The human immunoregulatory T cell circuit: Recent progress and its clinical implications.

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The present studies indicate that both the heterogeneity and functional programs of human T lymphocytes can be distinguished. Within the T4 subset, which is responsible for inducer/helper functions in T-T, T-B and T-macrophage interactions, discrete subpopulations are present; T4 cells bearing the 2H4 molecule (T4+2H4+) induce T8+suppressor effector cells, and T4 cells bearing the 4B4 molecule (T4+4B4+) induce help for B cell Ig synthesis. Within the T8 subset are precursors and effector cells responsible for both suppressor or cytotoxic function. It is now evident that T4 cells show a preferential interaction with class II MHC determinants on accessory or target cells, whereas T8 cells have a preference for class I determinants. Furthermore, the T4 and T8 glyco-proteins themselves may function as associative recognition structures in such functions. Recent work has elucidated the role of the T3-Ti antigen receptor complex which is involved in both antigen recognition and T cell activation. The T3 molecule, a nonpolymorphic determinant is membrane-associated with the 90 KD Ti heterodimer, a highly polymorphic structure with both constant and variable regions, making up the T cell receptor for antigen. It is believed that these unique cell surface glycoproteins will have a critical role in regulating the nature and intensity of the immune response. The clinical relevance of these cell surface glycoproteins in human diseases also will be discussed.
The Keio Journal of Medicineの論文

The human immunoregulatory T cell circuit: Recent progress and its clinical implications.

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