Herpes virus saimiri transformation of T cells in CD3γ immunodeficiency: phenotypic and functional characterization
The characterization of T cell immunodeficiencies could in part be supported by using stable cell lines in which biochemical and molecular studies of the defect could be carried out thereby omitting frequent bleeding of patients. First attempts to obtain such cell lines included HTLV-I transformatio...
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Veröffentlicht in: | Journal of immunological methods 1996-11, Vol.198 (2), p.177-186 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | The characterization of T cell immunodeficiencies could in part be supported by using stable cell lines in which biochemical and molecular studies of the defect could be carried out thereby omitting frequent bleeding of patients. First attempts to obtain such cell lines included HTLV-I transformation and exogenous IL-2 administration, but both models have important disadvantages. Recently, a virus isolated from the squirrel monkey, Herpes virus saimiri (HVS), has been reported to have the ability to transform T cells.
A stable IL-2-dependent HVS-transformed T cell line from a CD3γ deficient patient has been obtained; and this cell line displays both the phenotypic and the functional characteristics of the patient's lymphocytes. Moreover, the line down-modulates
TCR
CD3
surface expression upon CD3 engagement, as do the patient's lymphocytes, showing that CD3γ and its phosphorylation are not necessary for
TCR
CD3
internalization. In addition, the abnormal staining pattern of different
anti-
TCR
CD3
monoclonal antibodies is preserved in the HVS-patient line. Since HVS is capable of transforming CD3
γ
− T cells, the CD3γ chain does not seem to be involved in the HVS receptor process. The fact that it is not possible to obtain a CD8
+ HVS line from the CD3
γ
− patient supports the existence of a functional anomaly in his scanty CD8
+ peripheral lymphocytes. Thus, HVS transformation is a suitable model for T cell immunodeficiency studies and characterization. It may also be used in the future in cellular models for in vitro gene therapy trials. |
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ISSN: | 0022-1759 1872-7905 |
DOI: | 10.1016/S0022-1759(96)00156-1 |