Unconventional human CD61 pairing with CD103 promotes TCR signaling and antigen-specific T cell cytotoxicity

Memory-promoting function of miR-379-5p attenuates CD8+ T cell exhaustion by targeting immune checkpoints

BACKGROUND

MicroRNAs (miRNAs) are epigenetic regulators of T cell maturation and exhaustion. However, the mechanisms by which miRNAs influence T cell function in tumor environments remain unclear. This study focuses on miR-379-5p, which counteracts T cell exhaustion and enhances antitumor responses.

METHODS

Native CD8+ T cells were isolated from the blood of healthy donors and subjected to chronic stimulation to induce exhaustion. RNA sequencing and miRNA sequencing were performed to identify differentially expressed miRNAs. These miRNAs underwent bioinformatics analyses, including DESeq enrichment, immune cell infiltration assessment, and patient prognostic outcomes in The Cancer Genome Atlas data sets to assess their potential involvement in T cell exhaustion and antitumor immunity. The biological functions of miRNA on T cell differentiation, cytotoxic killing, and immune checkpoint regulation were investigated using in vitro assays, OT-I B16F10-OVA models, and patient-derived tumor organoids.

RESULTS

MiR-379-5p is downregulated in exhausted T cells and negatively associated with exhausted tumor-infiltrating lymphocytes in advanced tumors. It correlates positively with better survival outcomes in breast cancer, cervical cancer and melanoma. In CD8+ T cells, miR-379-5p reduces the expression of immune checkpoint proteins T cell immunoglobulin and mucin-domain containing-3 (TIM3) and T cell immunoreceptor with Ig and ITIM domains (TIGIT) by targeting their 3' untranslated region. Overexpression of miR-379-5p in CD8+ T cell promotes differentiation into memory-like T effector cells and enhances cytotoxic killing of cancer cells. The transcription factor nuclear receptor subfamily 4 group A member 1 (NR4A1) with increased expression in exhausted T cells and negatively regulates miR-379, restoring immune checkpoint expression and suppressing cancer-killing ability. In contrast, OT-I T cells expressing ectopic miR-379-5p show increased cytotoxicity against B16F10-OVA tumors in mice. Autologous T cells isolated from patients with breast cancer transduced with miR-379-5p significantly improve killing of tumor organoids derived from the same patients.

CONCLUSIONS

MiR-379-5p acts as an epigenetic tumor suppressor by enhancing CD8+ T cell effector functions and suppressing T cell exhaustion. MiR-379-5p could represent a novel marker and strategy for cancer immunotherapy, offering promising avenues for enhancing antitumor immune responses.

Immune watchdogs: Tissue-resident lymphocytes as key players in cancer defense

Tissue-resident lymphocytes play a crucial role in immune surveillance against cancer, yet their complex interactions and regulatory pathways remain underexplored, highlighting the need for a deeper understanding to enhance cancer immunotherapy strategies. Lymphocytes across the range of innate-adaptive responses can establish long-lasting presence in tissues, exerting a vital function in the local immune response against diverse antigens. These tissue-resident lymphocytes identify antigens and alarmins secreted by microbial infections and non-infectious stresses at barrier locations by closely interacting with epithelial and endothelial cells. Then they initiate effector responses to restore tissue homeostasis. Significantly, this immune defense system has been demonstrated to monitor the processes of epithelial cell transformation, carcinoma advancement, and cancer metastasis at remote locations, so establishing it as an essential element of cancer immunological surveillance. This review aims to elucidate the roles of diverse tissue-resident lymphocyte populations in shaping cancer immune responses and to investigate their synergistic effector mechanisms for advancing cancer immunotherapy.

Focusing on CD8+ T-cell phenotypes: improving solid tumor therapy

Vigorous CD8+ T cells play a crucial role in recognizing tumor cells and combating solid tumors. How T cells efficiently recognize and target tumor antigens, and how they maintain the activity in the "rejection" of solid tumor microenvironment, are major concerns. Recent advances in understanding of the immunological trajectory and lifespan of CD8+ T cells have provided guidance for the design of more optimal anti-tumor immunotherapy regimens. Here, we review the newly discovered methods to enhance the function of CD8+ T cells against solid tumors, focusing on optimizing T cell receptor (TCR) expression, improving antigen recognition by engineered T cells, enhancing signal transduction of the TCR-CD3 complex, inducing the homing of polyclonal functional T cells to tumors, reversing T cell exhaustion under chronic antigen stimulation, and reprogramming the energy and metabolic pathways of T cells. We also discuss how to participate in the epigenetic changes of CD8+ T cells to regulate two key indicators of anti-tumor responses, namely effectiveness and persistence.

Taking down tumors takes atypical integrins

An unexpected integrin pairing enhances T cell receptor signaling and cytotoxicity in antitumor T cells.