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脾成纤维细胞通过两种不同的Notch2依赖性调节程序控制边缘区B细胞的运动和功能。

Splenic fibroblasts control marginal zone B cell movement and function via two distinct Notch2-dependent regulatory programs.

作者信息

Allman Anneka, Gaudette Brian T, Kelly Samantha, Alouche Nagham, Carrington Léolène J, Perkey Eric, Brandstadter Joshua D, Outen Riley, Vanderbeck Ashley, Lederer Katlyn, Zhou Yeqiao, Faryabi Robert B, Robertson Tanner F, Burkhardt Janis K, Tikhonova Anastasia, Aifantis Iannis, Scarpellino Leonardo, Koch Ute, Radtke Freddy, Lütge Mechthild, De Martin Angelina, Ludewig Burkhard, Tveriakhina Lena, Gossler Achim, Mosteiro Lluc, Siebel Christian W, Gómez Atria Daniela, Luther Sanjiv A, Allman David, Maillard Ivan

机构信息

Division of Hematology/Oncology, Department of Medicine, University of Pennsylvania, Philadelphia, PA, USA.

Department of Pathology and Laboratory Medicine, University of Pennsylvania, Philadelphia, PA, USA.

出版信息

Immunity. 2025 Jan 14;58(1):143-161.e8. doi: 10.1016/j.immuni.2024.12.003. Epub 2024 Dec 27.

DOI:10.1016/j.immuni.2024.12.003
PMID:39731910
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11735314/
Abstract

Innate-like splenic marginal zone (MZ) B (MZB) cells play unique roles in immunity due to their rapid responsiveness to blood-borne microbes. How MZB cells integrate cell-extrinsic and -intrinsic processes to achieve accelerated responsiveness is unclear. We found that Delta-like1 (Dll1) Notch ligands in splenic fibroblasts regulated MZB cell pool size, migration, and function. Dll1 could not be replaced by the alternative Notch ligand Dll4. Dll1-Notch2 signaling regulated a Myc-dependent gene expression program fostering cell growth and a Myc-independent program controlling cell-movement regulators such as sphingosine-1 phosphate receptor 1 (S1PR1). S1pr1-deficient B cells experienced Notch signaling within B cell follicles without entering the MZ and were retained in the spleen upon Notch deprivation. Key elements of the mouse B cell Notch regulome were preserved in subsets of human memory B cells and B cell lymphomas. Thus, specialized niches program the poised state and patrolling behavior of MZB cells via conserved Myc-dependent and Myc-independent Notch2-regulated mechanisms.

摘要

固有样脾边缘区(MZ)B(MZB)细胞由于对血源性病原体反应迅速,在免疫中发挥独特作用。MZB细胞如何整合细胞外和细胞内过程以实现快速反应尚不清楚。我们发现脾成纤维细胞中的Delta样1(Dll1)Notch配体调节MZB细胞库大小、迁移和功能。Dll1不能被替代Notch配体Dll4取代。Dll1-Notch2信号调节促进细胞生长的Myc依赖性基因表达程序和控制细胞运动调节因子(如1-磷酸鞘氨醇受体1,S1PR1)的Myc非依赖性程序。缺乏S1pr1的B细胞在B细胞滤泡内经历Notch信号传导而不进入MZ,在Notch缺失时被保留在脾脏中。小鼠B细胞Notch调控组的关键元件在人类记忆B细胞和B细胞淋巴瘤亚群中得以保留。因此,特殊的微环境通过保守的Myc依赖性和Myc非依赖性Notch2调控机制,规划MZB细胞的静息状态和巡逻行为。

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