Phosphorylase was purified from young and senescent potato tubers. Antibodies raised against the enzyme from young tubers crossreacted with phosphorylase from old tissue, although the latter exhibited different physico-chemical properties. In polyacrylamide gel electrophoresis it migrated with higher mobility, its subunit molecular weight was determined in the range of 40,000 in contrast to 100,000 of the phosphorylase in young tubers. The enzyme of senescent tubers displayed an isoelectric point of 5.4 different from the one of young tubers with 5.0, and the diffusion coefficients of the two enzymes varied. The appearance of the phosphorylase form typical for senescent tissue is connected with changes in the intracellular localization as revealed by immunofluorescence. Before massive starch accumulation is initiated, non-vacuolated subepidermal cells contain antigenically active material in their cytoplasm. During starch accumulation in fully differentiated storage parenchyma, only amyloplasts fluoresce, indicating the presence of adsorbed phosphorylase protein. Cytoplasmic phosphorylase can be detected in the continuance of senescence and, finally, after 16 months of tuber storage, the particle-bound enzyme had mostly disappeared. Simultaneously, we observed membrane destruction and decomposition on the ultrastructural level. The phosphorylase from senescent potatoes is a converted molecule and seems to be formed by proteolytic cleavage. The location of phosphorylase in the amyloplasts during starch synthesis indicates that it also plays a role in starch synthesis and not only in its degradation.
In experimentally exposed animals 2,3,7,8-tetrachlorodibenzo-n-dioxin (TCDD) causes severe immunosuppression. However, the overall susceptibility of humans for the different pathological effects of TCDD has remained unclear. We examined the long-term effects of TCDD in 11 industrial workers who were exposed to high doses of TCDD for several years 20 years ago. Current TCDD body burdens were still at least 10 times higher (between 43 and 874 pg/g blood far) in these exposed persons than in the average German population. To evaluate possible TCDD-induced changes in the percentage of different lymphocyte subsets, we determined a large panel of lymphocyte subsets in the blood by flow cytometric analysis. Immunocompetence of T-and B-lymphocytes was tested by nitrogen (phytohemagglutinin, pokeweed mitogen)- induced lymphoproliferation assays and by assays using sensitive mixed-lymphocyte cultures. No significant differences could be detected between the individuals tested and controls for surface marker distribution or mitogen-induced lymphoproliferation TCDD-exposed subjects showed a reduced response to human lymphocyte antigen-allogeneic lymphocytes and interleukin-2-boosted proliferation. Responder cells of the dioxin-exposed persons proliferated less in response to irradiated stimulator cells (p < or = 0.05), and the third-party mixed lymphocyte reaction against unirradiated stimulator cells revealed suppressive activity in the responder cell fraction compared to the controls (p < or = 0.01). Furthermore, the capacity of a pool of T cells isolated from TCDD-exposed subjects to proliferate upon interleukin-2 stimulation was significantly diminished (p < or = 0.05). TCDD has a long-term immunosuppressive-effect on T-helper cell function, which is mediated more likely by a reduced functionality of individual cells rather than by a reduction in absolute cell numbers in the peripheral blood.
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