Mobina Tousian, Christian Solis Calero, Julio Cesar Perez Sansalvador
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引用次数: 0
Abstract
The tumor microenvironment (TME) plays a critical role in cancer cell
proliferation, invasion, and resistance to therapy. A principal component of
the TME is the tumor immune microenvironment (TIME), which includes various
immune cells such as macrophages. Depending on the signals received from
environmental elements like IL-4 or IFN-$\gamma$, macrophages can exhibit
pro-inflammatory (M1) or anti-inflammatory (M2) phenotypes. This study uses an
enhanced agent-based model to simulate interactions within the TIME, focusing
on the dynamic behavior of macrophages. We examine the response of cancer cell
populations to alterations in macrophages, categorized into three different
behaviors: M0 (initial-inactive), M1 (immune-upholding), and M2
(immune-repressing), as well as environmental differentiations. The results
highlight the significant impact of macrophage modulation on tumor
proliferation and suggest potential therapeutic strategies targeting these
immune cells.
肿瘤微环境(TME)在癌细胞增殖、侵袭和抗药性方面起着至关重要的作用。肿瘤微环境的一个主要组成部分是肿瘤免疫微环境(TIME),其中包括各种免疫细胞,如巨噬细胞。根据从IL-4或IFN-$\gamma$等环境要素接收到的信号,巨噬细胞可表现出促炎症(M1)或抗炎症(M2)表型。本研究使用基于增强代理的模型模拟 TIME 内的相互作用,重点关注巨噬细胞的动态行为。我们研究了癌细胞群对巨噬细胞变化的反应,并将其分为三种不同的行为:M0(初始不活跃)、M1(免疫维持)和 M2(免疫抑制),以及环境分化。研究结果凸显了巨噬细胞调节对肿瘤扩散的重大影响,并提出了针对这些免疫细胞的潜在治疗策略。
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