The orchestrated cellular and molecular responses of the kidney to endotoxin define a precise sepsis timeline.

IF: 8.713

Cited by: 58

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Abstract

Sepsis is a dynamic state that progresses at variable rates and has life-threatening consequences. Staging patients along the sepsis timeline requires a thorough knowledge of the evolution of cellular and molecular events at the tissue level. Here, we investigated the kidney, an organ central to the pathophysiology of sepsis. Single-cell RNA-sequencing in a murine endotoxemia model revealed the involvement of various cell populations to be temporally organized and highly orchestrated. Endothelial and stromal cells were the first responders. At later time points, epithelial cells upregulated immune-related pathways while concomitantly downregulating physiological functions such as solute homeostasis. Sixteen hours after endotoxin, there was global cell-cell communication failure and organ shutdown. Despite this apparent organ paralysis, upstream regulatory analysis showed significant activity in pathways involved in healing and recovery. This rigorous spatial and temporal definition of murine endotoxemia will uncover precise biomarkers and targets that can help stage and treat human sepsis.

Keywords

smFISH

Seurat

Spatial Temporal Transcriptomics

Spatial Transcriptomics

RNAscope

acute kidney injury

human

immunology

inflammation

medicine

mouse

sepsis

single-cell RNA-seq

Authors

Janosevic, Danielle

Myslinski, Jered

McCarthy, Thomas W

Zollman, Amy

Syed, Farooq

Xuei, Xiaoling

Gao, Hongyu

Liu, Yun-Long

Collins, Kimberly S

Cheng, Ying-Hua

Winfree, Seth

El-Achkar, Tarek M

Maier, Bernhard

Melo Ferreira, Ricardo

Eadon, Michael T

Hato, Takashi

Dagher, Pierre C

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