Evelyn Menares scite author profile

Tissue-resident memory CD8+ T (Trm) cells mediate potent local innate and adaptive immune responses and play a central role against solid tumors. However, whether Trm cells cross-talk with dendritic cells (DCs) to support anti-tumor immunity remains unclear. Here we show that antigen-specific activation of skin Trm cells leads to maturation and migration to draining lymph nodes of cross-presenting dermal DCs. Tumor rejection mediated by Trm cells triggers the spread of cytotoxic CD8+ T cell responses against tumor-derived neo- and self-antigens via dermal DCs. These responses suppress the growth of intradermal tumors and disseminated melanoma lacking the Trm cell-targeted epitope. Moreover, analysis of RNA sequencing data from human melanoma tumors reveals that enrichment of a Trm cell gene signature associates with DC activation and improved survival. This work unveils the ability of Trm cells to amplify the breath of cytotoxic CD8+ T cell responses through DCs, thereby strengthening anti-tumor immunity.

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Vaccination-induced skin-resident memory CD8⁺T cells mediate strong protection against cutaneous melanoma

Gálvez-Cancino

López

Menares

et al. 2018

OncoImmunology

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Memory CD8+ T cell responses have the potential to mediate long-lasting protection against cancers. Resident memory CD8+ T (Trm) cells stably reside in non-lymphoid tissues and mediate superior innate and adaptive immunity against pathogens. Emerging evidence indicates that Trm cells develop in human solid cancers and play a key role in controlling tumor growth. However, the specific contribution of Trm cells to anti-tumor immunity is incompletely understood. Moreover, clinically applicable vaccination strategies that efficiently establish Trm cell responses remain largely unexplored and are expected to strongly protect against tumors. Here we demonstrated that a single intradermal administration of gene- or protein-based vaccines efficiently induces specific Trm cell responses against models of tumor-specific and self-antigens, which accumulated in vaccinated and distant non-vaccinated skin. Vaccination-induced Trm cells were largely resistant to in vivo intravascular staining and antibody-dependent depletion. Intradermal, but not intraperitoneal vaccination, generated memory precursors expressing skin-homing molecules in circulation and Trm cells in skin. Interestingly, vaccination-induced Trm cell responses strongly suppressed the growth of B16F10 melanoma, independently of circulating memory CD8+ T cells, and were able to infiltrate tumors. This work highlights the therapeutic potential of vaccination-induced Trm cell responses to achieve potent protection against skin malignancies.

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Development of a recombinant vaccine against ISA virus based on synthetic genes

Valenzuela¹,

Menares²,

Gajardo³

et al. 2013

Fish & Shellfish Immunology

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Identification of B lymphocytes in zebrafish

Rubio

Wittamer

Menares

et al. 2013

Fish & Shellfish Immunology

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Evelyn Menares

Tissue-resident memory CD8+ T cells amplify anti-tumor immunity by triggering antigen spreading through dendritic cells

Vaccination-induced skin-resident memory CD8⁺T cells mediate strong protection against cutaneous melanoma

Development of a recombinant vaccine against ISA virus based on synthetic genes

Identification of B lymphocytes in zebrafish

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Evelyn Menares

Tissue-resident memory CD8+ T cells amplify anti-tumor immunity by triggering antigen spreading through dendritic cells

Vaccination-induced skin-resident memory CD8+T cells mediate strong protection against cutaneous melanoma

Development of a recombinant vaccine against ISA virus based on synthetic genes

Identification of B lymphocytes in zebrafish

Contact Info

Product

Resources

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Vaccination-induced skin-resident memory CD8⁺T cells mediate strong protection against cutaneous melanoma