Evaluation of the microenvironment formed by interferon-β

Heterogeneity in the cellular microenvironment in vivo affects the variability of reactivity among immune cells. Individual-specific microenvironmental differences play a crucial role in determining macroscopic outcomes, such as the efficacy of immunotherapy and disease progression. The microenviron...

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Published in	Frontiers in chemical biology Vol. 3
Main Authors	Yamagishi, Mai, Hori, Yutaka, Suzuki, Nobutake, Peng, Yu, Harada, Yoshie, Funatsu, Takashi, Ohara, Osamu, Shirasaki, Yoshitaka
Format	Journal Article
Language	English
Published	Frontiers Media S.A 21.01.2025
Subjects	cytokine heterogeneity IFN-β immune response live-cell imaging microenvironment
Online Access	Get full text
ISSN	2813-530X 2813-530X
DOI	10.3389/fchbi.2024.1425571

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Abstract	Heterogeneity in the cellular microenvironment in vivo affects the variability of reactivity among immune cells. Individual-specific microenvironmental differences play a crucial role in determining macroscopic outcomes, such as the efficacy of immunotherapy and disease progression. The microenvironment is also featured by cytokines released from cells, significantly regulating immune cell function. However, the overall understanding, at single-cell resolution, of how cytokines shape the microenvironment and promote paracrine signaling remains unclear. In this manuscript, we propose a methodology that addresses both the microenvironment itself and the response to the microenvironment to comprehend microenvironment behavior at the single-cell level. Our objective is to contribute to the basic understanding of the interplay between immune cells and their microenvironment, with particular relevance to implications for immunotherapy and disease progression.
AbstractList	Heterogeneity in the cellular microenvironment in vivo affects the variability of reactivity among immune cells. Individual-specific microenvironmental differences play a crucial role in determining macroscopic outcomes, such as the efficacy of immunotherapy and disease progression. The microenvironment is also featured by cytokines released from cells, significantly regulating immune cell function. However, the overall understanding, at single-cell resolution, of how cytokines shape the microenvironment and promote paracrine signaling remains unclear. In this manuscript, we propose a methodology that addresses both the microenvironment itself and the response to the microenvironment to comprehend microenvironment behavior at the single-cell level. Our objective is to contribute to the basic understanding of the interplay between immune cells and their microenvironment, with particular relevance to implications for immunotherapy and disease progression. Heterogeneity in the cellular microenvironment in vivo affects the variability of reactivity among immune cells. Individual-specific microenvironmental differences play a crucial role in determining macroscopic outcomes, such as the efficacy of immunotherapy and disease progression. The microenvironment is also featured by cytokines released from cells, significantly regulating immune cell function. However, the overall understanding, at single-cell resolution, of how cytokines shape the microenvironment and promote paracrine signaling remains unclear. In this manuscript, we propose a methodology that addresses both the microenvironment itself and the response to the microenvironment to comprehend microenvironment behavior at the single-cell level. Our objective is to contribute to the basic understanding of the interplay between immune cells and their microenvironment, with particular relevance to implications for immunotherapy and disease progression.
Author	Harada, Yoshie Hori, Yutaka Peng, Yu Suzuki, Nobutake Shirasaki, Yoshitaka Yamagishi, Mai Ohara, Osamu Funatsu, Takashi
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SubjectTerms	cytokine heterogeneity IFN-β immune response live-cell imaging microenvironment
Title	Evaluation of the microenvironment formed by interferon-β
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