Spatial transcriptomics reveals asymmetric cellular responses to injury in the regenerating spiny mouse (Acomys) ear

Autor(en): van Beijnum, Henriette
Koopmans, Tim
Tomasso, Antonio
Disela, Vanessa
te Lindert, Severin
Bakkers, Jeroen
Alemany, Anna
Berezikov, Eugene
Bartscherer, Kerstin 
Stichwörter: Biochemistry & Molecular Biology; Biotechnology & Applied Microbiology; EXPRESSION; Genetics & Heredity; GROWTH; IDENTIFICATION; MACROPHAGES; MATRIX; RNA TOMOGRAPHY; SIGN; SKIN; TISSUE REGENERATION
Erscheinungsdatum: 2023
Herausgeber: COLD SPRING HARBOR LAB PRESS, PUBLICATIONS DEPT
Enthalten in: GENOME RESEARCH
Band: 33
Ausgabe: 8
Startseite: 1424
Seitenende: 1437
Zusammenfassung: 
In contrast to other mammals, the spiny mouse (Acomys) regenerates skin and ear tissue, which includes hair follicles, glands, and cartilage, in a scar-free manner. Ear punch regeneration is asymmetric with only the proximal wound side participating in regeneration. Here, we show that cues originating from the proximal side are required for normal regeneration and use spatially resolved transcriptomics (tomo-seq) to understand the molecular and cellular events underlying this process. Analyzing gene expression across the ear and comparing expression modules between proximal and distal wound sides, we identify asymmetric gene expression patterns and pinpoint regenerative processes in space and time. Moreover, using a comparative approach with nonregenerative rodents (Mus, Meriones), we strengthen a hypothesis in which particularities in the injury-induced immune response may be one of the crucial determinants for why spiny mice regenerate whereas their relatives do not. Our data are available in SpinyMine, an easy-to-use and expandable web-based tool for exploring Acomys regeneration-associated gene expression.
ISSN: 1088-9051
DOI: 10.1101/gr.277538.122

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