Akihiro Tsukahara scite author profile

SUMMARYThere are physiological variations in the levels of leucocytes. Among these, the circadian rhythm is very important in terms of the magnitude. Since newly identified lymphocyte subsets (i.e. extrathymic T cells) have recently been detected, a comprehensive study of the circadian rhythm was conducted. All leucocytes were found to vary in number or proportion with a circadian rhythm and were classified into two groups. One group-granulocytes, macrophages, natural killer (NK) cells, extrathymic T cells, gd T cells, and CD8 þ subset-showed an increase in the daytime (i.e. daytime rhythm). The other group-T cells, B cells, ab T cells, and CD4 þ subset-showed an increase at night. Humans are active and show sympathetic nerve dominance in the daytime. Interestingly, granulocytes and lymphocyte subsets with the daytime rhythm were found to carry a high density of adrenergic receptors. On the other hand, lymphocyte subsets with the night rhythm carried a high proportion of cholinergic receptors. Reflecting this situation, exercise prominently increased the number of cells with the daytime rhythm. These results suggest that the levels of leucocytes may be under the regulation of the autonomic nervous system.

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Mouse liver T cells: Their change with aging and in comparison with peripheral T cells

Tsukahara

et al. 1997

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Diagnosis of ischemic small bowel disease by measurement of serum intestinal fatty acid-binding protein in patients with acute abdomen: a multicenter, observer-blinded validation study

et al. 2011

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Autologous killing by a population of intermediate T‐cell receptor cells and its NK1.1⁺ and NK1.1⁻ subsets, using Fas ligand/Fas molecules

Moroda¹,

Iiai

Suzuki³

et al. 1997

Immunology

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SUMMARYSelf-reactive clones, estimated by anti-Vb monoclonal antibodies (mAb) in conjunction with the Mls system, are confined to a population of intermediate (int) T-cell receptor ( TCR) (or CD3) cells (i.e. TCRint cells), but are not found among TCRhigh cells. The next questions to be answered are whether autologous killing is confined to TCRint cells and how such killing is mediated. In this study, 51Cr-labelled thymocytes of syngeneic or allogeneic origin were used as target cells (4-hr assay). When liver and splenic mononuclear cells (MNC ) obtained from B6 mice were used as eÂector cells, prominent autologous killing was seen in liver MNC, but not splenic MNC. Such killing was not seen when thymocytes from B6-lpr/lpr mice (i.e. Fas−) were used as target cells, nor when liver MNC from MRL-gld/gld mice (i.e. Fas ligand−) were used as eÂector cells (target thymocytes of MRL-+/+ mice). Cell separation experiments using a cell sorter revealed that autologous killing was mediated for the most part by CD3int cells, while allogeneic killing was mediated entirely by natural killer (NK ) cells, TCRint cells and TCRhigh cells. Among CD3int cells, the NK1.1+ subset (i.e. NK1.1+ T cells) manifested a higher level of autologous killing than did the NK1.1− subset. Consistent with the results of a functional assay, it was found by reverse-transcription-polymerase chain reaction ( RT-PCR) assay that CD3int cells among liver MNC showed the expression of Fas ligand mRNA, while thymocytes expressed Fas mRNA. When class I major histocompatibility complex (MHC )− thymocytes (from b 2 -microglobulindeficient mice) were used as target cells, NK cells, but not CD3int cells, showed potent cytotoxicity. These results suggest that autologous killing is a major function of TCRint cells with self-reactivity, and that such killing is mediated by means of Fas ligand/Fas molecules.

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Self‐reactive forbidden clones are confined to pathways of intermediate T‐cell receptor cell differentiation even under immunosuppressive conditions

et al. 1997

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It is believed that self‐reactive forbidden T‐cell clones are generated by ‘failure’ of the pathway of T‐cell differentiation in the thymus, if it is disturbed. We examined how such forbidden clones are generated under immunosuppressive conditions. Mice were treated with an injection of deoxyspergualin, FK506, or cycloporin A. From day 3, the number of cells yielded by various organs decreased. Because of the resistance of intermediate (int) T‐cell receptor (TCR) cells (i.e. TCRint cells), they became more prominent in proportion than TCRhigh cells. TCRhigh cells are conventional T cells generated through the mainstream in the thymus, whereas TCRint cells are primordial T cells generated by the extrathymic pathway or an alternative intrathymic pathway. Similar to untreated mice, forbidden Vβ3+ and Vβ11+ clones in C3H/He (Mls‐1b2a) mice were confined to TCRint cells after treatment; there was no leakage of forbidden clones into TCRhigh cells in the thymus and periphery. In parallel with the increase in the proportion of TCRint cells, the proportion of forbidden clones also increased under immunosuppressive states, especially in the liver. Liver mononuclear cells isolated from treated mice still had the potential to mediate autologous killing. The present results suggest that the generation of self‐reactive clones is highly restricted to the pathways of TCRint cell differentiation even under immunosuppressive conditions.

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