Expression of Major Histocompatibility Complex Class I Chain-related Molecule A, NKG2D, and Transforming Growth Factor-beta in the Liver of Humans with Alveolar Echinococcosis: New Actors in the Tolerance to Parasites?
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Background: Echinococcus multilocularis growth and persistent granuloma, which lead to the development of the severe parasitic disease alveolar echinococcosis (AE), might be caused by abnormal expression of stress-induced proteins, with subsequent abnormalities in T cell activation. Similar to its involvement in tumors, the NKG2D-major histocompatability complex class I chain-related molecules A and B (MICA/B) signaling system could be involved in host-parasite interactions; however, its involvement in helminthic diseases has never been studied.
Methods: We studied MICA/B, NKG2D, and transforming growth factor-beta (TGF-beta) expression on liver sections and measured levels of soluble MICA in serum samples obtained from patients with progressive AE. Livers from healthy and cirrhotic subjects were studied as controls.
Results: Expression of MICA/B proteins was strongly enhanced in the hepatocytes and endothelial and bile duct cells; in the CD68+ cells of the periparasitic infiltrate, especially epithelioid and giant cells; and, also, in the metacestode germinal layer. Strong expression of MICA/B in the liver contrasted with low numbers of NK cells and lack of expression of NKG2D on the numerous CD8+ T lymphocytes of the periparasitic infiltrate, as well as with the absence of soluble MICA in serum. TGF-beta was strongly expressed by most of the infiltrating lymphocytes.
Conclusions: Sustained expression of MICA/B molecules and TGF-beta might lead to modulation of NKG2D with subsequent inhibition of NKG2D-dependent cytotoxicity. Abnormalities of this signaling system could contribute to parasitic evasion of the host's immunity.
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