Russano Anna M, Bassotti Gabrio, Agea Elisabetta, Bistoni Onelia, Mazzocchi Alessandro, Morelli Antonio, Porcelli Steven A, Spinozzi Fabrizio
Laboratory of Experimental Immunology and Allergy, Section of Internal Medicine and Oncological Sciences, Department of Clinical and Experimental Medicine, University of Perugia Medical School, Perugia, Italy.
J Immunol. 2007 Mar 15;178(6):3620-6. doi: 10.4049/jimmunol.178.6.3620.
Gammadelta T cells are present in the mucosal intestinal epithelia and secrete factors necessary to maintain tissue integrity. Ags recognized by these cells are poorly defined, although in mice non-classical MHC class I molecules have been implicated. Since MHC class I-like CD1 receptors are widely expressed at the surface of epithelial and dendritic intestinal cells and have the capacity to present lipid Ags to T cells, we hypothesized that these molecules might present autologous and/or exogenous phospholipids to intestinal gammadelta T lymphocytes. Intraepithelial T lymphocytes from normal human duodenal mucosal biopsies were cloned and exposed to natural and synthetic phospholipids using CD1a-, CD1b-, CD1c- or CD1d-transfected C1R lymphoblastoid or HeLa cell lines as APCs. Their cytolytic properties and regulatory cytokine secretion were also examined. Most clones obtained from duodenal mucosa (up to 70%) were TCRalphabeta+, and either CD4+ or CD8+, whereas 20% were CD4-CD8- (6 clones) or TCRgammadelta+ (12 clones). A relevant percentage (up to 66%) of TCRgammadelta+ but few (<5%) TCRalphabeta+ T cell clones responded to synthetic and/or natural phospholipids presented by CD1 molecules, as measured by both [(3)H]thymidine incorporation and IL-4 release assays. A Th1-like cytolytic and functional activity along with the ability to secrete regulatory cytokines was observed in most phospholipid-specific gammadelta T cell clones. Thus, a substantial percentage of TCRgammadelta+ but few TCRalphabeta+ from human duodenal mucosa recognize exogenous phospholipids in a CD1-restricted fashion. This adaptive response could contribute to mucosal homeostasis, but could also favor the emergence of inflammatory or allergic intestinal diseases.
γδT细胞存在于肠道黏膜上皮中,并分泌维持组织完整性所需的因子。尽管在小鼠中已发现非经典的MHC I类分子与这些细胞识别的抗原有关,但这些抗原的具体情况仍不清楚。由于MHC I类样CD1受体广泛表达于肠道上皮细胞和树突状细胞表面,且有能力将脂质抗原呈递给T细胞,我们推测这些分子可能将自体和/或外源性磷脂呈递给肠道γδT淋巴细胞。从正常人十二指肠黏膜活检中获取上皮内T淋巴细胞并进行克隆,以转染了CD1a、CD1b、CD1c或CD1d的C1R淋巴母细胞系或HeLa细胞系作为抗原呈递细胞,将其暴露于天然和合成磷脂中。同时还检测了它们的细胞溶解特性和调节性细胞因子分泌情况。从十二指肠黏膜获得的大多数克隆(高达70%)为TCRαβ+,且为CD4+或CD8+,而20%为CD4-CD8-(6个克隆)或TCRγδ+(12个克隆)。通过[³H]胸腺嘧啶核苷掺入法和IL-4释放试验测定,高达66%的TCRγδ+但只有少数(<5%)TCRαβ+ T细胞克隆对CD1分子呈递的合成和/或天然磷脂有反应。在大多数磷脂特异性γδT细胞克隆中观察到了类似Th1的细胞溶解和功能活性以及分泌调节性细胞因子的能力。因此,来自人十二指肠黏膜的相当一部分TCRγδ+但很少TCRαβ+细胞以CD1限制性方式识别外源性磷脂。这种适应性反应可能有助于黏膜稳态,但也可能促进炎症性或过敏性肠道疾病的发生。
