Peter D Bittner-Eddy, Lori A Fischer, Praveen Venkata Parachuru, Massimo Costalonga
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The expanded oral CD8 T cells co-expressed CD69 and CD103 and the majority produced IL-17A [CD8 T cytotoxic (Tc)17 cells] with a minority expressing IFN-γ (Tc1 cells). These oral CD8 T cells showed broad T cell receptor Vβ gene usage indicating responsiveness to diverse oral antigens. Generally supporting Tc17 cells, transforming growth factor-β1 (TGF-β1) increased 4-fold in the oral mucosa. Surprisingly, blocking TGF-β1 signaling with the TGF-R1 kinase inhibitor, LY364947, did not reduce Tc17 or Tc1 numbers. Nonetheless, LY364947 increased γδ T cell numbers and decreased CD49a expression on Tc1 cells. Although IL-17A-expressing γδ T cells were reduced by 30%, LC<sup>ΔMHC-II</sup> mice displayed greater resistance to <i>Candida albicans</i> in early stages of oral infection. These findings suggest that modulating MHC-II expression in oral LC may be an effective strategy against fungal infections at mucosal surfaces counteracted by IL-17A-dependent mechanisms.</p>","PeriodicalId":94016,"journal":{"name":"Frontiers in oral health","volume":null,"pages":null},"PeriodicalIF":3.0000,"publicationDate":"2024-05-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11169704/pdf/","citationCount":"0","resultStr":"{\"title\":\"MHC-II presentation by oral Langerhans cells impacts intraepithelial Tc17 abundance and <i>Candida albicans</i> oral infection via CD4 T cells.\",\"authors\":\"Peter D Bittner-Eddy, Lori A Fischer, Praveen Venkata Parachuru, Massimo Costalonga\",\"doi\":\"10.3389/froh.2024.1408255\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>In a murine model (LC<sup>ΔMHC-II</sup>) designed to abolish MHC-II expression in Langerhans cells (LCs), ∼18% of oral LCs retain MHC-II, yet oral mucosal CD4 T cells numbers are unaffected. In LC<sup>ΔMHC-II</sup> mice, we now show that oral intraepithelial conventional CD8αβ T cell numbers expand 30-fold. Antibody-mediated ablation of CD4 T cells in wild-type mice also resulted in CD8αβ T cell expansion in the oral mucosa. Therefore, we <i>hypothesize</i> that MHC class II molecules uniquely expressed on Langerhans cells mediate the suppression of intraepithelial resident-memory CD8 T cell numbers via a CD4 T cell-dependent mechanism. The expanded oral CD8 T cells co-expressed CD69 and CD103 and the majority produced IL-17A [CD8 T cytotoxic (Tc)17 cells] with a minority expressing IFN-γ (Tc1 cells). These oral CD8 T cells showed broad T cell receptor Vβ gene usage indicating responsiveness to diverse oral antigens. Generally supporting Tc17 cells, transforming growth factor-β1 (TGF-β1) increased 4-fold in the oral mucosa. Surprisingly, blocking TGF-β1 signaling with the TGF-R1 kinase inhibitor, LY364947, did not reduce Tc17 or Tc1 numbers. 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引用次数: 0
摘要
在一种旨在取消朗格汉斯细胞(LCs)中 MHC-II 表达的小鼠模型(LCΔMHC-II)中,18% 的口腔 LCs 保留了 MHC-II,但口腔黏膜 CD4 T 细胞的数量却不受影响。在 LCΔMHC-II 小鼠中,我们现在发现口腔上皮内常规 CD8αβ T 细胞数量增加了 30 倍。抗体介导的野生型小鼠 CD4 T 细胞消减也会导致口腔黏膜 CD8αβ T 细胞扩增。因此,我们假设朗格汉斯细胞上独特表达的 MHC II 类分子通过 CD4 T 细胞依赖机制介导了上皮内常驻记忆 CD8 T 细胞数量的抑制。扩增的口腔 CD8 T 细胞共同表达 CD69 和 CD103,大多数产生 IL-17A [CD8 T 细胞毒性 (Tc)17 细胞],少数表达 IFN-γ(Tc1 细胞)。这些口腔 CD8 T 细胞显示出广泛的 T 细胞受体 Vβ 基因使用情况,表明它们对多种口腔抗原有反应。一般来说,支持 Tc17 细胞的转化生长因子-β1(TGF-β1)在口腔粘膜中增加了 4 倍。令人惊讶的是,用 TGF-R1 激酶抑制剂 LY364947 阻断 TGF-β1 信号传导并没有减少 Tc17 或 Tc1 的数量。然而,LY364947 增加了 γδ T 细胞的数量,并降低了 Tc1 细胞上 CD49a 的表达。虽然表达 IL-17A 的 γδ T 细胞减少了 30%,但 LCΔMHC-II 小鼠在口腔感染的早期阶段对白色念珠菌表现出更强的抵抗力。这些研究结果表明,调节口腔 LC 中 MHC-II 的表达可能是一种有效的策略,可以通过 IL-17A 依赖性机制对抗粘膜表面的真菌感染。
MHC-II presentation by oral Langerhans cells impacts intraepithelial Tc17 abundance and Candida albicans oral infection via CD4 T cells.
In a murine model (LCΔMHC-II) designed to abolish MHC-II expression in Langerhans cells (LCs), ∼18% of oral LCs retain MHC-II, yet oral mucosal CD4 T cells numbers are unaffected. In LCΔMHC-II mice, we now show that oral intraepithelial conventional CD8αβ T cell numbers expand 30-fold. Antibody-mediated ablation of CD4 T cells in wild-type mice also resulted in CD8αβ T cell expansion in the oral mucosa. Therefore, we hypothesize that MHC class II molecules uniquely expressed on Langerhans cells mediate the suppression of intraepithelial resident-memory CD8 T cell numbers via a CD4 T cell-dependent mechanism. The expanded oral CD8 T cells co-expressed CD69 and CD103 and the majority produced IL-17A [CD8 T cytotoxic (Tc)17 cells] with a minority expressing IFN-γ (Tc1 cells). These oral CD8 T cells showed broad T cell receptor Vβ gene usage indicating responsiveness to diverse oral antigens. Generally supporting Tc17 cells, transforming growth factor-β1 (TGF-β1) increased 4-fold in the oral mucosa. Surprisingly, blocking TGF-β1 signaling with the TGF-R1 kinase inhibitor, LY364947, did not reduce Tc17 or Tc1 numbers. Nonetheless, LY364947 increased γδ T cell numbers and decreased CD49a expression on Tc1 cells. Although IL-17A-expressing γδ T cells were reduced by 30%, LCΔMHC-II mice displayed greater resistance to Candida albicans in early stages of oral infection. These findings suggest that modulating MHC-II expression in oral LC may be an effective strategy against fungal infections at mucosal surfaces counteracted by IL-17A-dependent mechanisms.