生物
肝细胞
癌变
慢性应激
适应(眼睛)
细胞生物学
转录组
功能(生物学)
脂肪性肝炎
生物信息学
炎症
微阵列分析技术
癌症研究
多细胞生物
微阵列
氧化应激
启动(农业)
计算生物学
代谢适应
机制(生物学)
调解人
神经科学
信号转导
代谢组学
戒毒(替代医学)
慢性肝病
细胞适应
细胞生长
代谢途径
慢性病
作者
Constantine N. Tzouanas,Jessica E.S. Shay,Marc S. Sherman,Adam J. Rubin,Benjamin E. Mead,Tyler T. Dao,Junyan Tao,Brandon M. Lehrich,George Eng,Jeffrey Patterson-Fortin,Titus Butzlaff,Miyeko Mana,Kellie E. Kolb,Chad Walesky,Brian J. Pepe-Mooney,Colton Smith,Sanjay M. Prakadan,Michelle L. Ramseier,Yuzhou Evelyn Tong,Julia Joung
出处
期刊:Cell
[Cell Press]
日期:2025-12-22
卷期号:189 (2): 435-460.e28
被引量:4
标识
DOI:10.1016/j.cell.2025.11.031
摘要
During chronic stress, cells must support both tissue function and their own survival. Hepatocytes perform metabolic, synthetic, and detoxification roles, but chronic nutrient imbalances can induce hepatocyte death and precipitate metabolic dysfunction-associated steatohepatitis (MASH, formerly NASH). Despite prior work identifying stress-induced drivers of hepatocyte death, chronic stress' functional impact on surviving cells remains unclear. Through cross-species longitudinal single-cell multi-omics, we show that ongoing stress drives prognostic developmental and cancer-associated programs in non-transformed hepatocytes while reducing their mature functional identity. Creating integrative computational methods, we identify and then experimentally validate master regulators perturbing hepatocyte functional balance, increasing proliferation under stress, and directly priming future tumorigenesis. Through geographic regression on human tissue microarray spatial transcriptomics, we uncover spatially structured multicellular communities and signaling interactions shaping stress responses. Our work reveals how cells' early solutions to chronic stress can prime future tumorigenesis and outcomes, unifying diverse modes of cellular dysfunction around core actionable mechanisms.
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