Myelopoiesis, metabolism and therapy: A crucial crossroads in cancer progression

Antonio Sica; Valentina Guarneri; Alessandra Gennari

doi:10.15698/cst2019.09.197

Myelopoiesis, metabolism and therapy: A crucial crossroads in cancer progression

Antonio Sica
, Valentina Guarneri
, Alessandra Gennari

Risultato della ricerca: Contributo su rivista › Articolo di review › peer review

Abstract

Cancers promote immunological stresses that induce alterations of the myelopoietic output, defined as emergency myelopoiesis, which lead to the generation of different myeloid populations endowed with tumor-promoting activities. New evidence indicates that acquisition of this tumor-promoting phenotype by myeloid cells is the result of a multistep process, encompassing initial events originating into the bone marrow and later steps operating in the tumor microenvironment. The careful characterization of these sequential mechanisms is likely to offer new potential therapeutic opportunities. Here, we describe relevant mechanisms of myeloid cells reprogramming that instate immune dysfunctions and limit effective responses to anticancer therapy and discuss the influence that metabolic events, as well as chemotherapy, elicit on such events.

Lingua originale	Inglese
pagine (da-a)	284-294
Numero di pagine	11
Rivista	Cell Stress
Volume	3
Numero di pubblicazione	9
DOI	https://doi.org/10.15698/cst2019.09.197
Stato di pubblicazione	Pubblicato - set 2019

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10.15698/cst2019.09.197

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@article{ce00cd8295ab49298a7d6f76cc11ae1a,

title = "Myelopoiesis, metabolism and therapy: A crucial crossroads in cancer progression",

abstract = "Cancers promote immunological stresses that induce alterations of the myelopoietic output, defined as emergency myelopoiesis, which lead to the generation of different myeloid populations endowed with tumor-promoting activities. New evidence indicates that acquisition of this tumor-promoting phenotype by myeloid cells is the result of a multistep process, encompassing initial events originating into the bone marrow and later steps operating in the tumor microenvironment. The careful characterization of these sequential mechanisms is likely to offer new potential therapeutic opportunities. Here, we describe relevant mechanisms of myeloid cells reprogramming that instate immune dysfunctions and limit effective responses to anticancer therapy and discuss the influence that metabolic events, as well as chemotherapy, elicit on such events.",

keywords = "Cancer, Chemotherapy, Emergency myelopoiesis, Immune-metabolism, Myeloidderived suppressor cells, Tumor-associated macrophages",

author = "Antonio Sica and Valentina Guarneri and Alessandra Gennari",

note = "Publisher Copyright: {\textcopyright} 2019 Sica et al.",

year = "2019",

month = sep,

doi = "10.15698/cst2019.09.197",

language = "English",

volume = "3",

pages = "284--294",

journal = "Cell Stress",

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TY - JOUR

T1 - Myelopoiesis, metabolism and therapy

T2 - A crucial crossroads in cancer progression

AU - Sica, Antonio

AU - Guarneri, Valentina

AU - Gennari, Alessandra

PY - 2019/9

Y1 - 2019/9

N2 - Cancers promote immunological stresses that induce alterations of the myelopoietic output, defined as emergency myelopoiesis, which lead to the generation of different myeloid populations endowed with tumor-promoting activities. New evidence indicates that acquisition of this tumor-promoting phenotype by myeloid cells is the result of a multistep process, encompassing initial events originating into the bone marrow and later steps operating in the tumor microenvironment. The careful characterization of these sequential mechanisms is likely to offer new potential therapeutic opportunities. Here, we describe relevant mechanisms of myeloid cells reprogramming that instate immune dysfunctions and limit effective responses to anticancer therapy and discuss the influence that metabolic events, as well as chemotherapy, elicit on such events.

AB - Cancers promote immunological stresses that induce alterations of the myelopoietic output, defined as emergency myelopoiesis, which lead to the generation of different myeloid populations endowed with tumor-promoting activities. New evidence indicates that acquisition of this tumor-promoting phenotype by myeloid cells is the result of a multistep process, encompassing initial events originating into the bone marrow and later steps operating in the tumor microenvironment. The careful characterization of these sequential mechanisms is likely to offer new potential therapeutic opportunities. Here, we describe relevant mechanisms of myeloid cells reprogramming that instate immune dysfunctions and limit effective responses to anticancer therapy and discuss the influence that metabolic events, as well as chemotherapy, elicit on such events.

KW - Cancer

KW - Chemotherapy

KW - Emergency myelopoiesis

KW - Immune-metabolism

KW - Myeloidderived suppressor cells

KW - Tumor-associated macrophages

UR - https://www.scopus.com/pages/publications/85077912798

U2 - 10.15698/cst2019.09.197

DO - 10.15698/cst2019.09.197

M3 - Review article

SN - 2523-0204

VL - 3

SP - 284

EP - 294

JO - Cell Stress

JF - Cell Stress

IS - 9

ER -

Myelopoiesis, metabolism and therapy: A crucial crossroads in cancer progression

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