PO.CL05.09 · 临床研究

A novel regulator of T-cell motility: Fhl2 controls CD8 + T-cell migration and infiltration

海报缩略图:A novel regulator of T-cell motility: Fhl2 controls CD8 + T-cell migration and infiltration
编号 6580 展板 13 时间 4/21 02:00–05:00 区域 Section 45 主讲 Hakimeh Ebrahimi-Nik, DVM, PhD
分会场 Inflammation, Immunity, and Cancer
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作者与单位

Achintya Perumal1, Grant Brennan1, Jiayao Ye1, Hu Chen1, Roya Solhi1, Omar I. Avila2, Kathleen B. Yates2, Robert T. Manguso2, Stanley C. Huang1, Haoxin Zhao1, Giovanni Nigita1, Zihai Li1, No-Joon Song1, Hazem E. Ghoneim1, Ava Lowin1, Kelley Ptak1, Qin Ma1, Hakimeh Ebrahimi-Nik1

1The Ohio State University, Columbus, OH,2Broad Institute of MIT and Harvard, Cambridge, MA

摘要 Abstract

For tumor immunotherapy to succeed, CD8 + T cells must efficiently migrate into tumor sites, yet the molecular pathways controlling this critical step of T-cell trafficking remain only partially understood. Using a novel reverse-engineered strategy-starting from antigen-experienced CD8 + T cells that either robustly rejected tumors in vivo or completely failed to do so despite comparable functional profiles-we identified Fhl2 (Four-and-a-half LIM domains 2) as a novel positive regulator of T-cell migration and infiltration, consistent with its role as a LIM-domain adaptor protein that integrates cytoskeletal and signaling inputs. Fhl2-deficient CD8 + T cells exhibited reduced migratory capacity, accompanied by impaired cytoskeletal remodeling and CXCR3-mediated chemotaxis. High-resolution confocal microscopy revealed that Fhl2-wild-type CD8 + T cells formed significantly more dendrite protrusions than knockout counterparts, consistent with enhanced motility. These findings were further supported by RNA-seq and Functional Proteomics Reverse Phase Protein Array (RPPA) analyses: RNA-seq revealed higher expression of several chemokine receptors in Fhl2-wild-type cells, including CXCR3 and CXCR6, while RPPA showed positive enrichment of multiple cell-migration-associated pathways in wild-type cells compared to the knockout. Importantly, transwell chemotaxis assays demonstrated that Fhl2-wild-type CD8⁺ T cells exhibit superior chemokine-driven migration compared with Fhl2-deficient cells-both in polyclonally activated populations and in SIINFEKL-stimulated OT-I cells. This enhanced migratory capacity of Fhl2-wild-type CD8⁺ T cells was also reflected in vivo. Collectively, these results establish Fhl2 as a key orchestrator of CD8 + T-cell motility and reveal a previously unappreciated molecular pathway that could be harnessed to improve tumor immune surveillance and T-cell-based therapies.
利益披露 Disclosure
A. Perumal, None.. G. Brennan, None.. J. Ye, None.. H. Chen, None.. R. Solhi, None.. O. I. Avila, None.. K. B. Yates, None.. R. T. Manguso, None.. S. C. Huang, None.. H. Zhao, None.. G. Nigita, None.. Z. Li, None.. N. Song, None.. H. E. Ghoneim, None.. A. Lowin, None.. K. Ptak, None.. Q. Ma, None.. H. Ebrahimi-Nik, None.

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