Inhibition of CD226 co-stimulation suppresses diabetes development in the NOD mouse by augmenting regulatory T cells and diminishing effector T cell function

IF 8.4 1区医学 Q1 ENDOCRINOLOGY & METABOLISM Diabetologia Pub Date : 2024-12-05 DOI:10.1007/s00125-024-06329-8

Matthew E. Brown, Puchong Thirawatananond, Leeana D. Peters, Elizabeth J. Kern, Sonali Vijay, Lindsey K. Sachs, Amanda L. Posgai, Maigan A. Brusko, Melanie R. Shapiro, Clayton E. Mathews, Rhonda Bacher, Todd M. Brusko

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Abstract

Aims/hypothesis

Immunotherapeutics targeting T cells are crucial for inhibiting autoimmune disease progression proximal to disease onset in type 1 diabetes. There is an outstanding need to augment the durability and effectiveness of T cell targeting therapies by directly restraining proinflammatory T cell subsets, while simultaneously augmenting regulatory T cell (Treg) activity. Here, we present a novel strategy for preventing diabetes incidence in the NOD mouse model using a blocking monoclonal antibody targeting the type 1 diabetes risk-associated T cell co-stimulatory receptor, CD226.

Methods

Female NOD mice were treated with anti-CD226 at 7–8 weeks of age and then monitored for diabetes incidence and therapeutic mechanism of action.

Results

Compared with isotype-treated controls, anti-CD226-treated NOD mice showed reduced insulitis severity (0.84-fold, p=0.0002) at 12 weeks and decreased disease incidence (HR 0.41, p=0.015) at 30 weeks. Flow cytometric analysis performed 5 weeks post treatment demonstrated reduced proliferation of conventional CD4⁺ T cells (0.87-fold, p=0.030) and CD8⁺ (0.78-fold, p=0.0018) effector memory T cells in spleens of anti-CD226-treated mice. Phenotyping of pancreatic Tregs revealed increased CD25 expression (2.05-fold, p=0.0073) and signal transducer and activator of transcription 5 (STAT5) phosphorylation (1.39-fold, p=0.0007) following anti-CD226, with splenic Tregs displaying augmented suppression of CD4⁺ responder T cells (Tresps) (1.49-fold, p=0.0008, 1:2 Treg:Tresp) in vitro. Anti-CD226-treated mice exhibited reduced frequencies of islet-specific glucose-6-phosphatase catalytic subunit-related protein (IGRP)-reactive CD8⁺ T cells in the pancreas, using both ex vivo tetramer staining (0.50-fold, p=0.0317) and single-cell T cell receptor sequencing (0.61-fold, p=0.022) approaches. ⁵¹Cr-release assays demonstrated reduced cell-mediated lysis of beta cells (0.61-fold, p<0.0001, 1:1 effector:target) by anti-CD226-treated autoreactive cytotoxic T lymphocytes.

Conclusions/interpretation

CD226 blockade reduces T cell cytotoxicity and improves Treg function, representing a targeted and rational approach for restoring immune regulation in type 1 diabetes.

Graphical Abstract

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抑制CD226共刺激通过增加调节性T细胞和减少效应T细胞功能来抑制NOD小鼠糖尿病的发展

目的/假设针对T细胞的免疫治疗对于抑制1型糖尿病发病前自身免疫性疾病的进展至关重要。目前迫切需要通过直接抑制促炎T细胞亚群，同时增强调节性T细胞（Treg）活性，来增强T细胞靶向治疗的持久性和有效性。在这里，我们提出了一种新的策略来预防NOD小鼠模型中的糖尿病发病率，使用靶向1型糖尿病风险相关的T细胞共刺激受体CD226的阻断单克隆抗体。方法在7 ~ 8周龄时用抗cd226治疗NOD雌性小鼠，观察其糖尿病发病情况及治疗机制。结果与同型处理的对照组相比，抗cd226处理的NOD小鼠在12周时胰岛素严重程度降低（0.84倍，p=0.0002），在30周时疾病发生率降低（HR 0.41, p=0.015）。治疗5周后流式细胞术分析显示，抗cd226处理小鼠脾脏中常规CD4+ T细胞（0.87倍，p=0.030）和CD8+效应记忆T细胞（0.78倍，p=0.0018）的增殖减少。胰腺Treg表型分析显示，抗cd226后，CD25表达增加（2.05倍，p=0.0073），转录信号传导和激活因子5 （STAT5）磷酸化增加（1.39倍，p=0.0007），脾Treg对CD4+应答T细胞（Tresps）的抑制增强（1.49倍，p=0.0008, Treg: trep 1:2）。使用离体四聚体染色（0.50倍，p=0.0317）和单细胞T细胞受体测序（0.61倍，p=0.022）方法，抗cd226处理小鼠胰腺中胰岛特异性葡萄糖-6-磷酸酶催化亚单位相关蛋白（IGRP）反应性CD8+ T细胞的频率降低。51cr释放试验表明，抗cd226处理的自身反应性细胞毒性T淋巴细胞减少了细胞介导的β细胞裂解（0.61倍，p<0.0001, 1:1效应：靶标）。cd226阻断可降低T细胞毒性，改善Treg功能，是恢复1型糖尿病患者免疫调节的一种有针对性和合理的方法。图形抽象

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来源期刊

Diabetologia 医学-内分泌学与代谢

CiteScore

18.10

自引率

2.40%

发文量

193

审稿时长

1 months

期刊介绍： Diabetologia, the authoritative journal dedicated to diabetes research, holds high visibility through society membership, libraries, and social media. As the official journal of the European Association for the Study of Diabetes, it is ranked in the top quartile of the 2019 JCR Impact Factors in the Endocrinology & Metabolism category. The journal boasts dedicated and expert editorial teams committed to supporting authors throughout the peer review process.