Rao Geetha, Mack Corinne D, Nguyen Tina, Wong Natalie, Payne Kathryn, Worley Lisa, Gray Paul E, Wong Melanie, Hsu Peter, Stormon Michael O, Preece Kahn, Suan Daniel, O'Sullivan Michael, Blincoe Annaliesse K, Sinclair Jan, Okada Satoshi, Hambleton Sophie, Arkwright Peter D, Boztug Kaan, Stepensky Polina, Cooper Megan A, Bezrodnik Liliana, Nadeau Kari C, Abolhassani Hassan, Abraham Roshini S, Seppänen Mikko R J, Béziat Vivien, Bustamante Jacinta, Forbes Satter Lisa R, Leiding Jennifer W, Meyts Isabelle, Jouanguy Emmanuelle, Boisson-Dupuis Stéphanie, Uzel Gulbu, Puel Anne, Casanova Jean-Laurent, Tangye Stuart G, Ma Cindy S
Garvan Institute of Medical Research, Darlinghurst, Australia.
Garvan Institute of Medical Research, Darlinghurst, Australia; School of Clinical Medicine, Faculty of Medicine and Health, University of New South Wales (UNSW), Sydney, Australia.
J Allergy Clin Immunol. 2025 Apr;155(4):1161-1178. doi: 10.1016/j.jaci.2024.11.031. Epub 2024 Nov 30.
CD4 T cells play essential roles in adaptive immunity. Distinct CD4 T-cell subsets-T1, T2, T17, T22, T follicular helper, and regulatory T cells-have been identified, and their contributions to host defense and immune regulation are increasingly well defined. IL-9-producing T9 cells were first described in 2008 and appear to play both protective and pathogenic roles in human immunity. However, key requirements for generating human T9 cells remain incompletely defined.
We sought to define signaling pathways that regulate IL-9 production by human CD4 T cells.
Human naive and memory CD4 T cells were cultured under different conditions, and the molecular mechanisms regulating IL-9 induction were determined by assessing the ability of CD4 T cells from a broad range of patients (n = 92) with pathogenic variants in key immune genes (n = 21) to differentiate into IL-9 cells.
We identified 2 culture conditions that yielded IL-9-expressing cells from naive CD4 T cells and amplified IL-9 production by in vivo-generated memory CD4 T cells: TGF-β plus IL-4 (ie, T9 polarizing condition), and the combination of IL-21, IL-23, IL-6, IL-1β, and TGF-β (ie, T17 polarizing condition). Combining these conditions had a synergistic effect in generating IL-9CD4 T cells. IL-9 induction required STAT3-activating cytokines as well as intact signaling via the T-cell receptor and STAT5. Importantly, IL-9 induction was restrained by IFN-γ/STAT1 and IL-10.
Our findings revealed critical molecules involved in inducing/restraining IL-9 production by human CD4 T cells, thereby identifying pathways that could be targeted to modulate IL-9 in health and disease.
CD4 T细胞在适应性免疫中发挥着重要作用。已鉴定出不同的CD4 T细胞亚群——T1、T2、T17、T22、滤泡辅助性T细胞和调节性T细胞,并且它们对宿主防御和免疫调节的作用越来越明确。产生白细胞介素-9(IL-9)的T9细胞于2008年首次被描述,似乎在人类免疫中发挥保护和致病作用。然而,产生人类T9细胞的关键条件仍未完全明确。
我们试图确定调节人类CD4 T细胞产生IL-9的信号通路。
将人类初始和记忆性CD4 T细胞在不同条件下培养,并通过评估来自广泛的具有关键免疫基因(n = 21)致病变异的患者(n = 92)的CD4 T细胞分化为产生IL-9细胞的能力,来确定调节IL-9诱导的分子机制。
我们确定了2种培养条件,可使初始CD4 T细胞产生表达IL-9的细胞,并通过体内产生的记忆性CD4 T细胞增强IL-9的产生:转化生长因子-β(TGF-β)加IL-4(即T9极化条件),以及IL-21、IL-23、IL-6、IL-1β和TGF-β的组合(即T17极化条件)。将这些条件组合在产生IL-9 CD4 T细胞方面具有协同作用。IL-9的诱导需要激活信号转导和转录激活因子3(STAT3)的细胞因子以及通过T细胞受体和STAT5的完整信号传导。重要的是,IL-9的诱导受到干扰素-γ(IFN-γ)/STAT1和IL-10的抑制。
我们的研究结果揭示了参与诱导/抑制人类CD4 T细胞产生IL-9的关键分子,从而确定了在健康和疾病中可作为调节IL-9靶点的信号通路。
