肝臓の治癒を助ける細胞を突き止める(Study pinpoints cell that helps liver heal)

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2024-05-01 エディンバラ大学

エディンバラ大学の研究チームは、急性肝不全の患者から取得した肝臓組織を用いて、肝機能の急速な喪失に伴う細胞の増殖と再生の兆候を研究しました。彼らは、多くの細胞が増殖能を保持していることを発見しましたが、患者の肝臓には依然として大きな損傷が存在していました。この研究で、再生プロセスをより深く理解するため、健康な肝組織と再生中の肝組織の各細胞内の遺伝子をプロファイリングしました。その結果、傷の癒しを助ける新たな細胞集団が見つかりました。この発見は、肝疾患治療の新たな進展を加速させることを期待しています。

<関連情報>

ヒト肝臓再生のマルチモーダル解読 Multimodal decoding of human liver regeneration

K. P. Matchett,J. R. Wilson-Kanamori,J. R. Portman,C. A. Kapourani,F. Fercoq,S. May,E. Zajdel,M. Beltran,E. F. Sutherland,J. B. G. Mackey,M. Brice,G. C. Wilson,S. J. Wallace,L. Kitto,N. T. Younger,R. Dobie,D. J. Mole,G. C. Oniscu,S. J. Wigmore,P. Ramachandran,C. A. Vallejos,N. O. Carragher,M. M. Saeidinejad,A. Quaglia,… N. C. Henderson
Nature   Published:01 May 2024
DOI:https://doi.org/10.1038/s41586-024-07376-2

肝臓の治癒を助ける細胞を突き止める(Study pinpoints cell that helps liver heal)

Abstract

The liver has a unique ability to regenerate1,2; however, in the setting of acute liver failure (ALF), this regenerative capacity is often overwhelmed, leaving emergency liver transplantation as the only curative option3,4,5. Here, to advance understanding of human liver regeneration, we use paired single-nucleus RNA sequencing combined with spatial profiling of healthy and ALF explant human livers to generate a single-cell, pan-lineage atlas of human liver regeneration. We uncover a novel ANXA2+ migratory hepatocyte subpopulation, which emerges during human liver regeneration, and a corollary subpopulation in a mouse model of acetaminophen (APAP)-induced liver regeneration. Interrogation of necrotic wound closure and hepatocyte proliferation across multiple timepoints following APAP-induced liver injury in mice demonstrates that wound closure precedes hepatocyte proliferation. Four-dimensional intravital imaging of APAP-induced mouse liver injury identifies motile hepatocytes at the edge of the necrotic area, enabling collective migration of the hepatocyte sheet to effect wound closure. Depletion of hepatocyte ANXA2 reduces hepatocyte growth factor-induced human and mouse hepatocyte migration in vitro, and abrogates necrotic wound closure following APAP-induced mouse liver injury. Together, our work dissects unanticipated aspects of liver regeneration, demonstrating an uncoupling of wound closure and hepatocyte proliferation and uncovering a novel migratory hepatocyte subpopulation that mediates wound closure following liver injury. Therapies designed to promote rapid reconstitution of normal hepatic microarchitecture and reparation of the gut–liver barrier may advance new areas of therapeutic discovery in regenerative medicine.

医療・健康
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