PHA-activated lymphocytes release colony-stimulating activity (CSA) for macrophage-granulocyte precursor cells (colony forming units, CFUc) in the culture medium. Somatostatin, known to interfer with ribosomal protein synthesis, was demonstrated to reduce the release of CSA from PHA-treated mouse spleen lymphocytes.
The radioactivity in the bile and pancreatic juice of two patients was measured after intravenous injection of 75 Se-l-selenomethionine. The concentration of radioactivity in both fluids is almost equal. Thin-layer chromatography shows that the main part of radioactivity in pancreatic juice is due to unbound 75Se-selenomethionine, while free 7SSe-selenomethionine is only a minor part of the total radioactivity appearing in the bile.
Marked weight reduction of rat adrenals was observed after 131I-6beta-Iodocholesterol administration whether or not the animals were treated with metapyralone. Damage or even histologic changes of the adrenals have not been found. Though the radiation dose is high with the applied dose of 131-i-6-beta-Iodocholesterol and might limit or even prevent its application in the treatment of human adrenal disease, the influence of endogenous irradiation on rat adrenals is obvious and justifies further investigations.
Medium conditioned by human lung tissue was found to contain colony stimulating activity (CSA). This material was tested against mouse and human bone marrow as target system. Colony forming units (CFUc) from both species responded and gave rise to clonal growth in agar cultures. This colony formation was dose dependent and the relationship was a sigmoid one. Experiments to determine the molecular weight of human lung derived colony stimulating Factors brought evidence for four active molecular weight fractions with approximately 79000, 40000, 23000 and 2000 daltons. The 23000 dalton fraction activated human cells only, whereas the other fractions were active on both human and mouse bone marrow cells.
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