scholarly journals NF-κB activation triggers NK-cell stimulation by monocyte-derived dendritic cells

2019 ◽  
Vol 11 ◽  
pp. 175883591989162 ◽  
Author(s):  
Naomi C. Bosch ◽  
Reinhard E. Voll ◽  
Caroline J. Voskens ◽  
Stefanie Gross ◽  
Barbara Seliger ◽  
...  
Keyword(s):  
Dendritic Cells ◽  
T Cell ◽  
Nk Cells ◽  
T Cell Activation ◽  
Cell Activation ◽  
Nk Cell ◽  
Cytotoxic T Lymphocyte ◽  
Innate Immune ◽  
Antitumor Effects ◽  
Cytokine Cocktail

Background: In therapeutic cancer vaccination, monocyte-derived dendritic cells (moDCs) efficiently activate specific T-cell responses; however, optimizing the activation of innate immune cells could support and improve the antitumor effects. A major disadvantage of moDCs matured with the standard cytokine cocktail (consisting of IL-1β, IL-6, TNFα, and PGE2) is their inability to secrete IL-12p70. IL-12 prominently activates natural killer (NK) cells, which are crucial in innate antitumor immunity, as they act as helper cells for the induction of a cytotoxic T lymphocyte (CTL) response and are also able to directly kill the tumor. Methods: Previously we have shown that triggering the NF-κB pathway in moDCs by transfection of mRNA encoding constitutively active IKKβ (caIKKβ) led to IL-12p70 secretion and improved the dendritic cells’ capability to activate and expand CTLs with a memory-like phenotype. In this study, we examined whether such dendritic cells could activate autologous NK cells. Results: moDCs matured with the standard cytokine cocktail followed by transfection with the caIKKβ-RNA were able to activate autologous NK cells, detected by the upregulation of CD54, CD69, and CD25 on the NK cells, their ability to secrete IFNγ, and their high lytic activity. Moreover, the ability of NK-cell activation was not diminished by simultaneous T-cell activation. Conclusion: The capacity of caIKKβ-DCs to activate both the adaptive and innate immune response indicates an enhanced potential for clinical efficacy.

Intravenous immunoglobulins suppress T-cell priming by modulating the bidirectional interaction between dendritic cells and natural killer cells

Blood ◽  
2007 ◽  
Vol 110 (9) ◽  
pp. 3253-3262 ◽  
Author(s):  
Thanyalak Tha-In ◽  
Herold J. Metselaar ◽  
Hugo W. Tilanus ◽  
Zwier M. A. Groothuismink ◽  
Ernst J. Kuipers ◽  
...  
Keyword(s):  
Dendritic Cells ◽  
T Cell ◽  
Nk Cells ◽  
T Cell Activation ◽  
Cell Activation ◽  
Nk Cell ◽  
Intravenous Immunoglobulins ◽  
Interferon Γ ◽  
T Cell Priming ◽  
Induced Apoptosis

AbstractThe modes of action of intravenous immunoglobulins (IVIgs) in exerting their immunomodulatory properties are broad and not fully understood. IVIgs can modulate the function of various immune cells, including suppressing the capacity of dendritic cells (DCs) to stimulate T cells. In the present study, we showed that DCs matured in the presence of IVIgs (IVIg-DCs) activated NK cells, and increased their interferon-γ production and degranulation. The activated NK cells induced apoptosis of the majority of IVIg-DCs. In consequence, only in the presence of NK cells, IVIg-DCs were 4-fold impaired in their T-cell priming capacity. This was due to NK-cell–mediated antibody-dependent cellular cytotoxicity (ADCC) to IVIg-DCs, probably induced by IgG multimers, which could be abrogated by blockade of CD16 on NK cells. Furthermore, IVIg-DCs down-regulated the expression of NKp30 and KIR receptors, and induced the generation of CD56brightCD16−CCR7+ lymph node–type NK cells. Our results identify a novel pathway, in which IVIgs induce ADCC of mature DCs by NK cells, which downsizes the antigen-presenting pool and inhibits T-cell priming. By influencing the interaction between DCs and NK cells, IVIgs modulate the ability of the innate immunity to trigger T-cell activation, a mechanism that can “cool down” the immune system at times of activation.

scholarly journals Transient and persistent effects of IL-15 on lymphocyte homeostasis in nonhuman primates

Blood ◽  
2010 ◽  
Vol 116 (17) ◽  
pp. 3238-3248 ◽  
Author(s):  
Enrico Lugli ◽  
Carolyn K. Goldman ◽  
Liyanage P. Perera ◽  
Jeremy Smedley ◽  
Rhonda Pung ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Nk Cells ◽  
T Cell Activation ◽  
Cd8 T Cells ◽  
Cell Activation ◽  
Nk Cell ◽  
The Body ◽  
Effector Memory ◽  
Memory Cd8 T Cells

Abstract Interleukin-15 (IL-15) is a cytokine with potential therapeutic application in individuals with cancer or immunodeficiency to promote natural killer (NK)– and T-cell activation and proliferation or in vaccination protocols to generate long-lived memory T cells. Here we report that 10-50 μg/kg IL-15 administered intravenously daily for 12 days to rhesus macaques has both short- and long-lasting effects on T-cell homeostasis. Peripheral blood lymphopenia preceded a dramatic expansion of NK cells and memory CD8 T cells in the circulation, particularly a 4-fold expansion of central memory CD8 T cells and a 6-fold expansion of effector memory CD8 T cells. This expansion is a consequence of their activation in multiple tissues. A concomitant inverted CD4/CD8 T-cell ratio was observed throughout the body at day 13, a result of preferential CD8 expansion. Expanded T- and NK-cell populations declined in the blood soon after IL-15 was stopped, suggesting migration to extralymphoid sites. By day 48, homeostasis appears restored throughout the body, with the exception of the maintenance of an inverted CD4/CD8 ratio in lymph nodes. Thus, IL-15 generates a dramatic expansion of short-lived memory CD8 T cells and NK cells in immunocompetent macaques and has long-term effects on the balance of CD4+ and CD8+ T cells.

DOCK8-Deficient Mice Reveal a Crucial Role for Dendritic Cell Activity in the Initiation of the Allogeneic Response to Transfused Red Blood Cells

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 658-658
Author(s):  
Stephanie C. Eisenbarth ◽  
Jeanne E. Hendrickson ◽  
Samuele Calabro ◽  
Antonia Gallman
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
T Cell ◽  
Dendritic Cell ◽  
T Cell Activation ◽  
Cell Activation ◽  
Innate Immune ◽  
Allogeneic Response ◽  
Deficient Mice

Abstract The generation of antibodies against transfused red blood cells (RBCs) can pose a serious health risk, especially in chronically transfused patients requiring life-long transfusion support; yet our understanding of what immune signals or cells dictate when someone will become alloimmunized is lacking. The relative role of dendritic cells, B cells and macrophages in the induction of RBC alloimmunization remain unclear. Given the now well established role of innate immune signals in regulating adaptive immunity, understanding if and how innate immunity is triggered during transfusion may allow development of therapies to prevent alloimmunization in chronically transfused subjects such as those with myelodysplasia or hemoglobinopathies. We have established a murine model system in which we can evaluate both the role of particular innate immune stimuli as well as particular cells of the immune system in regulating the allogeneic response to transfused RBCs. A particularly useful transgenic "HOD mouse" has been engineered, which encodes a triple fusion protein and provides a unique tool to directly assess both RBC-specific T and B cell responses. This RBC-specific antigen contains the model protein antigen hen egg lysozyme (HEL) fused to chicken ovalbumin (OVA) fused to the human Duffyb blood group antigen (HEL-OVA-Duffy) as an integral membrane protein under control of the beta globin promoter. Transfusion of genetically targeted mice lacking various innate immune cells or receptors allows us to screen for important immune pathways regulating the response to allogeneic RBCs. Using these models, we recently discovered that mice lacking the GEF (guanine nucleotide exchange factor) DOCK8 fail to develop alloimmunity to transfused RBCs. Dendritic cells in these knockout mice fail to migrate to T cells due to lack of coordinated actin rearrangement governed by this GEF. Both B cell and T cell activation in the spleen to the transgenic transfused RBCs is abrogated. Inclusion of OVA in the alloantigen of the HOD mice allows us to readily study naïve CD4+ T cell activation following transfusion by using the OTII T cell receptor (TCR) transgenic mice in which essentially all T cells express one antigen receptor specific for a peptide of OVA. By tracking rounds of cell division we found that adoptively transferred OTII undergo more than 5-8 rounds of division in the spleen three days following transfusion of HOD RBCs in WT recipients. In contrast, no OTII proliferation was observed in DOCK8-deficient mice following OTII adoptive transfer and HOD RBC transfusion, suggesting that T cells are failing to receive activation signals by splenic antigen presenting cells. Our preliminary data now suggest that DOCK8-deficient dendritic cells are able to process and present RBC-derived antigens, but do not migrate to T cell zones in the spleen to prime naïve RBC-specific T cells. The need for dendritic cell migration within the spleen in the induction of alloimmunity to transfused RBCs has not been addressed; these mice allow us for the first time to answer these fundamental immunologic questions during transfusion. Future work will aim to determine how dendritic cell movement within the spleen is regulated during transfusion and the specific role of splenic dendritic cell subsets in CD4+ T cell priming to allogeneic RBCs. Disclosures No relevant conflicts of interest to declare.

Systemic IL-15 promotes allogeneic cell rejection in patients treated with natural killer cell adoptive therapy

Blood ◽  
2021 ◽  
Author(s):  
Melissa M Berrien-Elliott ◽  
Michelle Becker-Hapak ◽  
Amanda F. Cashen ◽  
Miriam T. Jacobs ◽  
Pamela Wong ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cell Therapy ◽  
Nk Cells ◽  
T Cell Activation ◽  
Cell Activation ◽  
Nk Cell ◽  
Cd8 T Cell ◽  
Clinical Activity ◽  
Allogeneic Cell

NK cells are a promising alternative to T cells for cancer immunotherapy. Adoptive therapies with allogeneic, cytokine-activated NK cells are being investigated in clinical trials. However, the optimal cytokine support after adoptive transfer to promote NK cell expansion, and persistence remains unclear. Correlative studies from two independent clinical trial cohorts treated with MHC-haploidentical NK cell therapy for relapsed/refractory AML revealed that cytokine support by systemic IL-15 (N-803) resulted in reduced clinical activity, compared to IL-2. We hypothesized that the mechanism responsible was IL-15/N-803 promoting recipient CD8 T cell activation that in turn accelerated donor NK cell rejection. This idea was supported by increased proliferating CD8+ T cell numbers in patients treated with IL-15/N-803, compared to IL2. Moreover, mixed lymphocyte reactions showed that IL-15/N-803 enhanced responder CD8 T cell activation and proliferation, compared to IL-2 alone. Additionally, IL-15/N-803 accelerated the ability of responding T cells to kill stimulator-derived ML NK cells, demonstrating that additional IL-15 can hasten donor NK cell elimination. Thus, systemic IL-15 used to support allogeneic cell therapy may paradoxically limit their therapeutic window of opportunity and clinical activity. This study indicates that stimulating patient CD8 T cell allo-rejection responses may critically limit allogeneic cellular therapy supported with IL-15.

NLRP10-Deficient Mice Reveal a Crucial Role for Dendritic Cell Activity in the Initiation of the Allogeneic Response to Transfused Red Blood Cells

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 4113-4113
Author(s):  
Stephanie C. Eisenbarth ◽  
Jeanne E Hendrickson ◽  
Samuele Calabro ◽  
Antonia Gallman
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
T Cell ◽  
Red Blood Cells ◽  
T Cell Activation ◽  
Blood Cells ◽  
Cell Activation ◽  
Innate Immune ◽  
Deficient Mice

Abstract The generation of antibodies against transfused red blood cells (RBCs) can pose a serious health risk, especially in chronically transfused patients requiring life-long transfusion support; yet our understanding of what immune signals or cells dictate when someone will become alloimmunized is lacking. Every non-autologous red cell unit has multiple antigens foreign to the transfused recipient; some people respond to these foreign antigens with an adaptive immune response and some do not. Given the now well established role of innate immune signals in regulating adaptive immunity, understanding if and how innate immunity is triggered during transfusion may allow development of therapies to prevent alloimmunization in chronically transfused subjects such as those with myelodysplasia or hemoglobinopathies. We have established a murine model system in which we can evaluate both the role of particular innate immune stimuli as well as particular cells of the immune system in regulating the allogeneic response to transfused red blood cells. A particularly useful transgenic “HOD mouse” has been engineered, which encodes a triple fusion protein and provides a unique tool to directly assess both RBC-specific T and B cell responses. This RBC-specific antigen contains the model protein antigen hen egg lysozyme (HEL) fused to chicken ovalbumin (OVA) fused to the human Duffybblood group antigen (HEL-OVA-Duffy) as an integral membrane protein under control of the beta globin promoter. Transfusion of genetically targeted mice lacking various innate immune receptors allows us to screen for important immune pathways regulating the response to allogeneic RBCs. Using these models, we recently discovered that mice lacking the NOD-like receptor NLRP10 fail to develop alloimmunity to transfused red blood cells. Surprisingly, the early innate immune cytokine response, including IL-6, IL-1beta and TNF-alpha, was unaffected in mice lacking NLRP10. Yet both B cell and T cell activation in the spleen to the transgenic transfused RBCs was abrogated. Inclusion of OVA in the alloantigen of the HOD mice allows us to readily study naïve CD4+ T cell activation following transfusion by using the OTII T cell receptor (TCR) transgenic mice in which essentially all T cells express one antigen receptor specific for a peptide of OVA. By tracking rounds of cell division we found that adoptively transferred OTII undergo more than 5-8 rounds of division in the spleen three days following transfusion of HOD RBCs in WT recipients. In contrast, no OTII proliferation was observed in NLRP10-deficient mice following OTII adoptive transfer and HOD RBC transfusion, suggesting that T cells are failing to receive activation signals by splenic antigen presenting cells. We have previously demonstrated that NLRP10-deficient dendritic cells fail to migrate from peripheral tissues such as the skin to draining lymph nodes. Our preliminary data now suggest that NLRP10-deficient dendritic cells are able to process and present RBC-derived antigens, but do not migrate to T cell zones in the spleen to prime naïve RBC-specific T cells. The relative role of dendritic cells, B cells and macrophages in the induction of erythrocyte alloimmunization remain unclear. Further, the need for DC migration within the spleen in the induction of alloimmunity to transfused RBCs has not been addressed. These mice allow us for the first time to answer these fundamental immunologic questions during transfusion. Future work will aim to determine how dendritic cell movement within the spleen is regulated during transfusion in NLRP10-deficient mice and the specific role of splenic dendritic cells in CD4+ T cell priming to allogeneic RBCs. Disclosures No relevant conflicts of interest to declare.

scholarly journals Natural killer cell behavior in lymph nodes revealed by static and real-time imaging

2006 ◽  
Vol 203 (3) ◽  
pp. 619-631 ◽  
Author(s):  
Marc Bajénoff ◽  
Béatrice Breart ◽  
Alex Y.C. Huang ◽  
Hai Qi ◽  
Julie Cazareth ◽  
...  
Keyword(s):  
T Cell ◽  
Lymph Nodes ◽  
Nk Cells ◽  
Natural Killer ◽  
T Cell Activation ◽  
Cell Activation ◽  
Leishmania Major ◽  
Nk Cell ◽  
Killer Cell

Natural killer (NK) cells promote dendritic cell (DC) maturation and influence T cell differentiation in vitro. To better understand the nature of the putative interactions among these cells in vivo during the early phases of an adaptive immune response, we have used immunohistochemical analysis and dynamic intravital imaging to study NK cell localization and behavior in lymph nodes (LNs) in the steady state and shortly after infection with Leishmania major. In the LNs of naive mice, NK cells reside in the medulla and the paracortex, where they closely associate with DCs. In contrast to T cells, intravital microscopy revealed that NK cells in the superficial regions of LNs were slowly motile and maintained their interactions with DCs over extended times in the presence or absence of immune-activating signals. L. major induced NK cells to secrete interferon-γ and to be recruited to the paracortex, where concomitant CD4 T cell activation occurred. Therefore, NK cells form a reactive but low mobile network in a strategic area of the LN where they can receive inflammatory signals, interact with DCs, and regulate colocalized T cell responses.

scholarly journals Off-the-Shelf, iPSC-Derived CAR-NK Cells Multiplexed-Engineered for the Avoidance of Allogeneic Host Immune Cell Rejection

Blood ◽  
2021 ◽  
Vol 138 (Supplement 1) ◽  
pp. 2795-2795
Author(s):  
Rina M Mbofung ◽  
Alan M Williams ◽  
Ken Hayama ◽  
Yijia Pan ◽  
Brian Groff ◽  
...  
Keyword(s):  
Immune System ◽  
T Cell ◽  
Nk Cells ◽  
T Cell Activation ◽  
Cell Activation ◽  
Immune Cell ◽  
Nk Cell ◽  
Cell Reactivity ◽  
Cell Therapies ◽  
Cell Numbers

Abstract Allogeneic off-the-shelf cell therapies offer distinct advantages over conventional autologous cell therapies in terms of scaled manufacturing, on-demand availability and optimization of cellular starting material. A unique consideration in the use of allogeneic cell therapies is the potential for immune cell-mediated recognition of the allogeneic cell product by the patient's immune system. CAR T-cell therapies are commonly combined with conditioning chemotherapies that suppress a patient's immune system, creating a suitable window of activity to elicit clinical response. However, protracted lympho-conditioning also affects immune reconstitution and can negatively impact the rate of infection. Alternative approaches to prevent allorejection may therefore help to enhance the efficacy of the therapy while preserving the immune system of the patient. Elimination of cell-surface human leukocyte antigen (HLA) molecule expression by genetic knockout (KO) has long been known to abrogate T-cell reactivity. However, loss of class I HLA elicits NK cell-mediated recognition and clearance, and therefore must be combined with other immune-modulating strategies to limit host NK cell reactivity. Allogeneic models combining class I HLA deletion with NK cell inhibitory molecules, such as HLA-E and CD47, have been shown to abrogate NK cell reactivity in mouse models. However, HLA-E is the canonical activator of NKG2C, a dominant activating receptor found on human NK cells. Likewise, the expression of signal regulatory protein alpha (SIRPα), the major interactor for CD47, is mostly restricted to macrophages and dendritic cells and not human NK cells, and the observed effects of this immune-modulating strategy in the mouse system may only offer partial or incomplete immune evasion in the human system. In this study, we provide details of a bona fide off-the-shelf strategy where iPSC-derived NK (iNK) cell therapy is multiplexed engineered with a novel combination of immune-evasion modalities; beta 2 microgobulin (B2M) KO to prevent CD8 T-cell mediated rejection; class II transactivator (CIITA) KO to prevent CD4 T-cell mediated rejection; and CD38 KO to enable combination with anti-CD38 mAbs, which can be administered to deplete host alloreactive lymphocytes, including both NK and T cells. In vitro mixed lymphocyte reaction (MLR) data demonstrated that upon co-culture with allogeneic PBMCs, B2M KO iNK cells stimulated less T-cell activation than their B2M sufficient counterparts as evidenced by reduced CD38, 41BB, and CD25 levels on T cells. Additionally, B2M KO iNK cells impaired T-cell expansion over the duration of co-culture, resulting in a 50% decrease in expansion at the peak of the control response. However, B2M KO iNK cells were depleted over time, suggesting activation of an NK cell "missing self" response by the peripheral blood NK (pbNK) cells. In contrast, when the assay was performed in the presence of anti-CD38 mAb, depletion of B2M KO iNK cells was blocked, and instead B2M KO iNK cell numbers increased by 3.5-fold, comparable to the iNK cell numbers found in the control arm (cultured without allogeneic PBMCs). Interestingly, pbNK cell numbers decreased, while T-cell activation and expansion remained lower than in B2M-sufficient MLR cultures. Furthermore, when B2M KO iNK cells were cocultured with tumor cells and anti-CD38 mAb in vitro, ADCC was comparable to the B2M sufficient cells, indicating uncompromised effector function. Finally, in vivo studies suggested that co-administration of anti-CD38 mAbs can significantly enhance the persistence of B2M KO iNK cells in the presence of allogeneic pbNK cells as seen in the spleen and bone marrow (Figure 1). Together these data demonstrate that the combination of triple-gene knockout of CD38, B2M and CIITA with a CD38-targeting mAb is an effective strategy to avoid host immune rejection, and highlights the potential advantages of multiplexed engineered iPSCs to facilitate large-scale manufacture of complex engineered, off-the-shelf cellular therapies. Figure 1 Figure 1. Disclosures Williams: Fate Therapeutics: Current Employment. Malmberg: Merck: Research Funding; Vycellix: Consultancy; Fate Therapeutics: Consultancy, Research Funding. Lee: Fate Therapeutics, Inc.: Current Employment. Bjordahl: Fate Therapeutics: Current Employment. Valamehr: Fate Therapeutics, Inc.: Current Employment.

scholarly journals Novel APC-like properties of human NK cells directly regulate T cell activation

2015 ◽  
Author(s):  
Jacob Hanna ◽  
Ofer Mandelboim
Keyword(s):  
T Cells ◽  
T Cell ◽  
Nk Cells ◽  
Mhc Class Ii ◽  
T Cell Activation ◽  
Cell Activation ◽  
Nk Cell ◽  
Adaptive Immune Response ◽  
Antigen Uptake

Initiation of the adaptive immune response is dependent on the priming of naive T cells by APCs. Proteomic analysis of unactivated and activated human NK cell membrane-enriched fractions demonstrated that activated NK cells can efficiently stimulate T cells, since they upregulate MHC class II molecules and multiple ligands for TCR costimulatory molecules. Furthermore, by manipulating antigen administration, we show that NK cells possess multiple independent unique pathways for antigen uptake. These results highlight NK cell-mediated cytotoxicity and specific ligand recognition by cell surface-activating receptors on NK cells as unique mechanisms for antigen capturing and presentation. In addition, we analyzed the T cell-activating potential of human NK cells derived from different clinical conditions, such as inflamed tonsils and noninfected and CMV-infected uterine decidual samples, and from transporter-associated processing antigen 2–deficient patients. This in vivo analysis revealed that proinflammatory, but not immune-suppressive, microenvironmental requirements can selectively dictate upregulation of T cell-activating molecules on NK cells. Taken together, these observations offer new and unexpected insights into the direct interactions between NK and T cells and suggest novel APC-like activating functions for human NK cells.

scholarly journals Conferral of Enhanced Natural Killer Cell Function by KIR3DS1 in Early Human Immunodeficiency Virus Type 1 Infection

2008 ◽  
Vol 82 (10) ◽  
pp. 4785-4792 ◽  
Author(s):  
Brian R. Long ◽  
Lishomwa C. Ndhlovu ◽  
Jorge R. Oksenberg ◽  
Lewis L. Lanier ◽  
Frederick M. Hecht ◽  
...  
Keyword(s):  
T Cell ◽  
Nk Cells ◽  
T Cell Activation ◽  
Cell Activation ◽  
Cell Function ◽  
Nk Cell ◽  
Killer Cell ◽  
Cd107a Expression ◽  
Ifn Γ ◽  
Hiv 1

ABSTRACT A flurry of recent reports on the role of activating and inhibitory forms of the killer cell immunoglobulin-like receptors (KIR) in natural killer (NK) cell activity against human immunodeficiency virus type 1 (HIV-1) have yielded widely divergent results. The role of the activating NK receptor encoded by the KIR3DS1 allele and its putative ligands, members of the HLA class I Bw4Ile80 cluster, in early HIV-1 disease is controversial. We selected 60 treatment-naïve adults for study from the OPTIONS cohort of individuals with early HIV-1 infection in San Francisco. We performed NK cell functional assays measuring gamma interferon (IFN-γ) and CD107a expression by NK cells in the unstimulated state and after stimulation by the major histocompatibility complex class I-deficient 721.221 B-lymphoblastoid cell line. In addition, we measured CD38 expression (a T-cell activation marker) on T and NK cells. Persons who have at least one copy of the KIR3DS1 gene had higher IFN-γ and CD107a expression in the unstimulated state compared to those who do not possess this gene. After stimulation, both groups experienced a large induction of IFN-γ and CD107a, with KIR3DS1 carriers achieving a greater amount of IFN-γ expression. Differences in effector activity correlating with KIR3DS1 were not attributable to joint carriage of HLA Bw4Ile80 and KIR3DS1. We detected a partial but not complete dependence of KIR3DS1 on the members of B*58 supertype (B*57 and B*58) leading to higher NK cell function. Possessing KIR3DS1 was associated with lower expression of CD38 on both CD8+ T and NK cells and with a loss or weakening of the known strong associations between CD8+ T-cell expression of CD38 mean fluorescence intensity and the HIV-1 viral load. We observed that possessing KIR3DS1 was associated with higher NK cell effector functions in early HIV-1 disease, despite the absence of HLA Bw4Ile80, a putative ligand of KIR3DS1. Carriage of KIR3DS1 was associated with diminished CD8+ T-cell activation, as determined by expression of CD38, and a disruption of the traditional relationship between viral load and activation in HIV-1 disease, which may lead to better clinical outcomes for these individuals.

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