Liquid-liquid phase separation: an emerging perspective on the tumorigenesis, progression, and treatment of tumors
Qin Jian, Qi Xu, Sirui Xiang, Rongrong Wang, Chuchu Wang, Boxun Zhang, Ruli Li, Junzhi Lin, Chuan Zheng

TL;DR
This paper explores how liquid-liquid phase separation (LLPS) influences tumor development and treatment, offering a new perspective beyond traditional genetic mutation theories.
Contribution
The paper introduces a dual-dimensional framework to holistically analyze LLPS's role in tumor biology and treatment.
Findings
LLPS regulates normal cellular processes like gene expression and DNA damage response.
LLPS malfunction contributes to tumorigenesis through mechanisms like epigenetic defects and DDR repair issues.
LLPS-based therapeutic strategies show promise for developing targeted antitumor drugs.
Abstract
Research in the field of Liquid-liquid phase separation (LLPS) breaks through the classical theory of gene mutation in the mechanism of tumorigenesis and provides a new perspective for comprehending tumors from a network regulation standpoint. Although there have been some reviews discussing the relationship between LLPS and tumors, they often focus on elaborating isolated mechanisms. In the face of complex and diverse disease characteristics, it is necessary to summarize the correlation between LLPS and tumors through a linked and holistic approach to reveal the deep-rooted relationships among tumor disease mechanisms. Therefore, we adopt a dual-dimensional analytical framework, where one dimension (the longitude) integrates cellular physiology, tumorigenesis, progression, and therapeutic responses, while the other dimension (the latitude) focuses on the pathogenic characteristics of…
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Taxonomy
TopicsRNA Research and Splicing · Lipid metabolism and biosynthesis · RNA modifications and cancer
