Johan W. Molling

Peripheral blood IFN-γ-secreting Vα24+Vβ11+ NKT cell numbers are decreased in cancer patients independent of tumor type or tumor load

Natural killer T (NKT) cells are CD1d‐restricted lymphoid cells and are characterized by an invariant T‐cell receptor, which in humans consists of a Vα24 chain paired with a Vβ11 chain. These cells are known for their rapid production of large amounts of cytokines (e.g., IFN‐γ and IL‐4), thereby modulating other cells of the immune system such as T cells, NK cells and dendritic cells. NKT cells have been reported to play important regulatory roles in many immune responses, including antitumor immune responses. Here, we demonstrate an age‐dependent decrease in circulating Vα24+Vβ11+ NKT cell numbers in both healthy controls and cancer patients and demonstrate that in both groups females have higher NKT cell levels compared to males. In a large group of 120 cancer patients, we show that circulating Vα24+Vβ11+ NKT cell numbers are about 50% lower than in age‐ and gender‐matched healthy controls and that this decrease is independent of tumor type or tumor load. This decrease was not restored upon tumor removal by means of surgery or radiotherapy. Even though the percentage of NKT cells that secrete IFN‐γ, as detected by ELISPOT, is normal in cancer patients, the absolute number of circulating IFN‐γ‐secreting NKT cells is reduced. Together, our results suggest that the reduced circulating Vα24+Vβ11+ NKT cell numbers in cancer patients are not affected by tumor load, but might actually reflect a risk factor for tumor development, e.g., by hampering efficient tumor immunosurveillance.

Low Levels of Circulating Invariant Natural Killer T Cells Predict Poor Clinical Outcome in Patients With Head and Neck Squamous Cell Carcinoma

PURPOSEnEvading antitumor immune responses is an important aspect of the pathogenesis of head and neck squamous cell carcinoma (HNSCC). Invariant CD1d-restricted natural killer T (iNKT) cells play an allegedly pivotal role in such responses via transactivation of immune effector cells. It has been reported that iNKT cells are reduced in peripheral blood of cancer patients compared with healthy controls. Here, we investigated whether the extent of this deficiency affected disease outcome in HNSCC patients.nnnPATIENTS AND METHODSnIn a prospective study, circulating iNKT cell numbers were evaluated in 47 patients before radiotherapy. Patients were stratified in three groups based on iNKT cell levels, and clinical data were obtained during a median follow-up period of 31 months.nnnRESULTSnA small, compared with an intermediate or large, circulating iNKT cell fraction was significantly associated with decreased 3-year overall survival rate (39% v 75% and 92%, respectively), disease-specific survival rate (43% v 87% and 92%, respectively), and locoregional control rate (31% v 74% and 92%, respectively) in HNSCC patients. Cox regression revealed that the iNKT cell level, as well as clinical T stage, was an independent prognostic parameter even after correction for the confounding effect of age.nnnCONCLUSIONnA severe circulating iNKT cell deficiency was related to poor clinical outcome in HNSCC patients, suggesting their critical contribution to antitumor immune responses. Furthermore, screening for iNKT cell levels may be useful for determining which patients can benefit from immunotherapeutic adjuvant therapies aimed at reconstitution of the circulating iNKT cell pool.

Cutting Edge: Rapid Recovery of NKT Cells upon Institution of Highly Active Antiretroviral Therapy for HIV-1 Infection

CD1d-restricted NKT cells play important regulatory roles in various immune responses and are rapidly and selectively depleted upon infection with HIV-1. The cause of this selective depletion is incompletely understood, although it is in part due to the high susceptibility of CD4+ NKT cells to direct infection and subsequent cell death by HIV-1. Here, we demonstrate that highly active antiretroviral therapy (HAART) results in the rapid recovery of predominantly CD4− NKT cells with kinetics that are strikingly similar to those of mainstream T cells. As it is well known that the early recovery of mainstream T cells in response to HAART is due to their redistribution from tissues to the circulation, our data suggest that the selective depletion of circulating NKT cells is likely due to a combination of cell death and tissue sequestration and indicates that HAART can improve immune functions by reconstituting both conventional T cells and immunoregulatory NKT cells.

Chronically stimulated mouse invariant NKT cell lines have a preserved capacity to enhance protection against experimental tumor metastases.

In pre-clinical models, CD1d restricted invariant Natural Killer T (iNKT) cells play a pivotal role in natural anti-tumor immune responses, mainly by trans-activating cells of both the innate and adaptive arms via swift and potent cytokine secretion. We have previously reported that patients with a severely reduced circulating iNKT cell pool have a poor clinical response to radio therapy of head and neck squamous cell carcinoma. Therefore, these patients might benefit from an immunotherapeutic approach aimed at the increase of circulating levels of iNKT cells. Furthermore, we have generated both human and mouse iNKT cell lines, and demonstrated that they had retained the capacity to release both Th1 and Th2 type cytokines even after long-term in vitro expansion using alpha-galactosylceramide (alphaGalCer) pulsed dendritic cells (DC). Here, we establish, in a pre-clinical tumor model that the large scale long lived polyclonal iNKT cell lines we generated have a preserved capacity to evoke an in vivo cytokine storm upon adoptive transfer, independently of supplemental alphaGalCer administration. This results in an augmented NK cell mediated protection against B16.F10 experimental lung metastases in vivo. These findings underscore the potential of autologous adoptive transfer of ex vivo expanded iNKT cells as a strategy to enhance immunotherapeutic modalities for the treatment of cancer patients.