Haskins Breanne E, Gullicksrud Jodi A, Wallbank Bethan A, Dumaine Jennifer E, Guérin Amandine, Cohn Ian S, O'Dea Keenan M, Pardy Ryan D, Merolle Maria I, Shallberg Lindsey A, Hunter Emma N, Byerly Jessica H, Smith Eleanor J, Buenconsejo Gracyn Y, McLeod Briana I, Christian David A, Striepen Boris, Hunter Christopher A
bioRxiv. 2023 Aug 18:2023.08.16.553566. doi: 10.1101/2023.08.16.553566.
causes debilitating diarrheal disease in patients with primary and acquired defects in T cell function. However, it has been a challenge to understand how this infection generates T cell responses and how they mediate parasite control. Here, was engineered to express a parasite effector protein (MEDLE-2) that contains the MHC-I restricted SIINFEKL epitope which is recognized by TCR transgenic OT-I CD8 T cells. These modified parasites induced expansion of endogenous SIINFEKL-specific and OT-I CD8 T cells that were a source of IFN-γ that could restrict growth of . This T cell response was dependent on the translocation of the effector and similar results were observed with another secreted parasite effector (ROP1). Although infection and these translocated effector proteins are restricted to intestinal epithelial cells (IEC), type I dendritic cells (cDC1) were required to generate CD8 T cell responses to these model antigens. These data sets highlight effectors as targets of the immune system and suggest that crosstalk between enterocytes and cDC1s is crucial for CD8 T cell responses to .
在原发性和获得性T细胞功能缺陷患者中引发使人虚弱的腹泻病。然而,了解这种感染如何产生T细胞反应以及它们如何介导对寄生虫的控制一直是一项挑战。在此,构建了一种表达寄生虫效应蛋白(MEDLE-2)的工程菌,该蛋白包含被TCR转基因OT-I CD8 + T细胞识别的MHC-I限制性SIINFEKL表位。这些修饰后的寄生虫诱导内源性SIINFEKL特异性和OT-I CD8 + T细胞扩增,这些T细胞是可限制[寄生虫名称未给出]生长的IFN-γ的来源。这种T细胞反应依赖于效应蛋白的易位,并且用另一种分泌性寄生虫效应蛋白(ROP1)也观察到了类似结果。尽管感染和这些易位的效应蛋白局限于肠道上皮细胞(IEC),但I型树突状细胞(cDC1)是产生针对这些模型抗原的CD8 + T细胞反应所必需的。这些数据集突出了[寄生虫名称未给出]效应蛋白作为免疫系统的靶点,并表明肠上皮细胞和cDC1之间的串扰对于CD8 + T细胞对[寄生虫名称未给出]的反应至关重要。
