Quantitative activation-induced manganese-enhanced MRI reveals severity of Parkinson's disease in mice.

We demonstrate that activation-induced manganese-enhanced magnetic resonance imaging with quantitative determination of the longitudinal relaxation time (qAIM-MRI) reveals the severity of Parkinson's disease (PD) in mice. We first show that manganese ion-accumulation depends on neuronal activity. A highly active region was then observed by qAIM-MRI in the caudate-putamen in PD-model mice that was significantly correlated to the severity of PD, suggesting its involvement in the expression of PD symptoms.

Decrease of intrathyroidal CD161+Valpha24+Vbeta11+ NKT cells in Graves' disease.

To clarify changes in the intrathyroidal natural killer T (NKT) cell subset, which prevents autoimmunity in patients with Graves' disease (GD), we examined intrathyroidal and peripheral lymphocytes in 11 patients with GD and peripheral lymphocytes in nine healthy volunteers using three-color flow cytometry. The proportion of CD161 (+) T cell receptor Valpha24 (+) Vbeta11 (+) cells, which represent the NKT cell subset, was lower in the thyroid of patients with GD than in the peripheral blood of the same patients and in the peripheral blood of healthy subjects. These results indicate that the proportion of intrathyroidal NKT cells is decreased in patients with GD and that this decrease may contribute to incomplete regulation of autoreactive T cells in GD.

Intrathyroidal CD4+ T lymphocytes express high levels of Fas and CD4+ CD8+ macrophages/dendritic cells express Fas ligand in autoimmune thyroid disease.

In autoimmune thyroid disease (AITD), the proportion of CD4 lymphocytes is lower in the thyroid than in the peripheral blood. We examined both Fas and Fas ligand (FasL) expression in lymphocyte subsets and nonlymphoid mononuclear cells including monocytes, macrophages, and dendritic cells (M/DCs) in both peripheral blood and thyroid specimens from 11 patients with Graves' disease and 1 with Hashimoto's disease by three-color flow cytometry. Proportions and intensities of Fas expression were increased in CD4 single-positive (SP) (CD4(+) CD8(-)), CD8 SP (CD8(+) CD4(-) ), and CD4(+) CD8(+) double-positive (DP) lymphocytes in AITD thyroids compared to those in blood, and were much higher in CD4(+) (CD4 SP and DP) lymphocytes than in CD8 SP lymphocytes in the thyroid. In the blood, most M/DCs expressed only CD4, but approximately 60% of M/DCs expressed both CD4 and CD8 in AITD thyroid. The proportion of DP M/DCs expressing FasL was higher in thyroid than in blood; proportion and intensity of FasL expression were much higher in DP M/DCs than in CD4 SP and CD8 SP M/DCs in the thyroid. These data indicate that increased Fas expression in intrathyroidal CD4(+) T lymphocytes may be the cause of CD4 lymphocyte reduction in AITD thyroid, and that intrathyroid DP M/DCs with high FasL expression may be related to the reduction in AITD.

Physiological changes of Fas expression in peripheral lymphocyte subsets during the menstrual cycle.

We have examined changes in peripheral lymphocyte subsets, and Fas expression in these subsets, during the menstrual cycle. Measurements were made by three-color flow cytometry in the follicular and luteal phases of the menstrual cycle in ten healthy women. The numbers of leukocytes, granulocytes and monocytes were significantly higher in the luteal phase than the follicular phase. The percentage of CD8(+) cells was greater in the luteal phase than the follicular phase. The percentages of Fas(+) cells among T cells and NK cells were higher in the luteal phase than the follicular phase. These findings suggest that the menstrual cycle affects leukocytes, lymphocyte subsets, and Fas expression in these subsets, and that changes in the luteal phase of the menstrual cycle are similar to those in pregnancy.