F. Laube scite author profile

Two- and three-color cytofluorimetric techniques were used to study the expression patterns of the activation antigen HLA-DR on peripheral blood immunoregulatory T-cells from 25 patients with newly diagnosed insulin-dependent diabetes mellitus (IDDM) and 14 age- and sex-matched control subjects. The mean percentage of total activated (CD3+HLA-DR+) T-cells was significantly elevated in the IDDM group compared with the control group (P < 0.001). In control subjects, basal activation of CD4+ and CD8+ lymphocytes accounted for the low percentage levels of activated T-cells. In contrast, the majority of IDDM patients showed an unbalanced activation of CD4+ and CD8+ lymphocytes with predominant activation of the CD8+ lymphocyte subset. The composition of the activated T-cell fraction was dependent on the composition of the total (activated + nonactivated) T-cell population, as indicated by the positive correlation between the CD4+/CD8+ T-cell ratios in these two cell populations (r = 0.714; P < 0.001). Excessive activation of CD8+ T-cells was attributable to similar increases in the proportions of CD8+ CD45RA+HLA-DR+ (naive) and CD8+CD45RA-HLA-DR+ (memory) cells. Analysis of the CD11b-defined subsets revealed predominant activation of CD8+ CD11b- (cytotoxic) T-cells; CD8+ CD16+ HLA-DR+ natural killer cells were unchanged. The distribution of HLA-DR+ cells among subsets of CD4+ T-cells differed from the pattern in the CD8+ population in that selective activation of CD4+ CD45RA- (memory, helper-inducer) cells accounted for the small increase in activated CD4+ cells.(ABSTRACT TRUNCATED AT 250 WORDS)

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Reversibility of the acute toxic effect of Cyclosporin A on pancreatic B cells of Wistar rats

Hahn

Dunger

Laube

et al. 1986

Diabetologia

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This study investigated if and to what extent the acute toxic effect of Cyclosporin A on pancreatic Wistar rat B cells is reversible. After 2 weeks of treatment rats developed marked glucose intolerance accompanied by reduced pancreatic insulin content due to a loss of B cells, diminished islet DNA synthesis and decreased B-cell insulin content. Cyclosporin A had accumulated in the pancreas. Three weeks after withdrawal of Cyclosporin A, pancreatic tissue concentrations of Cyclosporin A were still 100 times larger than in serum. Glucose tolerance, however, had already improved, associated with an increase of B-cell insulin content and apparent islet replication, and the insulin response of isolated islets was reduced. Five weeks after the withdrawal of Cyclosporin A, glucose tolerance was normal, but pancreatic insulin content and relative B-cell volume were still diminished in comparison to vehicle-treated controls. Eight weeks after withdrawal, the morphometric parameters had also been normalized. The results suggest that the loss of pancreatic B cells is caused by a toxic destruction, possibly combined with an apparent decrease of replicatory activity. The acute toxic effects of Cyclosporin A in pancreatic B cells are stepwise reversible.

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Effect of Cyclosporin-A on Insulin Secretion in Vitro

Laube¹,

Hj²

1985

Horm Metab Res

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F. Laube

Toxic Effects of Cyclosporine on the Endocrine Pancreas of Wistar Rats

Aberrant Activation of CD8+ T-cell and CD8+ T-Cell Subsets in Patients With Newly Diagnosed IDDM

Reversibility of the acute toxic effect of Cyclosporin A on pancreatic B cells of Wistar rats

Effect of Cyclosporin-A on Insulin Secretion in Vitro

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