Okeugo Beanna, Armbrister Shabba A, Daniel Rhea C, Saleh Zeina M, Wang Jessica, Giorgberidze Salomea, Rhoads J Marc, Liu Yuying
Department of Pediatrics, Division of Gastroenterology, McGovern Medical School, The University of Texas Health Science Center at Houston, Houston, TX, United States.
Immunohorizons. 2025 Jan 23;9(1). doi: 10.1093/immhor/vlae004.
CD73 is ubiquitously expressed and regulates critical functions across multiple organ systems. The sequential actions of CD39 and CD73 accomplish the conversion of adenosine triphosphate to adenosine and shift the adenosine triphosphate-driven proinflammatory immune cell milieu toward an anti-inflammatory state. This immunological switch is a major mechanism by which regulatory T (Treg) cells control inflammation. Foxp3 engages in Treg development and function. Foxp3 mutations result in the scurfy (SF) mouse phenotype and a rapidly lethal lymphoproliferative syndrome. We generated double knockout (KO) mouse (CD73KOSF) by breeding heterozygous Foxp3sf/J females to CD73KO male mice to remove host CD73. We initially aimed to use these mice to identify a specific probiotic-CD73 effect, previously shown for Limosilactobacillus reuteri DSM 17938. We expected CD73 deletion to enhance the severity of autoimmunity in SF mice. However, we unexpectedly observed that KO of host CD73 in SF mice clinically reduced the severity of autoimmunity including reduced ear thickness, increased ear size, and less deformed ears, along with less dry and brittle skin. KO of CD73 in SF mice significantly reduced the numbers of CD4+ and CD8+T cells in spleen and blood. We identified that KO of CD73 in SF mice reduced the numbers of T cells in the thymus compared with those in SF mice, indicating that the milder clinical phenotype may be due to reduced central and peripheral lymphoproliferation. These new findings suggest targeting CD73 could improve T cell-mediated dermatitis, one of the most common symptoms in Treg deficiency-associated primary immune deficiencies.
CD73广泛表达并调节多个器官系统的关键功能。CD39和CD73的相继作用实现了三磷酸腺苷向腺苷的转化,并将三磷酸腺苷驱动的促炎免疫细胞环境转变为抗炎状态。这种免疫开关是调节性T(Treg)细胞控制炎症的主要机制。Foxp3参与Treg的发育和功能。Foxp3突变导致斯卡尔菲(SF)小鼠表型和快速致死性淋巴细胞增殖综合征。我们通过将杂合的Foxp3sf/J雌性小鼠与CD73基因敲除雄性小鼠杂交,培育出双基因敲除(KO)小鼠(CD73KOSF),以去除宿主CD73。我们最初旨在利用这些小鼠来确定一种特定的益生菌 - CD73效应,此前已证明罗伊氏乳杆菌DSM 17938具有这种效应。我们预期CD73缺失会加重SF小鼠自身免疫的严重程度。然而,我们意外地观察到,SF小鼠中宿主CD73的基因敲除在临床上减轻了自身免疫的严重程度,包括耳部厚度减小、耳部尺寸增大、耳部畸形减轻,以及皮肤干燥和变脆的情况减少。SF小鼠中CD73的基因敲除显著降低了脾脏和血液中CD4 +和CD8 + T细胞的数量。我们发现,与SF小鼠相比,SF小鼠中CD73的基因敲除减少了胸腺中T细胞的数量,这表明较轻的临床表型可能是由于中枢和外周淋巴细胞增殖减少所致。这些新发现表明,靶向CD73可能改善T细胞介导的皮炎,这是Treg缺乏相关原发性免疫缺陷中最常见的症状之一。
