Renal Cell Carcinoma-Infiltrating CD3low Vγ9Vδ1 T Cells Represent Potentially Novel Anti-Tumor Immune Players

The future of cellular therapy for the treatment of renal cell carcinoma

INTRODUCTION

Systemic treatment options for renal cell carcinoma (RCC) have expanded considerably in recent years, and both tyrosine kinase inhibitors and immune checkpoint inhibitors, alone or in combination, have entered the clinical arena. Adoptive cell immunotherapies have recently revolutionized the treatment of cancer and hold the promise to further advance the treatment of RCC.

AREAS COVERED

In this review, we summarize the latest preclinical and clinical development in the field of adoptive cell immunotherapy for the treatment of RCC, focusing on lymphokine-activated killer (LAK) cells, cytokine-induced killer (CIK) cells, tumor-infiltrating T cells (TILs), TCR-engineered T cells, chimeric antigen receptor (CAR) T cells, and dendritic cell vaccination strategies. Perspectives on emerging cellular products including CAR NK cells, CAR macrophages, as well as γδ T cells are also included.

EXPERT OPINION

So far, areas of greater therapeutic success of adoptive cell therapies include the adjuvant administration of CIK cells and the transfer of anti-CD70 CAR T cells in patients with metastatic RCC. Bench to bedside and back research will be needed to overcome current limitations of adoptive cell therapies in RCC, primarily aiming at improving the safety of immune cell products, optimizing their antitumor activity and generating off-the-shelf products ready for clinical use.

Agonists, Antagonists and Receptors of Somatostatin: Pathophysiological and Therapeutical Implications in Neoplasias

Somatostatin is a peptide that plays a variety of roles such as neurotransmitter and endocrine regulator; its actions as a cell regulator in various tissues of the human body are represented mainly by inhibitory effects, and it shows potent activity despite its physiological low concentrations. Somatostatin binds to specific receptors, called somatostatin receptors (SSTRs), which have different tissue distributions and associated signaling pathways. The expression of SSTRs can be altered in various conditions, including tumors; therefore, they can be used as biomarkers for cancer cell susceptibility to certain pharmacological agents and can provide prognostic information regarding disease evolution. Moreover, based on the affinity of somatostatin analogs for the different types of SSTRs, the therapeutic range includes conditions such as tumors, acromegaly, post-prandial hypotension, hyperinsulinism, and many more. On the other hand, a number of somatostatin antagonists may prove useful in certain medical settings, based on their differential affinity for SSTRs. The aim of this review is to present in detail the principal characteristics of all five SSTRs and to provide an overview of the associated therapeutic potential in neoplasias.

γδ T-cells in human malignancies: insights from single-cell studies and analytical considerations

γδ T-cells are a rare population of T-cells with both adaptive and innate-like properties. Despite their low prevalence, they have been found to be implicated various human diseases. γδ T-cell infiltration has been associated with improved clinical outcomes in solid cancers, prompting renewed interest in understanding their biology. To date, their biology remains elusive due to their low prevalence. The introduction of high-resolution single-cell sequencing has allowed various groups to characterize key effector subsets in various contexts, as well as begin to elucidate key regulatory mechanisms directing the differentiation and activity of these cells. In this review, we will review some of insights obtained from single-cell studies of γδ T-cells across various malignancies and highlight some important questions that remain unaddressed.

A retrospective cohort study of the impact of peripheral blood gamma- delta T cells to prognosis of nonmetastatic renal cell cancer after curative resection

AIM

Gamma-delta-T cells (γδT) have potential antitumor roles and have recently been applied in adoptive immunotherapy. In the present study, we focused on the proportion of γδT cells in the peripheral blood just before surgery for renal cell cancer (RCC) and investigated whether their proportion affected recurrence-free survival (RFS) and overall survival (OS) retrospectively.

PATIENTS AND METHODS

A total of 137 patients with localized, non-metastatic RCC who received surgery at our institutes were analyzed retrospectively. The patients were divided into 2 groups: normal and low γδT cell groups based on the proportion of peripheral blood γδT cells. Kaplan-Meier curves were constructed to access the association of the proportion of peripheral blood γδT cells to RFS and OS. Cox regression were also constructed to access the risks to prognosis. Uni- and multivariate logistic regressions were performed to access associations between risk factors and, RFS and OS.

RESULTS

Among 137 patients, 40 had a proportion of γδT cells in peripheral blood of less than 1%, which was below the normal range. The remaining 97 patients had these cells in peripheral blood at 1% or higher. In the groups with low γδT cells, 13 patients had recurrences, and 9 patients dies during the observation period. In the groups with normal γδT cells, 16 patients had recurrences, and 8 patients died. The normal γδT cell group demonstrated significantly better prognosis in terms of RFS and OS. Multivariate analysis revealed that a low hemoglobin level, a low proportion of γδT cells, and a high pathological T stage (pT) were statistically independent risk factors for RFS. Age, albumin, C-reactive protein (CRP), % γδT cells, and pT were statistically significant factors affecting OS and only pT was an independent risk factor by multivariate analysis.

CONCLUSION

A low proportion of γδT cells was identified as one of the risk factors for RFS. Our findings will provide clues to develop strategies for early intervention in preventing recurrence even after complete resection of RCC and, such as adoptive immunotherapy using autologous γδT cells in patients with a low proportion of γδT cells.

The Diverse Roles of γδ T Cells in Cancer: From Rapid Immunity to Aggressive Lymphoma

γδ T cells are unique players in shaping immune responses, lying at the intersection between innate and adaptive immunity. Unlike conventional αβ T cells, γδ T cells largely populate non-lymphoid peripheral tissues, demonstrating tissue specificity, and they respond to ligands in an MHC-independent manner. γδ T cells display rapid activation and effector functions, with a capacity for cytotoxic anti-tumour responses and production of inflammatory cytokines such as IFN-γ or IL-17. Their rapid cytotoxic nature makes them attractive cells for use in anti-cancer immunotherapies. However, upon transformation, γδ T cells can give rise to highly aggressive lymphomas. These rare malignancies often display poor patient survival, and no curative therapies exist. In this review, we discuss the diverse roles of γδ T cells in immune surveillance and response, with a particular focus on cancer immunity. We summarise the intriguing dichotomy between pro- and anti-tumour functions of γδ T cells in solid and haematological cancers, highlighting the key subsets involved. Finally, we discuss potential drivers of γδ T-cell transformation, summarising the main γδ T-cell lymphoma/leukaemia entities, their clinical features, recent advances in mapping their molecular and genomic landscapes, current treatment strategies and potential future targeting options.