A novel epitope of N-CAM defines precursors of human adherent NK cells

Differential impact of TIM-3 ligands on NK cell function

BACKGROUND

The transmembrane protein T-cell immunoglobulin and mucin-domain containing molecule 3 (TIM-3) is an immune checkpoint receptor that is expressed by a variety of leukocyte subsets, particularly in the tumor microenvironment. An effective TIM-3-targeting therapy should account for multiple biological factors, including the disease setting, the specific cell types involved and their varying sensitivities to the four putative TIM-3 ligands (galectin-9, phosphatidylserine, high mobility group protein B1 and carcinoembryonic antigen cell adhesion molecule 1), each of which engages a unique binding site on the receptor's variable immunoglobulin domain. The primary objectives of this study were to assess the prevalence and function of TIM-3+ natural killer (NK) cells in patients with head and neck squamous cell carcinoma (HNSCC), determine whether the four TIM-3 ligands differentially affect TIM-3+ NK cell functions, identify the most immunosuppressive ligand, and evaluate whether targeting ligand-mediated TIM-3 signaling enhances NK cell effector functions.

METHODS

Single-cell RNA sequencing and flow cytometry were used to study the prevalence, phenotypes and function of TIM-3+ NK cells in HNSCC patient tumors and blood. In vitro killing, proliferation and cytokine production assays were implemented to evaluate whether the four TIM-3 ligands differentially modulate TIM-3+ NK cell functions, and whether disruption of TIM-3/ligand interaction can enhance NK cell-mediated antitumor effector mechanisms. Finally, The Cancer Genome Atlas survival analysis and digital spatial profiling were employed to study the potential impact of etiology-associated differences on patients with HNSCC outcomes.

RESULTS

We demonstrate that TIM-3 is highly prevalent on circulating and tumor-infiltrating NK cells. It co-expresses with CD44 and marks NK cells with heightened effector potential. Among the four putative TIM-3 ligands, galectin-9 most consistently suppresses NK cell-mediated cytotoxicity and proliferation through TIM-3 and CD44 signaling, respectively, but promotes IFN-γ release in a TIM-3-dependent manner. Among patients with HNSCC, an elevated intratumoral TIM-3+ NK cell gene signature associates with worse outcomes, specifically in those with human papillomavirus (HPV)+ disease, potentially attributable to higher galectin-9 levels in HPV+ versus HPV- patients.

CONCLUSIONS

Our findings underscore the complex functional impact of TIM-3 ligand signaling, which is consistent with recent clinical trials suggesting that targeting TIM-3 alone is suboptimal as an immunotherapeutic approach for treating malignancies.

Adenovirus-engineered human dendritic cells induce natural killer cell chemotaxis via CXCL8/IL-8 and CXCL10/IP-10

Recombinant adenovirus-engineered dendritic cells (Ad.DC) are potent vaccines for induction of anti-viral and anti-cancer T cell immunity. The effectiveness of Ad.DC vaccines may depend on the newly described ability of Ad.DC to crosstalk with natural killer (NK) cells via cell-to-cell contact, and to mediate activation, polarization and bridging of innate and adaptive immunity. For this interaction to occur in vivo, Ad.DC must be able to attract NK cells from surrounding tissues or peripheral blood. We developed a novel live mouse imaging system-based NK-cell migration test, and demonstrated for the first time that human Ad.DC induced directional migration of human NK cells across subcutaneous tissues, indicating that Ad.DC-NK cell contact and interaction could occur in vivo. We examined the mechanism of Ad.DC-induced migration of NK cells in vitro and in vivo. Ad.DC produced multiple chemokines previously reported to recruit NK cells, including immunoregulatory CXCL10/IP-10 and proinflammatory CXCL8/IL-8. In vitro chemotaxis experiments utilizing neutralizing antibodies and recombinant human chemokines showed that CXCL10/IP-10 and CXCL8/IL-8 were critical for Ad.DC-mediated recruitment of CD56^hiCD16^- and CD56^loCD16⁺ NK cells, respectively. The importance of CXCL8/IL-8 was further demonstrated in vivo. Pretreatment of mice with the neutralizing anti-CXCL8/IL-8 antibody led to significant inhibition of Ad.DC-induced migration of NK cells in vivo. These data show that Ad.DC can recruit spatially distant NK cells toward a vaccine site via specific chemokines. Therefore, an Ad.DC vaccine can likely induce interaction with endogenous NK cells via transmembrane mediators, and consequently mediate Th1 polarization and amplification of immune functions in vivo.

CD56dim CD16- Natural Killer Cell Profiling in Melanoma Patients Receiving a Cancer Vaccine and Interferon-α

Natural killer (NK) cells are innate cytotoxic and immunoregulatory lymphocytes that have a central role in anti-tumor immunity and play a critical role in mediating cellular immunity in advanced cancer immunotherapies, such as dendritic cell (DC) vaccines. Our group recently tested a novel recombinant adenovirus-transduced autologous DC-based vaccine that simultaneously induces T cell responses against three melanoma-associated antigens for advanced melanoma patients. Here, we examine the impact of this vaccine as well as the subsequent systemic delivery of high-dose interferon-α2b (HDI) on the circulatory NK cell profile in melanoma patients. At baseline, patient NK cells, particularly those isolated from high-risk patients with no measurable disease, showed altered distribution of CD56^dim CD16⁺ and CD56^dim CD16⁻ NK cell subsets, as well as elevated serum levels of immune suppressive MICA, TN5E/CD73 and tactile/CD96, and perforin. Surprisingly, patient NK cells displayed a higher level of activation than those from healthy donors as measured by elevated CD69, NKp44 and CCR7 levels, and enhanced K562 killing. Elevated cytolytic ability strongly correlated with increased representation of CD56^dim CD16⁺ NK cells and amplified CD69 expression on CD56^dim CD16⁺ NK cells. While intradermal DC immunizations did not significantly impact circulatory NK cell activation and distribution profiles, subsequent HDI injections enhanced CD56^bright CD16⁻ NK cell numbers when compared to patients that did not receive HDI. Phenotypic analysis of tumor-infiltrating NK cells showed that CD56^dim CD16⁻ NK cells are the dominant subset in melanoma tumors. NanoString transcriptomic analysis of melanomas resected at baseline indicated that there was a trend of increased CD56^dim NK cell gene signature expression in patients with better clinical response. These data indicate that melanoma patient blood NK cells display elevated activation levels, that intra-dermal DC immunizations did not effectively promote systemic NK cell responses, that systemic HDI administration can modulate NK cell subset distributions and suggest that CD56^dim CD16⁻ NK cells are a unique non-cytolytic subset in melanoma patients that may associate with better patient outcome.

The presence of sinusoidal CD163(+) macrophages in lymph nodes is associated with favorable nodal status in patients with breast cancer

As macrophages are some of the first cells to encounter metastatic tumor cells in sentinel lymph nodes (SLN) and natural killer (NK) cells are critical to the cytotoxicity of abnormal cells, we sought to determine if these cell populations were altered in the presence of nodal metastasis. We used immunohistochemistry to assess the SLN of 47 patients with breast cancer (36 with nodal metastasis and 11 without nodal metastasis) and 10 control lymph nodes. We assessed metastatic areas and nonmetastatic areas separately for CD163, a marker of macrophages, and ANK-1, a marker for precursors of activated NK cells. Positively stained cells were manually counted in multiple high-power fields and averaged. Groups were compared with the Kruskal-Wallis test. Spearman rank order test was used for correlations. There was a lower frequency of CD163(+) macrophages in the SLN of patients with breast cancer (median, 11.0 %; range, 4.1-20.4 %) than controls (median, 16.5 %; range, 8.9-19.6 %; p = 0.002). There were no differences in the expression of ANK between patients with cancer (median, 1.4 %; range, 0.23-6.3 %) and controls (median, 1.5 %; range, 0.60-5.4 %; p = 0.5). In patients with nodal metastasis, the accumulation of CD163(+) cells in the sinuses correlated negatively with CD8(+) tumor-infiltrating lymphocytes (r (2) = 0.23; p = 0.001). These results suggest that the reduction of CD163(+) macrophages in the sinuses of the SLN is associated with nodal metastasis and may have a role in regional immunity.

Role of TNF superfamily ligands in innate immunity

Natural killer (NK) cells and dendritic cells (DCs) are essential effector cells of the innate immune system that rapidly recognize and eliminate microbial pathogens and abnormal cells, and induce and regulate adaptive immune functions. While NK cells express perforin and granzymes in the lysosomal granules and transmembrane tumor necrosis factor superfamily ligands (tmTNFSFL) on the plasma membrane, DCs express only tmTNFSFL on the plasma membrane. Perforin and granzymes are cytolytic molecules, which NK cells use to mediate a secretory/necrotic killing mechanism against rare leukemia cell targets. TNFSFL are pleiotropic transmembrane molecules, which can mediate a variety of important functions such as apoptosis, development of peripheral lymphoid tissues, inflammation and regulation of immune functions. Using tmTNFSFL, NK cells and DCs mediate a cell contact-dependent non-secretory apoptotic cytotoxic mechanism against virtually all types of cancer cells, and cross talk that leads to polarization and reciprocal stimulation and amplification of Th1 type cytokines secreted by NK cells and DCs. In this paper, we review and discuss the supporting evidence of the non-secretory, tmTNFSFL-mediated innate mechanisms of NK cells and DCs, their roles in anticancer immune defense and potential of their modulation and use in prevention and treatment of cancer.

Evolving Therapies For Multiple Sclerosis

The introduction of immunomodulatory and immunosuppressive agents for treatment of multiple sclerosis (MS) has forever altered the natural course of this incurable and disabling neurodegenerative disorder. Despite early diagnosis of relapsing-remitting MS and early initiation of therapy, patients still experience breakthrough relapses and progression of their underlying MS pathology. The imperfect effectiveness, side effects, and toxicity of these agents, emphasize the necessity for development of more effective medications with less adverse events. This chapter presents readers with the most current information on the nature, mechanism(s) of action, and side effects of the most promising experimental agents currently under clinical trials. Some of the agents now at different stages of clinical trial have emerged as both safe and promising. The understanding of MS etiology will lead to the development of increasingly specific, safer, and effective treatments for MS by neuroscientists and neurologists.

Essential role of the TNF-TNFR2 cognate interaction in mouse dendritic cell-natural killer cell crosstalk

Dendritic cells (DCs) and natural killer (NK) cells are essential components of the innate immune system and have a central role in initiation and regulation of adaptive immune responses. During the early critical immune activities, DCs and NK cells interact and reciprocally regulate each other via cell-cell contact. The molecular mediators of the DC-NK-cell crosstalk are largely undefined. In the present study, we show in mice that DC stimulation of NK-cell IFN-gamma secretion requires DC membrane-bound but not secreted products; is increased by augmenting the expression of DC transmembrane tumor necrosis factor (tmTNF) and NK-cell transmembrane TNF receptor type 2 (tmTNFR2); is inhibited by blocking TNF or TNFR2 but not TNFR1; is impaired by knocking out DC Tnf or NK-cell Tnfr2 but not DC Tnfr1 or Tnfr2 and NK-cell Tnf or Tnfr1; and is restored in TNF-deficient DCs by reconstituting tmTNF, but cannot be mimicked by soluble TNF. We also demonstrate that DC TNF and NK-cell TNFR2 are required for DC-mediated NK-cell proliferation and amplification of cytotoxic activity. These novel findings provide the first evidence that DC-NK-cell crosstalk mediates enhancement of NK-cell functions via triggering NK-cell tmTNFR2 by DC tmTNF.

In vivo migration of labeled autologous natural killer cells to liver metastases in patients with colon carcinoma

Background

Besides being the effectors of native anti-tumor cytotoxicity, NK cells participate in T-lymphocyte responses by promoting the maturation of dendritic cells (DC). Adherent NK (A-NK) cells constitute a subset of IL-2-stimulated NK cells which show increased expression of integrins and the ability to adhere to solid surface and to migrate, infiltrate, and destroy cancer. A critical issue in therapy of metastatic disease is the optimization of NK cell migration to tumor tissues and their persistence therein. This study compares localization to liver metastases of autologous A-NK cells administered via the systemic (intravenous, i.v.) versus locoregional (intraarterial, i.a.) routes.

Patients and methods

A-NK cells expanded ex-vivo with IL-2 and labeled with ¹¹¹In-oxine were injected i.a. in the liver of three colon carcinoma patients. After 30 days, each patient had a new preparation of ¹¹¹In-A-NK cells injected i.v. Migration of these cells to various organs was evaluated by SPET and their differential localization to normal and neoplastic liver was demonstrated after i.v. injection of ^99mTc-phytate.

Results

A-NK cells expressed a donor-dependent CD56⁺CD16⁺CD3^- (NK) or CD56⁺CD16⁺CD3⁺ (NKT) phenotype. When injected i.v., these cells localized to the lung before being visible in the spleen and liver. By contrast, localization of i.a. injected A-NK cells was virtually confined to the spleen and liver. Binding of A-NK cells to liver neoplastic tissues was observed only after i.a. injections.

Conclusion

This unique study design demonstrates that A-NK cells adoptively transferred to the liver via the intraarterial route have preferential access and substantial accumulation to the tumor site.