulocytic phenotypes. Flow cytometric data showed that all RM granulocytes expressed CD32 (FcRγII) but did not express CD16 (FcRγIII). Additionally, constitutive expression of CD64 (FcRγI) on neutrophils and FcRε on basophils indicates the differential expression of Fc receptors on granulocyte subsets. Granulocytic subsets in naïve whole blood ranged from 25·4% to 81·5% neutrophils, 0·59% to 13·3% eosinophils and 0·059% to 1·8% basophils. Interestingly, elevated frequencies of circulating neutrophils, colorectal neutrophils and colorectal eosinophils were all observed in chronic lentiviral disease. Conversely, circulating basophils, jejunal eosinophils, vaginal neutrophils and vaginal eosinophils of SHIVsf162p3‐infected RM declined in frequency. Overall, our data suggest modulation of granulocytes in chronic lentiviral infection, most notably in the gastrointestinal mucosae where a significant inflammation and disruption occurs in lentivirus‐induced disease. Furthermore, granulocytes may migrate to inflamed tissues during infection and could serve as targets of immunotherapeutic intervention. Granulocyte subsets were characterized in systemic, mucosal and lymphoid tissues during lentiviral infection using the rhesus macaque model. We identified elevated neutrophils and eosinophils in the infected gastrointestinal mucosa, where significant inflammation and disruption occurs in lentivirus‐induced disease. [ABSTRACT FROM AUTHOR]

Published
2021
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16. Friends or foes? The knowns and unknowns of natural killer cell biology in COVID-19 and other coronaviruses in July 2020.

Author

Manickam, Cordelia, Sugawara, Sho, and Reeves, R. Keith

Subjects
*COVID-19, *CYTOLOGY, *COVID-19 pandemic, *VIRUS diseases, *CORONAVIRUSES, *PANDEMICS
Abstract

The COVID-19 pandemic has caused more than 575,000 deaths worldwide as of mid-July 2020 and still continues globally unabated. Immune dysfunction and cytokine storm complicate the disease, which in turn leads to the question of whether stimulation or suppression of the immune system would curb the disease. Given the varied antiviral and regulatory functions of natural killer (NK) cells, they could be potent and powerful immune allies in this global fight against COVID-19. Unfortunately, there is somewhat limited knowledge of the role of NK cells in SARS-CoV-2 infections and even in the related SARS-CoV-1 and MERS-CoV infections. Several NK cell therapeutic options already exist in the treatment of tumor and other viral diseases and could be repurposed against COVID-19. In this review, we describe the current understanding and potential roles of NK cells and other Fc receptor (FcR) effector cells in SARS-CoV-2 infection, advantages of using animals to model COVID-19, and NK cell–based therapeutics that are being investigated for COVID-19 therapy. [ABSTRACT FROM AUTHOR]

Published
2020
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17. Characterization of Rhesus Macaque Liver-Resident CD49a+ NK Cells During Retrovirus Infections.

Author

Ram, Daniel R., Arias, Christian F., Kroll, Kyle, Hueber, Brady, Manickam, Cordelia, Jones, Rhianna A., Smith, Scott T., Shah, Spandan V., Varner, Valerie H., and Reeves, R. Keith

Subjects
KILLER cells, RETROVIRUS diseases, RHESUS monkeys, LIVER cells, ANIMAL models in research
Abstract

CD49a+ tissue resident NK cells have been implicated in memory-like NK cell responses, but while this population is well-characterized in mice and in humans, they are poorly described in non-human primates (NHP) which are particularly critical for modeling human viral infections. Others and we have shown that memory-like NK cells are enriched in the liver and because of the importance of NHP in modeling HIV infection, understanding the immunobiology of CD49a+ NK cells in SIV-infected rhesus macaques is critical to explore the role of this cell type in retroviral infections. In this study mononuclear cells isolated from livers, spleens, and peripheral whole blood were analyzed in acutely and chronically lentivirus-infected and experimentally-naïve Indian rhesus macaques (RM). NK cells were then identified as CD45+CD14CD20CD3NKG2A/C+ cells and characterized using multiparametric flow-cytometry. Our data show that in RM, CD49a+ NK cells increase in the liver following retroviral infections [median = 5.2% (naïve) vs. median = 9.48% (SIV+) or median = 16.8% (SHIV+)]. In contrast, there is little change in CD49a+ NK frequencies in whole blood or spleens of matched animals. In agreement with human and murine data we also observed that CD49a+ NK cells were predominantly Eomeslow T-betlow, though these frequencies are elevated in infected animal cohorts. Functionally, our data suggests that infection alters TNF-α, IFN-γ, and CD107a expression in stimulated CD49a+ NK cells. Specifically, our analyses found a decrease in CD49a+ CD107a+ TNFα+ IFNγ NK cells, with a simultaneous increase in CD49a+ CD107a+ TNFα IFNγ+ NK cells and the non-responsive CD49a+ CD107a TNFα IFNγ NK cell population following infection, suggesting both pathogenic and inflammatory changes in the NK cell functional profile. Our data also identified significant global differences in polyfunctionality between CD49a+ NK cells in the naïve and chronic (SHIV+) cohorts. Our work provides the first characterization of CD49a+ NK cells in tissues from RM. The significant similarities between CD49a+ NK cells from RM and what is reported from human samples justifies the importance of studying CD49a+ NK cells in this species to support preclinical animal model research. [ABSTRACT FROM AUTHOR]

Published
2020
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19. Adaptive NK cell responses in HIV/SIV infections: A roadmap to cell‐based therapeutics?

Author

Ram, Daniel R., Manickam, Cordelia, Lucar, Olivier, Shah, Spandan V., and Reeves, R. Keith

Subjects
KILLER cells, SIMIAN immunodeficiency virus, PLURIPOTENT stem cells, DRUG side effects, THERAPEUTICS
Abstract

NK cells play a critical role in antiviral and antitumor responses. Although current NK cell immune therapies have focused primarily on cancer biology, many of these advances can be readily applied to target HIV/simian immunodeficiency virus (SIV)‐infected cells. Promising developments include recent reports that CAR NK cells are capable of targeted responses while producing less off‐target and toxic side effects than are associated with CAR T cell therapies. Further, CAR NK cells derived from inducible pluripotent stem cells or cell lines may allow for more rapid "off‐the‐shelf" access. Other work investigating the IL‐15 superagonist ALT‐803 (now N803) may also provide a recourse for enhancing NK cell responses in the context of the immunosuppressive and inflammatory environment of chronic HIV/SIV infections, leading to enhanced control of viremia. With a broader acceptance of research supporting adaptive functions in NK cells it is likely that novel immunotherapeutics and vaccine modalities will aim to generate virus‐specific memory NK cells. In doing so, better targeted NK cell responses against virus‐infected cells may usher in a new era of NK cell‐tuned immune therapy. [ABSTRACT FROM AUTHOR]

Published
2019
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20. Monkeying Around: Using Non-human Primate Models to Study NK Cell Biology in HIV Infections.

Author

Manickam, Cordelia, Shah, Spandan V., Nohara, Junsuke, Ferrari, Guido, and Reeves, R. Keith

Subjects
KILLER cells, HIV infections, CELL-mediated cytotoxicity, NATURAL immunity, DISEASE progression
Abstract

Natural killer (NK) cells are the major innate effectors primed to eliminate virus-infected and tumor or neoplastic cells. Recent studies also suggest nuances in phenotypic and functional characteristics among NK cell subsets may further permit execution of regulatory and adaptive roles. Animal models, particularly non-human primate (NHP) models, are critical for characterizing NK cell biology in disease and under homeostatic conditions. In HIV infection, NK cells mediate multiple antiviral functions via upregulation of activating receptors, inflammatory cytokine secretion, and antibody dependent cell cytotoxicity through antibody Fc-FcR interaction and others. However, HIV infection can also reciprocally modulate NK cells directly or indirectly, leading to impaired/ineffective NK cell responses. In this review, we will describe multiple aspects of NK cell biology in HIV/SIV infections and their association with viral control and disease progression, and how NHP models were critical in detailing each finding. Further, we will discuss the effect of NK cell depletion in SIV-infected NHP and the characteristics of newly described memory NK cells in NHP models and different mouse strains. Overall, we propose that the role of NK cells in controlling viral infections remains incompletely understood and that NHP models are indispensable in order to efficiently address these deficits. [ABSTRACT FROM AUTHOR]

Published
2019
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21. Non-linear multidimensional flow cytometry analyses delineate NK cell phenotypes in normal and HIV-infected chimpanzees.

Author

Manickam, Cordelia, Li, Haiying, Shah, Spandan V, Kroll, Kyle, and Reeves, R Keith

Subjects
*KILLER cells, *FLOW cytometry
Abstract

Natural killer (NK) cells are primary immune effector cells with both innate and potentially adaptive functions against viral infections, but commonly become exhausted or dysfunctional during chronic diseases such as human immunodeficiency virus (HIV). Chimpanzees are the closest genetic relatives of humans and have been previously used in immunology, behavior and disease models. Due to their similarities to humans, a better understanding of chimpanzee immunology, particularly innate immune cells, can lend insight into the evolution of human immunology, as well as response to disease. However, the phenotype of NK cells has been poorly defined. In order to define NK cell phenotypes, we unbiasedly quantified NK cell markers among mononuclear cells in both naive and HIV-infected chimpanzees by flow cytometry. We identified NKG2D and NKp46 as the most dominant stable NK cells markers using multidimensional data reduction analyses. Other traditional NK cell markers such as CD8α, CD16 and perforin fluctuated during infection, while some such as CD56, NKG2A and NKp30 were generally unaltered by HIV infection, but did not delineate the full NK cell repertoire. Taken together, these data indicate that phenotypic dysregulation may not be pronounced during HIV infection of chimpanzees, but traditional NK cell phenotyping used for both humans and other non-human primate species may need to be revised to accurately identify chimpanzee NK cells. [ABSTRACT FROM AUTHOR]

Published
2019
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22. Tracking KLRC2 (NKG2C)+ memory-like NK cells in SIV+ and rhCMV+ rhesus macaques.

Author

Ram, Daniel R., Manickam, Cordelia, Hueber, Brady, Itell, Hannah L., Permar, Sallie R., Varner, Valerie, and Reeves, R. Keith

Subjects
*KILLER cells, *MACAQUES, *HIV infections, *VIRUS diseases, *GENE expression, *BLOOD cells
Abstract

Natural killer (NK) cells classically typify the nonspecific effector arm of the innate immune system, but have recently been shown to possess memory-like properties against multiple viral infections, most notably CMV. Expression of the activating receptor NKG2C is elevated on human NK cells in response to infection with CMV as well as HIV, and may delineate cells with memory and memory-like functions. A better understanding of how NKG2C+ NK cells specifically respond to these pathogens could be significantly advanced using nonhuman primate (NHP) models but, to date, it has not been possible to distinguish NKG2C from its inhibitory counterpart, NKG2A, in NHP because of unfaithful antibody cross-reactivity. Using novel RNA-based flow cytometry, we identify for the first time true memory NKG2C+ NK cells in NHP by gene expression (KLRC2), and show that these cells have elevated frequencies and diversify their functional repertoire specifically in response to rhCMV and SIV infections. [ABSTRACT FROM AUTHOR]

Published
2018
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23. Innate Lymphoid Cells in HIV/SIV Infections.

Author

Shah, Spandan V., Manickam, Cordelia, Ram, Daniel R., and Reeves, R. Keith

Subjects
HIV infections, SIMIAN immunodeficiency virus diseases, INNATE lymphoid cells
Abstract

Over the past several years, new populations of innate lymphocytes have been described in mice and primates that are critical for mucosal homeostasis, microbial regulation, and immune defense. Generally conserved from mice to humans, innate lymphoid cells (ILC) have been divided primarily into three subpopulations based on phenotypic and functional repertoires: ILC1 bear similarities to natural killer cells; ILC2 have overlapping functions with TH2 cells; and ILC3 that share many functions with TH17/TH22 cells. ILC are specifically enriched at mucosal surfaces and are possibly one of the earliest responders during viral infections besides being involved in the homeostasis of gut-associated lymphoid tissue and maintenance of gut epithelial barrier integrity. Burgeoning evidence also suggests that there is an early and sustained abrogation of ILC function and numbers during HIV and pathogenic SIV infections, most notably ILC3 in the gastrointestinal tract, which leads to disruption of the mucosal barrier and dysregulation of the local immune system. A better understanding of the direct or indirect mechanisms of loss and dysfunction will be critical to immunotherapeutics aimed at restoring these cells. Herein, we review the current literature on ILC with a particular emphasis on ILC3 and their role(s) in mucosal immunology and the significance of disrupting the ILC niche during HIV and SIV infections. [ABSTRACT FROM AUTHOR]

Published
2017
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24. Hepatic immunopathology during occult hepacivirus re-infection.

Author

Manickam, Cordelia, Martinot, Amanda J., Jones, Rhianna A., Varner, Valerie, and Reeves, R. Keith

Subjects
*IMMUNOPATHOLOGY, *HEPATITIS C, *DISEASE prevalence, *IMMUNE response, *FLAVIVIRUSES
Abstract

Despite drug advances for Hepatitis C virus (HCV), re-infections remain prevalent in high-risk populations. Unfortunately, the role of preexisting viral immunity and how it modulates re-infection is unclear. GBV-B infection of common marmosets is a useful model to study tissue immune responses in hepacivirus infections, and in this study we re-challenged 4 animals after clearance of primary viremia. Although only low-to-absent viremia was observed following re-challenge, GBV-B viral RNA was detectable in liver, confirming re-infection. Microscopic hepatic lesions indicated severe-to-mild lymphocyte infiltration and fibrosis in 3 out of 4 animals. Further, GBV-B-specific T cells were elevated in animals with moderate-to-severe hepatopathology, and up to 3-fold increases in myeloid dendritic and activated natural killer cells were observed after infection. Our data indicate that occult hepacivirus re-infections occur and that new liver pathology is possible even in the presence of anti-hepacivirus T cells and in the absence of high viremia. [ABSTRACT FROM AUTHOR]

Published
2017
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26. Metabolic Dysregulation in Hepacivirus Infection of Common Marmosets (Callithrix jacchus).

Author

Manickam, Cordelia, Wachtman, Lynn, Martinot, Amanda J., Giavedoni, Luis D., and Reeves, R. Keith

Subjects
*METABOLIC disorders, *CHRONIC hepatitis C, *INSULIN resistance, *FATTY liver, *MARMOSETS, *DISEASE risk factors
Abstract

Chronic hepatitis C has been associated with metabolic syndrome that includes insulin resistance, hepatic steatosis and obesity. These metabolic aberrations are risk factors for disease severity and treatment outcome in infected patients. Experimental infection of marmosets with GBV-B serves as a tangible, small animal model for human HCV infection, and while virology and pathology are well described, a full investigation of clinical disease and the metabolic milieu is lacking. In this study six marmosets were infected intravenously with GBV-B and changes in hematologic, serum biochemical and plasma metabolic measures were investigated over the duration of infection. Infected animals exhibited signs of lymphocytopenia, but platelet and RBC counts were generally stable or even increased. Although most animals showed a transient decline in blood glucose, infection resulted in several fold increases in plasma insulin, glucagon and glucagon-like peptide 1 (GLP-1). All infected animals experienced transient weight loss within the first 28 days of infection, but also became hypertriglyceridemic and had up to 10-fold increases in adipocytokines such as resistin and plasminogen activator inhibitor 1 (PAI-1). In liver, moderate to severe cytoplasmic changes associated with steatotic changes was observed microscopically at 168 days post infection. Collectively, these results suggest that GBV-B infection is accompanied by hematologic, biochemical and metabolic abnormalities that could lead to obesity, diabetes, thrombosis and atherosclerosis, even after virus has been cleared. Our findings mirror those found in HCV patients, suggesting that metabolic syndrome could be conserved among hepaciviruses, and both mechanistic and interventional studies for treating HCV-induced metabolic complications could be evaluated in this animal model. [ABSTRACT FROM AUTHOR]

Published
2017
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27. Acute Liver Damage Associated with Innate Immune Activation in a Small Nonhuman Primate Model of Hepacivirus Infection.

Author

Manickam, Cordelia, Rajakumar, Premeela, Wachtman, Lynn, Kramer, Joshua A., Martinot, Amanda J., Varner, Valerie, Giavedoni, Luis D., and Reeves, R. Keith

Subjects
*HEPATITIS C, *LIVER diseases, *IMMUNE response, *VIRUS diseases, *HEPATITIS C virus, *KILLER cells
Abstract

Despite its importance in shaping adaptive immune responses, viral clearance, and immune-based inflammation, tissue-specific innate immunity remains poorly characterized for hepatitis C virus (HCV) infection due to the lack of access to acutely infected tissues. In this study, we evaluated the impact of natural killer (NK) cells and myeloid (mDCs) and plasmacytoid (pDCs) dendritic cells on control of virus replication and virus-induced pathology caused by another, more rapidly resolving hepacivirus, GB virus B (GBV-B), in infections of common marmosets. High plasma and liver viral loads and robust hepatitis characterized acute GBV-B infection, and while viremia was generally cleared by 2 to 3 months postinfection, hepatitis and liver fibrosis persisted after clearance. Coinciding with peak viral loads and liver pathology, the levels of NK cells, mDCs, and pDCs in the liver increased up to 3-fold. Although no obvious numerical changes in peripheral innate cells occurred, circulating NK cells exhibited increased perforin and Ki67 expression levels and increased surface expression of CXCR3. These data suggested that increased NK cell arming and proliferation as well as tissue trafficking may be associated with influx into the liver during acute infection. Indeed, NK cell frequencies in the liver positively correlated with plasma (R=0.698; P=0.015) and liver (R=0.567; P=0.057) viral loads. Finally, soluble factors associated with NK cells and DCs, including gamma interferon (IFN-γ) and RANTES, were increased in acute infection and also were associated with viral loads and hepatitis. Collectively, the findings showed that mobilization of local and circulating innate immune responses was linked to acute virus-induced hepatitis, and potentially to resolution of GBV-B infection, and our results may provide insight into similar mechanisms in HCV infection. [ABSTRACT FROM AUTHOR]

Published
2016
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28. Modeling HCV disease in animals: virology, immunology and pathogenesis of HCV and GBV-B infections.

Author

Manickam, Cordelia and Reeves, R. Keith

Subjects
HEPATITIS C virus, HEPATITIS C, VIRUS research, IMMUNOLOGY, IMMUNOTHERAPY, IMMUNE system, PHENOTYPES
Abstract

Hepatitis C virus (HCV) infection has become a global public health burden costing billions of dollars in health care annually. Even with rapidly advancing scientific technologies this disease still poses a significant threat due to a lack of vaccines and affordable treatment options. The immune correlates of protection and predisposing factors toward chronicity remain major obstacles to development of HCV vaccines and immunotherapeutics due, at least in part, to lack of a tangible infection animal model. This review discusses the currently available animal models for HCV disease with a primary focus on GB virus B (GBVB) infection of New World primates that recapitulates the dual Hepacivirus phenotypes of acute viral clearance and chronic pathologic disease. HCV and GBV-B are also closely phylogenetically related and advances in characterization of the immune systems of New World primates have already led to the use of this model for drug testing and vaccine trials. Herein, we discuss the benefits and caveats of the GBV-B infection model and discuss potential avenues for future development of novel vaccines and immunotherapies. [ABSTRACT FROM AUTHOR]

Published
2014
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29. Pretreatment of Epithelial Cells with Live Streptococcus pneumoniae Has No Detectable Effect on Influenza A Virus Replication In Vitro.

Author

Ouyang, Kang, Woodiga, Shireen A., Dwivedi, Varun, Buckwalter, Carolyn M., Singh, Anirudh K., Binjawadagi, Basavaraj, Hiremath, Jagadish, Manickam, Cordelia, Schleappi, Rose, Khatri, Mahesh, Wu, Jianmin, King, Samantha J., and Renukaradhya, Gourapura J.

Subjects
INFLUENZA A virus, STREPTOCOCCUS pneumoniae, RESPIRATORY infections, RESPIRATORY organ microbiology, VIRAL replication, IN vitro studies, BACTERIAL diseases
Abstract

Influenza A virus (IAV) and Streptococcus pneumoniae (pneumococcus) are two major upper respiratory tract pathogens responsible for exacerbated disease in coinfected individuals. Despite several studies showing increased susceptibility to secondary bacterial infections following IAV infection, information on the direct effect of S. pneumoniae on IAV in vitro is unknown. This is an important area of investigation as S. pneumoniae is a common commensal of the human upper respiratory tract, present as an important coinfecting pathogen with IAV infection. A recent study showed that S. pneumoniae enhances human metapneumovirus infection in polarized bronchial epithelial cells in vitro. The aim of the current study was to determine whether treatment of epithelial cells with S. pneumoniae affects IAV replication using a standard immunofluorescence assay (IFA). For this study we used four IAV permissive epithelial cell lines including two human-derived cell lines, 12 pneumococcal strains including recent human clinical isolates which represent different genetic backgrounds and serotypes, and six IAV strains of varying genetic nature and pathogenic potential including the pandemic 2009 H1N1 virus. Our results suggested that pretreatment of MDCK cells with 7.5×106 colony-forming units (CFUs) of live S. pneumoniae resulted in gradual cell-death in a time-dependent manner (0.5 to 4 hr). But, pretreatment of cell lines with 7.5×105 and lower CFUs of S. pneumoniae had no detectable effect on either the morphology of cells or on the IAV replication. However, unlike in epithelial cell lines, due to influence of secreted host factors the effect of pneumococci on IAV replication may be different during coinfections in vivo in the human upper respiratory tract, and in vitro with primary human polarized bronchial epithelial cells. [ABSTRACT FROM AUTHOR]

Published
2014
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31. Biodegradable Nanoparticle-Entrapped Vaccine Induces Cross-Protective Immune Response against a Virulent Heterologous Respiratory Viral Infection in Pigs.

Author

Dwivedi, Varun, Manickam, Cordelia, Binjawadagi, Basavaraj, Joyappa, Dechamma, and Renukaradhya, Gourapura J.

Subjects
*VACCINATION, *VIRUS diseases, *IMMUNE response, *IMMUNOLOGY, *RETICULO-endothelial system
Abstract

Biodegradable nanoparticle-based vaccine development research is unexplored in large animals and humans. In this study, we illustrated the efficacy of nanoparticle-entrapped UV-killed virus vaccine against an economically important respiratory viral disease of pigs called porcine reproductive and respiratory syndrome virus (PRRSV). We entrapped PLGA [poly (lactideco- glycolides)] nanoparticles with killed PRRSV antigens (Nano-KAg) and detected its phagocytosis by pig alveolar macrophages. Single doses of Nano-KAg vaccine administered intranasally to pigs upregulated innate and PRRSV specific adaptive responses. In a virulent heterologous PRRSV challenge study, Nano-KAg vaccine significantly reduced the lung pathology and viremia, and the viral load in the lungs. Immunologically, enhanced innate and adaptive immune cell population and associated cytokines with decreased secretion of immunosuppressive mediators were observed at both mucosal sites and blood. In summary, we demonstrated the benefits of intranasal delivery of nanoparticle-based viral vaccine in eliciting cross-protective immune response in pigs, a potential large animal model. [ABSTRACT FROM AUTHOR]

Published
2012
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32. Mucosal vaccines to prevent porcine reproductive and respiratory syndrome: a new perspective.

Author

Renukaradhya, Gourapura J., Dwivedi, Varun, Manickam, Cordelia, Binjawadagi, Basavaraj, and Benfield, David

Subjects
PORCINE reproductive & respiratory syndrome, VIRUS diseases in swine, IMMUNE response, IMMUNOLOGICAL adjuvants, IMMUNITY, THERAPEUTICS
Abstract

Porcine reproductive and respiratory syndrome (PRRS) is an economically important infectious disease of swine. Constant emergence of variant strains of PRRS virus (PPRSV) and virus-mediated immune evasion followed by viral persistence result in increased incidence and recurrence of PRRS in swine herds. Current live and killed PRRSV vaccines administered by a parenteral route are ineffective in inducing complete protection. Thus, new approaches in design and delivery of PRRSV vaccines are needed to reduce the disease burden of the swine industry. Induction of an effective mucosal immunity to several respiratory pathogens by direct delivery of a vaccine to mucosal sites has proven to be effective in a mouse model. However, there are challenges in eliciting mucosal immunity to PRRS due to our limited understanding of safe and potent mucosal adjuvants, which could potentiate the mucosal immune response to PRRSV. The purpose of this review is to discuss methods for induction of protective mucosal immune responses in the respiratory tract of pigs. The manuscript also discusses how PRRSV modulates innate, adaptive and immunoregulatory responses at both mucosal and systemic sites of infected and/or vaccinated pigs. This information may help in the design of innovative mucosal vaccines to elicit superior cross-protective immunity against divergent field strains of PRRSV. [ABSTRACT FROM PUBLISHER]

Published
2012
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33. Cross-protective immunity to porcine reproductive and respiratory syndrome virus by intranasal delivery of a live virus vaccine with a potent adjuvant

Author

Dwivedi, Varun, Manickam, Cordelia, Patterson, Ruthi, Dodson, Katie, Murtaugh, Michael, Torrelles, Jordi B., Schlesinger, Larry S., and Renukaradhya, Gourapura J.

Subjects
*IMMUNITY, *PORCINE reproductive & respiratory syndrome, *INTRANASAL medication, *VIRAL vaccines, *IMMUNOLOGICAL adjuvants, *DRUG delivery systems, *MUCOUS membranes, *CYTOKINES, *VACCINATION
Abstract

Abstract: Porcine reproductive and respiratory syndrome (PRRS) is an immunosuppressive chronic respiratory viral disease of pigs that is responsible for major economic losses to the swine industry worldwide. The efficacy of parenteral administration of widely used modified live virus PRRS vaccine (PRRS-MLV) against genetically divergent PRRSV strains remains questionable. Therefore, we evaluated an alternate and proven mucosal immunization approach by intranasal delivery of PRRS-MLV (strain VR2332) with a potent adjuvant to elicit cross-protective immunity against a heterologous PRRSV (strain MN184). Mycobacterium tuberculosis whole cell lysate (Mtb WCL) was chosen as a potent mucosal adjuvant due to its Th1 biased immune response to PRRS-MLV. Unvaccinated pigs challenged with MN184 had clinical PRRS with severe lung pathology; however, vaccinated (PRRS-MLV+ Mtb WCL) pigs challenged with MN184 were apparently healthy. There was a significant increase in the body weight gain in vaccinated compared to unvaccinated PRRSV challenged pigs. Vaccinated compared to unvaccinated, virus-challenged pigs had reduced lung pathology associated with enhanced PRRSV neutralizing antibody titers and reduced viremia. Immunologically, an increased frequency of Th cells, Th/memory cells, γδ T cells, dendritic cells, and activated Th cells and a reduced frequency of T-regulatory cells were detected at both mucosal and systemic sites. Further, reduced secretion of immunosuppressive cytokines (IL-10 and TGF-β) and upregulation of the Th1 cytokine IFN-γ in blood and lungs were detected in mucosally vaccinated, PRRSV-challenged pigs. In conclusion, intranasal immunization of pigs with PRRS-MLV administered with Mtb WCL generated effective cross-protective immunity against PRRSV. [Copyright &y& Elsevier]

Published
2011
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34. Intranasal delivery of whole cell lysate of Mycobacterium tuberculosis induces protective immune responses to a modified live porcine reproductive and respiratory syndrome virus vaccine in pigs

Author

Dwivedi, Varun, Manickam, Cordelia, Patterson, Ruthi, Dodson, Katie, Weeman, Matthew, and Renukaradhya, Gourapura J.

Subjects
*PORCINE reproductive & respiratory syndrome, *INTRANASAL medication, *MYCOBACTERIUM tuberculosis, *IMMUNE response, *VIRAL vaccines, *CYTOKINES, *IMMUNOSUPPRESSIVE agents, *LABORATORY swine
Abstract

Abstract: Porcine reproductive and respiratory syndrome (PRRS) is an economically important disease to pork producers worldwide. Commercially, both live and killed PRRSV vaccines are available to control PRRS, but they are not always successful. Based on the results of mucosal immunization studies in other viral models, a good mucosal vaccine may be an effective way to elicit protective immunity to control PRRS outbreaks. In the present study, mucosal adjuvanticity of Mycobacterium tuberculosis whole cell lysate (Mtb WCL) was evaluated in pigs administered a modified live PRRS virus vaccine (PRRS-MLV) intranasally. A Mtb WCL mediated increase in the frequency of NK cells, CD8+and CD4+ T cells, and γδ T cells in pig lungs were detected. Importantly, an increased and early generation of PRRSV specific neutralizing antibodies were detected in PRRS-MLV+ Mtb WCL compared to pigs inoculated with vaccine alone. In addition, there was an increased secretion of Th1 cytokines (IFNγ and IL-12) that correlated with a reciprocal reduction in the production of immunosuppressive cytokines (IL-10 and TGFβ) as well as T-regulatory cells in pigs vaccinated with PRRS-MLV+ Mtb WCL. Further, a complete rescue in arginase levels in the lungs mediated through Mtb WCL was observed in pigs inoculated with PRRS-MLV. In conclusion, Mtb WCL may be a potent mucosal adjuvant for PRRS-MLV in order to potentiate the anti-PRRSV specific immune responses to control PRRS effectively. [Copyright &y& Elsevier]

Published
2011
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35. CMV Primes Functional Alternative Signaling in Adaptive Δg NK Cells but Is Subverted by Lentivirus Infection in Rhesus Macaques.

Author

Shah, Spandan V., Manickam, Cordelia, Ram, Daniel R., Kroll, Kyle, Itell, Hannah, Permar, Sallie R., Barouch, Dan H., Klatt, Nichole R., and Reeves, R. Keith

Abstract

Summary Despite burgeoning evidence demonstrating the adaptive properties of natural killer (NK) cells, mechanistic data explaining these phenomena are lacking. Following antibody sensitization, NK cells lacking the Fc receptor (FcR) signaling chain (Δg) acquire adaptive features, including robust proliferation, multifunctionality, rapid killing, and mobilization to sites of virus exposure. Using the rhesus macaque model, we demonstrate the systemic distribution of Δg NK cells expressing memory features, including downregulated Helios and Eomes. Furthermore, we find that Δg NK cells abandon typical γ-chain/Syk in lieu of CD3ζ-Zap70 signaling. FCγRIIIa (CD16) density, mucosal homing, and function are all coupled to this alternate signaling, which in itself requires priming by rhesus cytomegalovirus (rhCMV). Simian immunodeficiency virus (SIV) infections further expand gut-homing adaptive NK cells but result in pathogenic suppression of CD3ζ-Zap70 signaling and function. Herein, we provide a mechanism of virus-dependent alternative signaling that may explain the acquisition of adaptive features by primate NK cells and could be targeted for future vaccine or curative therapies. Graphical Abstract Highlights • Δg NK cell expansion and acquisition of function are driven by concurrent CMV infection • Δg NK cells are distributed systemically but have the propensity to migrate to mucosal sites • Δg NK cells abandon γ-chain/Syk signaling in lieu of the atypical CD3ζ-Zap70 signaling pathway • SIV infection subverts Δg NK cells by suppressing CD16-mediated CD3ζ-ZAP70 signaling Gamma-chain-deficient adaptive NK cells are robust mediators of antiviral immunity via ADCC. Shah et al. demonstrate using macaque models that acquisition of these features requires previous priming with CMV infection and involves alternative signaling via CD3zeta but is actively suppressed by lentivirus infection. [ABSTRACT FROM AUTHOR]

Published
2018
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36. Natural Killer Cells Regulate Acute SIV Replication, Dissemination, and Inflammation, but Do Not Impact Independent Transmission Events.

Author

Woolley, Griffin, Mosher, Matthew, Kroll, Kyle, Jones, Rhianna, Hueber, Brady, Sho Sugawara, Manickam, Cordelia, Terry, Karen, Varner, Valerie, Lifton, Michelle, Ram, Daniel, Fennessey, Christine M., Keele, Brandon F., and Keith Reeves, R.

Subjects
*SIMIAN immunodeficiency virus, *KILLER cells, *HIV, *LENTIVIRUS diseases, *CYTOTOXIC T cells, *RHESUS monkeys, *T cells
Abstract

Natural killer (NK) cells are potent effector cells of the innate immune system possessing both cytotoxic and immunoregulatory capabilities, which contribute to their crucial role in controlling human immunodeficiency virus (HIV) and simian immunodeficiency virus (SIV) infections. However, despite significant evidence for NK cell modulation of HIV disease, their specific contribution to transmission and control of acute infection remains less clear. To elucidate the contribution of NK cells during acute SIV infection, we performed an acute necropsy study, where rhesus macaques (RM) were subjected to preinfection depletion of systemic NK cells using established methods of IL-15 neutralization, followed by subsequent challenge with barcoded SIVmac239X. Our study showed that depletion was highly effective, resulting in near total ablation of all NK cell subsets in blood, liver, oral, and rectal mucosae, and lymph nodes (LN) that persisted through the duration of the study. Meanwhile, frequencies and phenotypes of T cells remained virtually unchanged, indicating that our method of NK cell depletion had minimal off-target effects. Importantly, NK cell-depleted RM demonstrated an early and sustained 1 to 2 log increase in viremia over controls, but sequence analysis suggested no difference in the number of independent transmission events. Acute bulk, central memory (CM), and CCR51 CD41 T cell depletion was similar between experimental and control groups, while CD81 T cell activation was higher in NK cell-depleted RM as measured by Ki67 and PD-1 expression. Using 27-plex Luminex analyses, we also found modestly increased inflammatory cytokines in NK cell-depleted RM compared to control animals. In the effort to determine the impact of NK cells on HIV/SIV transmission and acute viremia, future studies will be necessary to better harness these cells for future viral therapies. Collectively, these data suggest NK cells are important modulators of lentivirus dissemination and disease but may not have the capacity to independently eliminate individual transmission events. IMPORTANCE Natural killer (NK) cells as major effector cells of the innate immune system can contribute significantly to human immunodeficiency virus (HIV) and simian immunodeficiency virus (SIV) control. However, a specific role for NK cells in blocking lentivirus transmission remains incompletely clear. In this study, we depleted NK cells prior to challenge with a barcoded SIV. Importantly, our studied showed systemic NK cell depletion was associated with a significant increase in acute viremia, but did not impact the number of independent transmission events. Collectively, these data suggest NK cells are critical modulators of early lentivirus replication but may not regulate individual transmission events at mucosal portals of entry. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Pretreatment of Epithelial Cells with Live Streptococcus pneumoniae Has No Detectable Effect on Influenza A Virus Replication In Vitro.

Author

Ouyang, Kang, Woodiga, Shireen A., Dwivedi, Varun, Buckwalter, Carolyn M., Singh, Anirudh K., Binjawadagi, Basavaraj, Hiremath, Jagadish, Manickam, Cordelia, Schleappi, Rose, Khatri, Mahesh, Wu, Jianmin, King, Samantha J., and Renukaradhya, Gourapura J.

Subjects
*INFLUENZA A virus, *STREPTOCOCCUS pneumoniae, *RESPIRATORY infections, *VIRAL replication, *IN vitro studies, *BACTERIAL diseases, RESPIRATORY organ microbiology
Abstract

Influenza A virus (IAV) and Streptococcus pneumoniae (pneumococcus) are two major upper respiratory tract pathogens responsible for exacerbated disease in coinfected individuals. Despite several studies showing increased susceptibility to secondary bacterial infections following IAV infection, information on the direct effect of S. pneumoniae on IAV in vitro is unknown. This is an important area of investigation as S. pneumoniae is a common commensal of the human upper respiratory tract, present as an important coinfecting pathogen with IAV infection. A recent study showed that S. pneumoniae enhances human metapneumovirus infection in polarized bronchial epithelial cells in vitro. The aim of the current study was to determine whether treatment of epithelial cells with S. pneumoniae affects IAV replication using a standard immunofluorescence assay (IFA). For this study we used four IAV permissive epithelial cell lines including two human-derived cell lines, 12 pneumococcal strains including recent human clinical isolates which represent different genetic backgrounds and serotypes, and six IAV strains of varying genetic nature and pathogenic potential including the pandemic 2009 H1N1 virus. Our results suggested that pretreatment of MDCK cells with 7.5×106 colony-forming units (CFUs) of live S. pneumoniae resulted in gradual cell-death in a time-dependent manner (0.5 to 4 hr). But, pretreatment of cell lines with 7.5×105 and lower CFUs of S. pneumoniae had no detectable effect on either the morphology of cells or on the IAV replication. However, unlike in epithelial cell lines, due to influence of secreted host factors the effect of pneumococci on IAV replication may be different during coinfections in vivo in the human upper respiratory tract, and in vitro with primary human polarized bronchial epithelial cells. [ABSTRACT FROM AUTHOR]

Published
2014
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38. Swine Influenza H1N1 Virus Induces Acute Inflammatory Immune Responses in Pig Lungs: a Potential Animal Model for Human H1N1 Influenza Virus.

Author

Khatri, Mahesh, Dwivedi, Varun, Krakowka, Steven, Manickam, Cordelia, Ali, Ahmed, Leyi Wang, Zhuoming Qin, Renukaradhya, Gourapura J., and Chang-Won Lee

Subjects
*SWINE influenza, *VIRUS diseases in swine, *IMMUNOREGULATION, *INFLAMMATION, *DISEASE vectors, *CYTOKINES, *LYMPH nodes
Abstract

Pigs are capable of generating reassortant influenza viruses of pandemic potential, as both the avian and mammalian influenza viruses can infect pig epithelial cells in the respiratory tract. The source of the current influenza pandemic is H1N1 influenza A virus, possibly of swine origin. This study was conducted to understand better the pathogenesis of H1N1 influenza virus and associated host mucosal immune responses during acute infection in humans. Therefore, we chose a H1N1 swine influenza virus, Sw/OH/24366/07 (SwIV), which has a history of transmission to humans. Clinically, inoculated pigs had nasal discharge and fever and shed virus through nasal secretions. Like pandemic H1N1, SwIV also replicated extensively in both the upper and lower respiratory tracts, and lung lesions were typical of H1N1 infection. We detected innate, proinflammatory, Th1, Th2, and Th3 cytokines, as well as SwIV-specific IgA antibody in lungs of the virus-inoculated pigs. Production of IFN-γ by lymphocytes of the tracheobronchial lymph nodes was also detected. Higher frequencies of cytotoxic T lymphocytes, γδ T cells, dendritic cells, activated T cells, and CD4+ and CD8+ T cells were detected in SwIV-infected pig lungs. Concomitantly, higher frequencies of the immunosuppressive T regulatory cells were also detected in the virus-infected pig lungs. The findings of this study have relevance to pathogenesis of the pandemic H1N1 influenza virus in humans; thus, pigs may serve as a useful animal model to design and test effective mucosal vaccines and therapeutics against influenza virus. [ABSTRACT FROM AUTHOR]

Published
2010
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39. Knockdowns of CD3zeta Chain in Primary NK Cells Illustrate Modulation of Antibody-Dependent Cellular Cytotoxicity Against Human Immunodeficiency Virus-1.

Author

Sugawara S, Lee E, Craemer MA, Pruitt A, Balachandran H, Gressens SB, Kroll K, Manickam C, Li Y, Jost S, Woolley G, and Reeves RK

Abstract

Multifaceted natural killer (NK) cell activities are indispensable for controlling human immunodeficiency virus (HIV)-1 transmission and pathogenesis. Among the diverse functions of NK cells, antibody-dependent cellular cytotoxicity (ADCC) has been shown to predict better HIV-1 protection. ADCC is initiated by the engagement of an Fc γ receptor CD16 with an Fc portion of the antibody, leading to phosphorylation of the CD3 ζ chain (CD3ζ) and Fc receptor γ chain (FcRγ) as well as downstream signaling activation. Though CD3ζ and FcRγ were thought to have overlapping roles in NK cell ADCC, several groups have reported that CD3ζ-mediated signals trigger a more robust ADCC. However, few studies have illustrated the direct contribution of CD3ζ in HIV-1-specific ADCC. To further understand the roles played by CD3ζ in HIV-1-specific ADCC, we developed a CD3ζ knockdown system in primary human NK cells. We observed that HIV-1-specific ADCC was inhibited by CD3ζ perturbation. In summary, we demonstrated that CD3ζ is important for eliciting HIV-1-specific ADCC, and this dynamic can be utilized for NK cell immunotherapeutics against HIV-1 infection and other diseases.

Published
2024
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40. Characterization of Rhesus Macaque Liver-Resident CD49a + NK Cells During Retrovirus Infections.

Author

Ram DR, Arias CF, Kroll K, Hueber B, Manickam C, Jones RA, Smith ST, Shah SV, Varner VH, and Reeves RK

Subjects
Animals, Disease Models, Animal, Immunophenotyping, Integrin alpha1 immunology, Liver cytology, Killer Cells, Natural immunology, Liver immunology, Macaca mulatta immunology, Retroviridae Infections immunology
Abstract

CD49a + tissue resident NK cells have been implicated in memory-like NK cell responses, but while this population is well-characterized in mice and in humans, they are poorly described in non-human primates (NHP) which are particularly critical for modeling human viral infections. Others and we have shown that memory-like NK cells are enriched in the liver and because of the importance of NHP in modeling HIV infection, understanding the immunobiology of CD49a + NK cells in SIV-infected rhesus macaques is critical to explore the role of this cell type in retroviral infections. In this study mononuclear cells isolated from livers, spleens, and peripheral whole blood were analyzed in acutely and chronically lentivirus-infected and experimentally-naïve Indian rhesus macaques (RM). NK cells were then identified as CD45 + CD14 - CD20 - CD3 - NKG2A/C + cells and characterized using multiparametric flow-cytometry. Our data show that in RM, CD49a + NK cells increase in the liver following retroviral infections [median = 5.2% (naïve) vs. median = 9.48% (SIV+) or median = 16.8% (SHIV+)]. In contrast, there is little change in CD49a + NK frequencies in whole blood or spleens of matched animals. In agreement with human and murine data we also observed that CD49a + NK cells were predominantly Eomes low T-bet low , though these frequencies are elevated in infected animal cohorts. Functionally, our data suggests that infection alters TNF-α, IFN-γ, and CD107a expression in stimulated CD49a + NK cells. Specifically, our analyses found a decrease in CD49a + CD107a + TNFα + IFNγ - NK cells, with a simultaneous increase in CD49a + CD107a + TNFα - IFNγ + NK cells and the non-responsive CD49a + CD107a - TNFα - IFNγ - NK cell population following infection, suggesting both pathogenic and inflammatory changes in the NK cell functional profile. Our data also identified significant global differences in polyfunctionality between CD49a + NK cells in the naïve and chronic (SHIV+) cohorts. Our work provides the first characterization of CD49a + NK cells in tissues from RM. The significant similarities between CD49a + NK cells from RM and what is reported from human samples justifies the importance of studying CD49a + NK cells in this species to support preclinical animal model research., (Copyright © 2020 Ram, Arias, Kroll, Hueber, Manickam, Jones, Smith, Shah, Varner and Reeves.)

Published
2020
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42. Cytokine-Mediated Tissue Injury in Non-human Primate Models of Viral Infections.

Author

Manickam C, Shah SV, Lucar O, Ram DR, and Reeves RK

Subjects
Animals, Cytokines immunology, Disease Models, Animal, Disease Progression, Drug Evaluation, Preclinical methods, Humans, Immunotherapy methods, Virus Diseases pathology, Virus Diseases therapy, Virus Diseases virology, Cercopithecidae immunology, Cytokines metabolism, Hominidae immunology, Platyrrhini immunology, Virus Diseases immunology
Abstract

Viral infections trigger robust secretion of interferons and other antiviral cytokines by infected and bystander cells, which in turn can tune the immune response and may lead to viral clearance or immune suppression. However, aberrant or unrestricted cytokine responses can damage host tissues, leading to organ dysfunction, and even death. To understand the cytokine milieu and immune responses in infected host tissues, non-human primate (NHP) models have emerged as important tools. NHP have been used for decades to study human infections and have played significant roles in the development of vaccines, drug therapies and other immune treatment modalities, aided by an ability to control disease parameters, and unrestricted tissue access. In addition to the genetic and physiological similarities with humans, NHP have conserved immunologic properties with over 90% amino acid similarity for most cytokines. For example, human-like symptomology and acute respiratory syndrome is found in cynomolgus macaques infected with highly pathogenic avian influenza virus, antibody enhanced dengue disease is common in neotropical primates, and in NHP models of viral hepatitis cytokine-induced inflammation induces severe liver damage, fibrosis, and hepatocellular carcinoma recapitulates human disease. To regulate inflammation, anti-cytokine therapy studies in NHP are underway and will provide important insights for future human interventions. This review will provide a comprehensive outline of the cytokine-mediated exacerbation of disease and tissue damage in NHP models of viral infections and therapeutic strategies that can aid in prevention/treatment of the disease syndromes.

Published
2018
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43. Exosome markers associated with immune activation and oxidative stress in HIV patients on antiretroviral therapy.

Author

Chettimada S, Lorenz DR, Misra V, Dillon ST, Reeves RK, Manickam C, Morgello S, Kirk GD, Mehta SH, and Gabuzda D

Subjects
Antigens, CD genetics, Antigens, CD immunology, Antiretroviral Therapy, Highly Active, Biomarkers metabolism, Case-Control Studies, Catalase genetics, Catalase immunology, Chromatography, High Pressure Liquid, Computational Biology methods, Cystine immunology, Cystine metabolism, Exosomes genetics, Exosomes metabolism, Fatty Acids, Unsaturated immunology, Fatty Acids, Unsaturated metabolism, HIV drug effects, HIV immunology, HIV pathogenicity, HIV Infections genetics, HIV Infections virology, HLA Antigens genetics, HLA Antigens immunology, Humans, Immunity, Innate, Interferon Regulatory Factors genetics, Interferon Regulatory Factors immunology, Metabolome genetics, Oxidative Stress, Peroxiredoxins genetics, Peroxiredoxins immunology, Proteome genetics, Receptor, Notch4 genetics, Receptor, Notch4 immunology, THP-1 Cells, Tandem Mass Spectrometry, Anti-HIV Agents therapeutic use, Exosomes immunology, HIV Infections drug therapy, HIV Infections immunology, Metabolome immunology, Proteome immunology
Abstract

Exosomes are nanovesicles released from most cell types including immune cells. Prior studies suggest exosomes play a role in HIV pathogenesis, but little is known about exosome cargo in relation to immune responses and oxidative stress. Here, we characterize plasma exosomes in HIV patients and their relationship to immunological and oxidative stress markers. Plasma exosome fractions were isolated from HIV-positive subjects on ART with suppressed viral load and HIV-negative controls. Exosomes were characterized by electron microscopy, nanoparticle tracking, immunoblotting, and LC-MS/MS proteomics. Plasma exosomes were increased in HIV-positive subjects compared to controls, and correlated with increased oxidative stress markers (cystine, oxidized cys-gly) and decreased PUFA (DHA, EPA, DPA). Untargeted proteomics detected markers of exosomes (CD9, CD63, CD81), immune activation (CD14, CRP, HLA-A, HLA-B), oxidative stress (CAT, PRDX1, PRDX2, TXN), and Notch4 in plasma exosomes. Exosomal Notch4 was increased in HIV-positive subjects versus controls and correlated with immune activation markers. Treatment of THP-1 monocytic cells with patient-derived exosomes induced expression of genes related to interferon responses and immune activation. These results suggest that exosomes in ART-treated HIV patients carry proteins related to immune activation and oxidative stress, have immunomodulatory effects on myeloid cells, and may have pro-inflammatory and redox effects during pathogenesis.

Published
2018
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45. An innovative approach to induce cross-protective immunity against porcine reproductive and respiratory syndrome virus in the lungs of pigs through adjuvanted nanotechnology-based vaccination.

Author

Binjawadagi B, Dwivedi V, Manickam C, Ouyang K, Torrelles JB, and Renukaradhya GJ

Subjects
Animals, Lung immunology, Lung virology, Polylactic Acid-Polyglycolic Acid Copolymer, Swine, Treatment Outcome, Vaccines, Inactivated administration & dosage, Vaccines, Inactivated chemistry, Vaccines, Inactivated immunology, Viral Vaccines chemistry, Cross Protection immunology, Lactic Acid chemistry, Nanocapsules administration & dosage, Nanocapsules chemistry, Polyglycolic Acid chemistry, Porcine Reproductive and Respiratory Syndrome immunology, Porcine Reproductive and Respiratory Syndrome prevention & control, Viral Vaccines administration & dosage
Abstract

Porcine reproductive and respiratory syndrome (PRRS) is an economically devastating respiratory disease of pigs. The disease is caused by the PRRS virus (PRRSV), an Arterivirus which is a highly mutating RNA virus. Widely used modified live PRRSV vaccines have failed to prevent PRRS outbreaks and reinfections; moreover, safety of the live virus vaccines is questionable. Though poorly immunogenic, inactivated PRRSV vaccine is safe. The PRRSV infects primarily the lung macrophages. Therefore, we attempted to strengthen the immunogenicity of inactivated/killed PRRSV vaccine antigens (KAg), especially in the pig respiratory system, through: 1) entrapping the KAg in biodegradable poly(lactic-co-glycolic acid) nanoparticles (NP-KAg); 2) coupling the NP-KAg with a potent mucosal adjuvant, whole cell lysate of Mycobacterium tuberculosis (M. tb WCL); and 3) delivering the vaccine formulation twice intranasally to growing pigs. We have previously shown that a single dose of NP-KAg partially cleared the challenged heterologous PRRSV. Recently, we reported that NP-KAg coupled with unentrapped M. tb WCL significantly cleared the viremia of challenged heterologous PRRSV. Since PRRSV is primarily a lung disease, our goal in this study was to investigate lung viral load and various immune correlates of protection at the lung mucosal surfaces and its parenchyma in vaccinated heterologous PRRSV-challenged pigs. Our results indicated that out of five different vaccine-adjuvant formulations, the combination of NP-KAg and unentrapped M. tb WCL significantly cleared detectable replicating infective PRRSV with a tenfold reduction in viral RNA load in the lungs, associated with substantially reduced gross and microscopic lung pathology. Immunologically, strong humoral (enhanced virus neutralization titers by high avidity antibodies) and cell-mediated immune responses (augmented population of interferon-γ secreting CD4(+) and CD8(+) lymphocytes and reduced secretion of immunosuppressive cytokines) in the lungs were observed. In conclusion, combination of NP-KAg and soluble M. tb WCL elicits broadly cross-protective anti-PRRSV immunity in the pig respiratory system.

Published
2014
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46. Pretreatment of epithelial cells with live Streptococcus pneumoniae has no detectable effect on influenza A virus replication in vitro.

Author

Ouyang K, Woodiga SA, Dwivedi V, Buckwalter CM, Singh AK, Binjawadagi B, Hiremath J, Manickam C, Schleappi R, Khatri M, Wu J, King SJ, and Renukaradhya GJ

Subjects
Animals, Calibration, Dogs, In Vitro Techniques, Madin Darby Canine Kidney Cells, Microscopy, Fluorescence, Streptococcus pneumoniae classification, Epithelial Cells microbiology, Influenza A virus physiology, Streptococcus pneumoniae physiology, Virus Replication
Abstract

Influenza A virus (IAV) and Streptococcus pneumoniae (pneumococcus) are two major upper respiratory tract pathogens responsible for exacerbated disease in coinfected individuals. Despite several studies showing increased susceptibility to secondary bacterial infections following IAV infection, information on the direct effect of S. pneumoniae on IAV in vitro is unknown. This is an important area of investigation as S. pneumoniae is a common commensal of the human upper respiratory tract, present as an important coinfecting pathogen with IAV infection. A recent study showed that S. pneumoniae enhances human metapneumovirus infection in polarized bronchial epithelial cells in vitro. The aim of the current study was to determine whether treatment of epithelial cells with S. pneumoniae affects IAV replication using a standard immunofluorescence assay (IFA). For this study we used four IAV permissive epithelial cell lines including two human-derived cell lines, 12 pneumococcal strains including recent human clinical isolates which represent different genetic backgrounds and serotypes, and six IAV strains of varying genetic nature and pathogenic potential including the pandemic 2009 H1N1 virus. Our results suggested that pretreatment of MDCK cells with 7.5×10(6) colony-forming units (CFUs) of live S. pneumoniae resulted in gradual cell-death in a time-dependent manner (0.5 to 4 hr). But, pretreatment of cell lines with 7.5×10(5) and lower CFUs of S. pneumoniae had no detectable effect on either the morphology of cells or on the IAV replication. However, unlike in epithelial cell lines, due to influence of secreted host factors the effect of pneumococci on IAV replication may be different during coinfections in vivo in the human upper respiratory tract, and in vitro with primary human polarized bronchial epithelial cells.

Published
2014
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47. Mycobacterium tuberculosis whole cell lysate enhances proliferation of CD8 positive lymphocytes and nitric oxide secretion in the lungs of live porcine respiratory and reproductive syndrome virus vaccinated pigs.

Author

Manickam C, Dwivedi V, Miller J, Papenfuss T, and Renukaradhya GJ

Subjects
Administration, Intranasal, Animals, Cell Proliferation, Leukocytes, Mononuclear immunology, Lung pathology, Lung Diseases, Interstitial immunology, Lung Diseases, Interstitial pathology, Lung Diseases, Interstitial prevention & control, Nitric Oxide metabolism, Porcine Reproductive and Respiratory Syndrome immunology, Porcine Reproductive and Respiratory Syndrome pathology, Swine, Viral Vaccines administration & dosage, Adjuvants, Immunologic, CD8-Positive T-Lymphocytes immunology, Lung immunology, Mycobacterium tuberculosis immunology, Porcine Reproductive and Respiratory Syndrome prevention & control, Porcine respiratory and reproductive syndrome virus immunology, Viral Vaccines immunology
Abstract

Porcine respiratory and reproductive syndrome (PRRS) is an economically important disease of pigs worldwide. Currently used PRRSV vaccines provide incomplete protection. Recently, we identified Mycobacterium tuberculosis whole cell lysate (Mtb WCL) as a potent mucosal adjuvant to modified live PRRSV vaccine (PRRS-MLV). In this study, pigs were unvaccinated or vaccinated with PRRS-MLV plus Mtb WCL, intranasally, and challenged with either homologous (strain VR2332) or virulent heterologous (strain MN184) PRRSV; subsequently, euthanized at three time points post-challenge to evaluate lung immune responses. Microscopic examination of lung sections revealed reduced disruption of the lung architecture and less of interstitial pneumonia in vaccinated, compared to unvaccinated MN184 challenged pigs. The restimulated lung and peripheral blood mononuclear cells revealed increased proliferation of CD8(+) lymphocytes, and in the lung homogenate increased secretion of nitric oxide was detected in vaccinated MN184 challenged pigs. In summary, the adjuvant effects of Mtb WCL to PRRS-MLV resulted in favorable anti-PRRSV immune microenvironment in the lungs to help better viral clearance.

Published
2013
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48. Intranasal delivery of an adjuvanted modified live porcine reproductive and respiratory syndrome virus vaccine reduces ROS production.

Author

Binjawadagi B, Dwivedi V, Manickam C, Torrelles JB, and Renukaradhya GJ

Subjects
Adjuvants, Immunologic metabolism, Adjuvants, Immunologic pharmacology, Administration, Intranasal, Animals, Flow Cytometry, Immunity, Leukocytes, Mononuclear immunology, Leukocytes, Mononuclear metabolism, Lung immunology, Lung metabolism, Lung pathology, Lung virology, Mycobacterium tuberculosis immunology, Mycobacterium tuberculosis metabolism, Porcine Reproductive and Respiratory Syndrome immunology, Porcine Reproductive and Respiratory Syndrome virology, Reactive Oxygen Species immunology, Swine immunology, Vaccination, Vaccines, Attenuated administration & dosage, Vaccines, Attenuated immunology, Viral Vaccines administration & dosage, Porcine Reproductive and Respiratory Syndrome therapy, Porcine respiratory and reproductive syndrome virus immunology, Reactive Oxygen Species metabolism, Viral Vaccines immunology
Abstract

Reactive oxygen species (ROS) are produced predominantly by phagocytic cells in response to microbial infections. When produced at optimal levels ROS have potent antimicrobial properties. However, excessive production of ROS induces apoptosis/necrosis of infected as well as bystander cells, resulting in inflammatory pathology. Previously we showed that vaccination of pigs with a modified live porcine reproductive and respiratory syndrome virus vaccine (PRRS-MLV) administered intranasally with a potent mucosal adjuvant M. tuberculosis whole-cell lysate (Mtb WCL) induces protective immunity against PRRSV challenge. In this study, using bronchoalveolar lavage fluid cells and peripheral blood mononuclear cells harvested from that study were quantified for the levels of ROS produced. Our results indicated that in vaccinated pigs, levels of ROS were lower compared to unvaccinated PRRSV-challenged pigs. In unvaccinated but PRRSV-challenged pigs, the higher ROS production was associated with increased inflammatory lung pathology. In conclusion, our results suggest that intranasal immunization using PRRS-MLV along with a potent mucosal adjuvant protects pigs against both homologous and virulent heterologous PRRSV challenge, which was associated with reduced ROS production and reduced lung pathology compared to control virus-challenged pigs.

Published
2011
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