Irene Olivera scite author profile

One of the most important mechanisms by which cancer fosters its own development is the generation of an immune microenvironment that inhibits or impairs antitumor immune responses. A cancer permissive immune microenvironment is present in a large proportion of the patients with cancer who do not respond to immunotherapy approaches intended to trigger preexisting antitumor immune responses, for instance, immune checkpoint blockade. High circulating levels of IL8 in patients with cancer quite accurately predict those who will not benefit from checkpoint-based immunotherapy. IL8 has been reported to favor cancer progression and metastases via different mechanisms, including proangiogenesis and the maintenance of cancer stem cells, but its ability to attract and functionally modulate neutrophils and macrophages is arguably one of the most important factors. IL8 does not only recruit neutrophils to tumor lesions, but also triggers the extrusion of neutrophil extracellular traps (NET). The relevance and mechanisms underlying the contribution of both neutrophils and NETs to cancer development and progression are starting to be uncovered and include both direct effects on cancer cells and changes in the tumor microenvironment, such as facilitating metastasis, awakening micrometastases from dormancy, and facilitating escape from cytotoxic immune cells. Blockade of IL8 or its receptors (CXCR1 and CXCR2) is being pursued in drug development, and clinical trials alone or in combination with anti-PD-L1 checkpoint inhibitors are already ongoing.

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Intratumor Adoptive Transfer of IL-12 mRNA Transiently Engineered Antitumor CD8+ T Cells

Etxeberría¹,

Bolaños²,

Quetglas³

et al. 2019

Cancer Cell

108

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Novel strategies exploiting interleukin-12 in cancer immunotherapy

Cirella¹,

Luri-Rey²,

Trani³

et al. 2022

Pharmacology & Therapeutics

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Estrogen Receptor-Alpha (ESR1) Governs the Lower Female Reproductive Tract Vulnerability to Candida albicans

et al. 2018

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Estradiol-based therapies predispose women to vaginal infections. Moreover, it has long been known that neutrophils are absent from the vaginal lumen during the ovulatory phase (high estradiol). However, the mechanisms that regulate neutrophil influx to the vagina remain unknown. We investigated the neutrophil transepithelial migration (TEM) into the vaginal lumen. We revealed that estradiol reduces the CD44 and CD47 epithelial expression in the vaginal ectocervix and fornix, which retain neutrophils at the apical epithelium through the estradiol receptor-alpha. In contrast, luteal progesterone increases epithelial expression of CD44 and CD47 to promote neutrophil migration into the vaginal lumen and Candida albicans destruction. Distinctive to vaginal mucosa, neutrophil infiltration is contingent to sex hormones to prevent sperm from neutrophil attack; although it may compromise immunity during ovulation. Thus, sex hormones orchestrate tolerance and immunity in the vaginal lumen by regulating neutrophil TEM.

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Irene Olivera

IL8, Neutrophils, and NETs in a Collusion against Cancer Immunity and Immunotherapy

Intratumor Adoptive Transfer of IL-12 mRNA Transiently Engineered Antitumor CD8+ T Cells

Novel strategies exploiting interleukin-12 in cancer immunotherapy

Estrogen Receptor-Alpha (ESR1) Governs the Lower Female Reproductive Tract Vulnerability to Candida albicans

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