High Frequency of Gamma Interferon-Producing PLZFloRORγtlo Invariant Natural Killer 1 Cells Infiltrating Herpes Simplex Virus 1-Infected Corneas Is Associated with Asymptomatic Ocular Herpesvirus Infection.

Research Highlights: Immunotherapy

Gout is an inflammatory arthritis caused by deposition of intra-articular monosodium urate (MSU) crystal. Previous studies have focused on resident macrophage, infiltrating monocyte, and neutrophil responses to MSU crystal; yet the mechanisms of cellular changes and the potential involvement of other regulatory immune cells remain largely unknown. Invariant natural killer T (iNKT) cells, an innate type of T cell, are involved in the development of various inflammatory diseases. Here, we investigate the role of iNKT cells in MSU crystal-induced gouty inflammation. MSU crystal-induced inflammatory profiles in an air-pouch model were examined in iNKT-deficient CD1d knockout (KO) and wild-type (WT) control mice. To explore potential mechanisms of iNKT cell regulation of gouty inflammation, we cocultured CD4+ or CD4− iNKT cells with bone marrow-derived macrophages (BMDMs). We found that iNKT cells quickly migrated to the site of inflammation upon MSU crystal stimulation in WT mice. The total number of infiltrating cells in CD1d KO mice, especially neutrophils, was dramatically increased at 6 and 12 h (P < 0.01) post-MSU crystal challenge, compared with WT controls. BMDMs cocultured with CD4+ iNKT cells produced less tumor necrosis factor-α and expressed higher levels of M2 macrophage markers, including Clec7a, Pdcd1Ig2, and interleukin-4 (P < 0.01), compared with BMDMs cocultured with CD4− iNKT cells or conventional CD4+ T cells. CD4+ iNKT cells are one of the key regulators of MSU crystal-induced gouty inflammation through the control of macrophage polarization. iNKT cells may serve as a new therapeutic target for gout.

Natural killer T (NKT) cells are immunoregulatory lymphocytes known for their roles in infection and tumor immunity, but their involvement in renal fibrosis remains unclear. In this study, we investigated the role of NKT cells in adenine-induced renal fibrosis using CD1d-knockout (CD1dKO) mice, which lack NKT cells, and wild-type (WT) controls. Both CD1dKO and WT mice developed renal dysfunction following 5 wk of being fed an adenine-rich diet; however, CD1dKO mice exhibited significantly greater weight loss, elevated serum blood urea nitrogen and creatinine levels, and increased expression of fibrosis- and inflammation-related genes, including Acta2, Col1a1, Tgfb1, Fn1, and Il1b, Il6, Tnf. Histological analysis revealed markedly enlarged fibrotic areas in the kidneys of CD1dKO mice. Flow cytometry demonstrated increased infiltration of CD25+ Foxp3+ regulatory T cells (Tregs) in CD1dKO mice compared with WT controls. Given that Tregs are a major source of TGF-β, these results suggest that the absence of NKT cells promotes a profibrotic immune environment through enhanced Treg accumulation and TGF-β expression. Our findings showed that NKT cells play a protective role in limiting renal fibrosis progression by modulating immune cell infiltration, particularly enhanced Treg accumulation, and cytokine production. Targeting NKT cell pathways may represent a novel therapeutic approach for the treatment of chronic kidney disease and fibrosis.NEW & NOTEWORTHY This study reveals a protective role for natural killer T (NKT) cells in adenine-induced renal fibrosis. Using CD1d-deficient mice lacking NKT cells, we demonstrate that their absence leads to worsened fibrosis, heightened inflammation, and increased regulatory T cell infiltration. These findings suggest that NKT cells mitigate fibrotic progression by modulating immune responses and highlight a potential therapeutic target in chronic kidney disease.

CD1d, a lipid Ag-presenting molecule for invariant NKT (iNKT) cells, is abundantly expressed on adipocytes and regulates adipose homeostasis through iNKT cells. CD1d gene expression was restored in visceral adipose tissue adipocytes of CD1d knockout (KO) mice to investigate the interactions between adipocytes and immune cells within adipose tissue. We developed an adipocyte-specific targeting recombinant adeno-associated viral vector, with minimal off-target transgene expression in the liver, to rescue CD1d gene expression in visceral adipose tissue adipocytes of CD1d KO mice, followed by assessment of immune cell alternations in adipose tissue and elucidation of the underlying mechanisms of alteration. We report that adeno-associated virus-mediated gene transfer of CD1d to adipocytes in CD1d KO mice fails to rescue iNKT cells but leads to massive and selective expansion of T cells within adipose tissue, particularly CD8+ T effector cells, that is associated with adipocyte NLRP3 inflammasome activation, dysregulation of adipocyte functional genes, and upregulation of apoptotic pathway proteins. An NLRP3 inhibitor has no effect on T cell phenotypes whereas depletion of CD8+ T cells significantly attenuates inflammasome activation and abolishes the dysregulation of adipocyte functional genes induced by adipocyte CD1d. In contrast, adipocyte overexpression of CD1d fails to induce T cell activation in wild-type mice or in invariant TCR α-chain Jα18 KO mice that have a normal lymphocyte repertoire except for iNKT cells. Our studies uncover an adipocyte CD1d → CD8+ T cell → adipocyte inflammasome cascade, in which CD8+ T cells function as a key mediator of adipocyte inflammation likely induced by an allogeneic response against the CD1d molecule.

The role of invariant NKT (iNKT) cells in reactive arthritis is unknown. We explored the functional role of NKT cells in reactive arthritis using an established murine model of Chlamydia trachomatis-induced arthritis (CtIA). CtIA in wild-type and CD1d knockout (KO) mice was induced by intra-articular injection of C. trachomatis. The effect of alpha-galactosylceramide (alpha-GalCer) activation of iNKT cells was investigated by intra-peritoneal administration of alpha-GalCer. Histopathological and phenotypic changes, chlamydial clearance and cytokine and chemokine production in synovial tissue of the knee joint were investigated after onset of the arthritis. The severity of CtIA was significantly increased in CD1d KO mice, which was associated with decrease in bactericidal cytokine IFN-gamma, regulatory cytokines IL-4 and IL-10 and increase in pro-inflammatory chemokines macrophage inflammatory protein-2 (MIP-2) and IFN-gamma-inducible protein-10 (IP-10). Local clearance of the pathogen from the joint was also decreased. Prior treatment of mice with alpha-GalCer, a potent activator of iNKT cells, significantly reduced the severity of CtIA in mice. The amelioration of CtIA was associated with decrease in chlamydial load and induction of cytokines IFN-gamma, IL-4 and IL-10 and significant suppression of MIP-2 and IP-10. Treatment of established CtIA with alpha-GalCer also demonstrated modulation of CtIA and decrease in chlamydial load. These results suggest that iNKT cells are protective against CtIA and alpha-GalCer-activated iNKT cells have an immunoregulatory role not only in preventing the induction of reactive arthritis but also in modulating established disease.

Influence of Genetic Modifiers on Levels of Invariant Natural Killer T-Cells in Patients with Sickle Cell Anemia

Natural killer (NK) T cells are a unique, recently identified cell population and are suggested to act as regulatory cells in autoimmune disorders. In the present study, designed to investigate the role of NKT cells in arthritis development, we attempted to induce arthritis by immunization of type II collagen (CIA) in Jalpha281 knock out (NKT-KO) and CD1d knock out (CD1d-KO) mice, which are depleted of NKT cells. From the results, the incidence of arthritis (40%) and the arthritis score (1.5 +/- 2.2 and 2.0 +/- 2.7) were reduced in NKT-KO and CD1d-KO mice compared to those in respective wild type mice (90%, 5.4 +/- 3.2 and 2.0 +/- 2.7, P < 0.01). Anti-CII antibody levels in the sera of NKT-KO and CD1d-KO mice were significantly decreased compared to the controls (OD values; 0.32 +/- 0.16 and 0.29 +/- 0.06 versus 0.58 +/- 0.08 and 0.38 +/- 0.08, P < 0.01). These results suggest that NKT cells play a role as effector T cells in CIA. Although the cell proliferative response and cytokine production in NKT-KO mice after the primary immunization were comparable to those in wild type mice, the ratios of both activated T or B cells were lower in NKT-KO mice than wild type mice after secondary immunization (T cells: 9.9 +/- 1.8% versus 16.0 +/- 3.4%, P < 0.01, B cells: 4.1 +/- 0.5% versus 5.1 +/- 0.7%, P < 0.05), suggesting that inv-NKT cells contribute to the pathogenicity in the development phase of arthritis. In addition, IL-4 and IL-1beta mRNA expression levels in the spleen during the arthritis development phase were lower in NKT-KO mice, while the IFN-gamma mRNA expression level was temporarily higher. These results suggest that inv-NKT cells influence cytokine production in arthritis development. In conclusion, inv-NKT cells may promote the generation of arthritis, especially during the development rather than the initiation phase.

Activation of natural killer T cells inhibits the development of induced regulatory T cells via IFNγ

Natural killer T cells are important in the pathogenesis of asthma: The many pathways to asthma

Mouse Invariant TCR Specific Monoclonal Antibody NKT14: A Novel Tool To Manipulate Invariant NKT Cell Function In Vivo

IFN-γ production downstream of NKT cell activation in mice infected with influenza virus enhances the cytolytic activities of both NK cells and viral antigen-specific CD8+ T cells

NKT cells in liver fibrosis: Controversies or complexities

Natural killer T (NKT) cells are an important lymphocyte subset in the liver that can be activated by CD1d-restricted lipid antigens presented on cholangiocytes, including lipids in bile from patients with chronic liver diseases. We hypothesized that during cholestasis, NKT cells play an essential role in the pathophysiology. We explored this immune pathway by ligating the common bile duct (BDL) in CD1d knockout (Cd1d-/-) mice, Traj18-/- mice, wild-type (WT) mice, and created a novel model with conditional deletion of CD1d on cholangiocytes (Cd1dΔCC mice). Following BDL, we observed a clear and specific activation of hepatic NKT cells. Cd1d-/- mice, depleted of both invariant and noninvariant NKT cells, were protected from BDL-induced cholestatic liver damage. In contrast, Traj18-/- mice, lacking only invariant natural killer T cells, were not protected as compared with WT mice. Cd1dΔCC mice exhibited a deficiency in functional CD1d expression on cholangiocytes but had a comparable distribution and phenotype of NKT cells as WT mice. After BDL, Cd1dΔCC mice were not protected and developed similar liver disease as WT mice. A subset of hepatic NKT cells contributes to cholestatic liver disease, and their activation is independent of CD1d antigen presentation on cholangiocytes.

Immunoglobulin (Ig) M production can be induced by the interaction of thymus-independent type-2 (TI-2) antigen (Ag) with B cell Ag receptors (BCRs) without the involvement of conventional T cells; for IgG production through the same process, however, a second signal is required. Previous studies have reported that invariant natural killer T (iNKT) cells may be responsible for the second signal involved in IgG production. In the present study, we addressed whether human iNKT cells could participate in the production of Ig against TI-2 Ag in vitro. Two major distinct subsets of human iNKT cells, CD4+ CD8β- (CD4) and CD4- CD8β- [double negative (DN)] cells, were generated from peripheral blood monocytes from a healthy volunteer. BCR engagement, triggered by anti-IgM antibody stimulation, examined here as a model of BCR engagement triggered by TI-2 Ag, induced abundant IgM production by B cells. Both CD4 and DN iNKT cells reduced IgM production and conversely enhanced IgG production in a dose-dependent manner. In addition, IgG production by CD19+CD27- (naive) and CD19+CD27+ (memory) B cells was predominantly promoted by DNiNKT cells rather than CD4 iNKT cells; nevertheless, IgM production by both B cell subsets was similarly reduced by either subset of iNKT cells. These results suggest that the DN iNKT subsets may preferentially promote Ig class switching by B cells upon stimulation with TI-2 Ag.

Identification of human CD1d-restricted T-cell receptor (TCR)-invariant natural killer T (iNKT) cells has been dependent on utilizing combinations of monoclonal antibodies or CD1d tetramers, which do not allow for the most specific analysis of this T-cell subpopulation. A novel monoclonal antibody (clone 6B11), specific for the invariant CDR3 loop of human canonical Valpha24Jalpha18 TCR alpha chain, was developed and used to specifically characterize iNKT cells. In healthy individuals studied for up to 1 year, a wide but stable frequency of circulating iNKT cells (range: 0.01-0.92%) was observed, with no differences in frequency by gender. Four stable iNKT cell subsets were characterized in peripheral blood based on the expression of CD4 and CD8, with CD8(+) iNKT cells being a phenotypic and functionally different subset from CD4(+) and double negative iNKT cells; in particular, LAG-3 was preferentially expressed on CD8(+) iNKT cells. In addition, a strong negative linear correlation between the frequency of total iNKT cells and percentage of the CD4(+) subset was observed. In terms of their potential association with disease, patients at risk for type 1 diabetes had significantly expanded frequencies of double negative iNKT cells when compared to matched controls and first-degree relatives. Moreover, peripheral blood CD4(+) iNKT cells were the highest producers of interleukin-4, while the production of interferon-gamma and tumour necrosis factor-alpha was similar amongst all iNKT cell subsets. These differences in iNKT cell subsets suggest that in humans the relative ratio of iNKT cell subsets may influence susceptibility vs. resistance to immune-mediated diseases.