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  • Title: Effect of Graves' intrathyroidal lymphocytes. Effect of Graves' disease intrathyroidal lymphocytes (ITL) on xenotransplants of human thyroid tissue in athymic nude mice.
    Author: Schumm-Draeger PM, Jungheim K, Caspar G, Hermann G, Fortmeyer HP, Wenisch HJ, Usadel KH.
    Journal: Exp Clin Endocrinol Diabetes; 1996; 104 Suppl 4():60-3. PubMed ID: 8981004.
    Abstract:
    It has been suggested that ITL are of importance in the pathogenesis of human autoimmune thyroid disease. Aim of our study was to investigate function and morphology of xenotransplanted human thyroid tissue in nude mice following systemic application of lymphocyte preparations from patients with Graves' disease (GD) and non-toxic nodular goiter (NTG). ITL obtained from 13 patients with GD and peripheral blood lymphocytes (PBL) from 12 patients with NTG were injected into nude mice bearing 8 weeks old xenografts of normal human thyroid tissue. ITL- and PBL-subsets were analyzed by flow cytometer (FACScan) before engraftment. Two days after injection the thyroid transplants were examined histologically (HE) as well as immunohistologically by staining with: CD3, CD31, CD45R, HLA class II, ICAM-1, VCAM-1, IgG, IgM and Ki67. Flow cytometry showed a significant higher number of the lymphocyte-subsets CD3, DR+ and CD4 in GD-ITL as compared to the subsets in NTG-ITL. After injection of GD-ITL to the nude mice also a significant higher number of CD3+ human lymphocytes was found in the transplants. GD-lymphocytes stimulated thyroid tissue function significantly more pronounced than NTG-lymphocytes (histomorphological evaluation). In addition, a significant increase of HLA-class II, ICAM-1-, VCAM-1-, CD45-expression and number of Ig presenting plasma cells were observed only after injection of GD-ITL. Our data demonstrate, for the first time in vivo (nude mouse model), that GD-lymphocytes of both peripheral and intrathyroidal origin selectively migrate into human thyroid transplants ("homing"). They survive there for at least two days and induce significant functional as well as histological changes, like expression of gene products and IgG synthesis. These results suggest an important role of ITL in the pathogenetic mechanisms and clinical course of GD.
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