Hänninen Arno, Nurmela Rita, Maksimow Mikael, Heino Jarkko, Jalkanen Sirpa, Kurts Christian
MediCity Research Laboratory, Department of Medical Microbiology, University of Turku, Kiinamyllynkatu 13, FIN-20520 Turku, Finland.
Am J Pathol. 2007 Jan;170(1):240-50. doi: 10.2353/ajpath.2007.060142.
Organ infiltration by T cells depends on the adhesion molecules expressed in these sites and on homing receptors expressed by the T cells. Here, we have studied which form of priming can enable T cells to home to pancreatic islets. To this end, we have used transgenic mice expressing the model autoantigen ovalbumin in pancreatic islets and transgenic ovalbumin-specific CD4 and CD8 T cells. We demonstrate that these T cells were imprinted with homing receptor patterns characteristic for the site of priming, such as alpha4beta7 integrin for mucosal antigen delivery or functionally active alpha4beta1 integrin for islet autoantigens. The adhesion molecules corresponding to these receptors were found to be constitutively expressed in islets, enabling T cells bearing these receptors to infiltrate the islets and to cause diabetes. Disease was prevented only by blockade of the endothelial adhesion molecule, ligand of homing receptors with which the T cells were imprinted. Thus, different priming locations induced different homing mechanisms, allowing T cells to target the islets. This may contribute to the susceptibility of islets to T-cell-mediated attack. Furthermore, it may pertain to the design of adhesion-modulating therapies alone or in combination with external autoantigen administration.
T细胞向器官的浸润取决于这些部位表达的黏附分子以及T细胞表达的归巢受体。在此,我们研究了哪种启动形式能够使T细胞归巢至胰岛。为此,我们使用了在胰岛中表达模型自身抗原卵清蛋白的转基因小鼠以及转基因的卵清蛋白特异性CD4和CD8 T细胞。我们证明,这些T细胞被赋予了启动部位特有的归巢受体模式,例如用于黏膜抗原递呈的α4β7整合素或用于胰岛自身抗原的功能活性α4β1整合素。发现与这些受体相对应的黏附分子在胰岛中组成性表达,使得携带这些受体的T细胞能够浸润胰岛并导致糖尿病。只有通过阻断内皮黏附分子(即T细胞被赋予的归巢受体的配体)才能预防疾病。因此,不同的启动位置诱导不同的归巢机制,使T细胞能够靶向胰岛。这可能有助于胰岛对T细胞介导攻击的易感性。此外,这可能与单独或与外部自身抗原给药联合的黏附调节疗法的设计有关。