APA
Ardavín, Carlos & Älvarez-Ladrón, Natalia & Ferriz, Margarita & Gutiérrez-González, Alejandra & Vega-Pérez, Adrián .Mouse Tissue-Resident Peritoneal Macrophages in Homeostasis, Repair, Infection, and Tumor Metastasis.
ISO 690
Ardavín, Carlos & Älvarez-Ladrón, Natalia & Ferriz, Margarita & Gutiérrez-González, Alejandra & Vega-Pérez, Adrián. Mouse Tissue-Resident Peritoneal Macrophages in Homeostasis, Repair, Infection, and Tumor Metastasis.
https://hdl.handle.net/20.500.12080/44936
Résumé:
Large peritoneal macrophages (LPMs) are long-lived, tissue-resident
macrophages, formed during embryonic life, developmentally and functionally
confined to the peritoneal cavity. LPMs provide the first line of defense against
life-threatening pathologies of the peritoneal cavity, such as abdominal sepsis,
peritoneal metastatic tumor growth, or peritoneal injuries caused by trauma,
or abdominal surgery. Apart from their primary phagocytic function,
reminiscent of primitive defense mechanisms sustained by coelomocytes in
the coelomic cavity of invertebrates, LPMs fulfill an essential homeostatic
function by achieving an efficient clearance of apoptotic, that is crucial for the
maintenance of self-tolerance. Research performed over the last few years, in
mice, has unveiled the mechanisms by which LPMs fulfill a crucial role in
repairing peritoneal injuries and controlling microbial and parasitic infections,
reflecting that the GATA6-driven LPM transcriptional program can be
modulated by extracellular signals associated with pathological conditions. In
contrast, recent experimental evidence supports that peritoneal tumors can
subvert LPM metabolism and function, leading to the acquisition of a
tumor-promoting potential. The remarkable functional plasticity of LPMs can
be nevertheless exploited to revert tumor-induced LPM protumor potential,
providing the basis for the development of novel immunotherapeutic
approaches against peritoneal tumor metastasis based on macrophage
reprogramming.