A battle between two biological singularities: Immune response vs. cancer.

IF 1.6 Q4 BIOPHYSICS Biophysics and physicobiology Pub Date : 2024-02-09 eCollection Date: 2024-01-01 DOI:10.2142/biophysico.bppb-v21.s006
Tomoya Katakai, Taku Okazaki
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Abstract

In a post-growth multicellular organism, the phenomenon in which a small number of rare cells can be the starting point for inducing a dramatic change in the entire system is considered a "biological singularity." The immune response and cancer can be regarded as singularity phenomena in mammals, but their nature is fundamentally different. The immune response is considered a "programmed" singularity, whereas cancer is an "unprogrammed" singularity. These two systems perpetually engage in a cycle of attack and defense within the organism. The outcome is depending on the wining system, which determines whether the individual experiences a state resembling light or darkness. However, the overall mechanism of the competition remains unclear and is expected to be elucidated with future innovations in bioimaging technologies. Immune checkpoint blockade therapy is a means by which the two singularity balances can be artificially manipulated; therefore, mechanistic insight is necessary for cancer treatment strategies. Altogether, these findings provide a different perspective crucial for understanding the behavior of dynamic cell populations in multicellular organisms.

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两个生物奇点之间的较量:免疫反应与癌症
在生长后的多细胞生物体中,少数稀有细胞可能成为诱导整个系统发生巨大变化的起点,这种现象被认为是 "生物奇异现象"。免疫反应和癌症可被视为哺乳动物的奇异现象,但它们的性质却有着本质的不同。免疫反应被认为是一种 "程序化 "奇异现象,而癌症则是一种 "非程序化 "奇异现象。这两个系统在生物体内不断进行攻防循环。结果取决于获胜的系统,它决定了个体是经历类似光明还是黑暗的状态。然而,竞争的整体机制仍不清楚,有望通过未来生物成像技术的创新加以阐明。免疫检查点阻断疗法是人为操纵两种奇异性平衡的一种手段;因此,对癌症治疗策略的机制进行深入研究是必要的。总之,这些发现提供了一个不同的视角,对于理解多细胞生物体中动态细胞群的行为至关重要。
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