Data di Pubblicazione:
1984
Citazione:
Lymphokines inhibit macrophage RNA synthesis / L. Varesio, H.J. Issaq, R. Kowal, E. Bonvini, D. Taramelli. - In: CELLULAR IMMUNOLOGY. - ISSN 0008-8749. - 84:1(1984 Mar), pp. 51-64.
Abstract:
The effects of lymphokine (LK) preparations on the incorporation of [3H]uridine into macrophage RNA were investigated. Supernatants from murine spleen cells activated in vitro by alloantigens or Con A, and shown to contain macrophage-activating factor (MAF), were used as the source of LK. It was observed that such LK preparations contain factor(s) causing a profound inhibition of [3H]uridine incorporation into the RNA of proteose-peptone-elicited peritoneal macrophages. Such RNA-labeling inhibitory factor (RIF) was absent in control supernatants from nonstimulated cultures, and showed activation curves similar to that of MAF. RIF activity was not due to altered permeability of macrophages to [3H]uridine nor to the changes in the specific activity of the pool of RNA precursors, but rather reflected an altered metabolism of RNA. The inhibition of RNA synthesis was dependent upon the presence of nanogram amounts of LPS as a costimulator. Moreover, the response to RIF appeared to be genetically controlled since macrophages from C3H/HeJ mice were not affected by RIF, while C3H/HeN mice were fully responsive. In parallel cultures of macrophages, LK were also tested for their MAF activity, and a strong similarity between the biological conditions in which MAF and RIF activities were expressed could be demonstrated. The assay for RIF provides a new and convenient parameter for measuring macrophage-sensitive LK activity that might be very useful for monitoring purification or for screening of T-cell hybridoma supernatants.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
animals; dose-response relationship, immunologic; endotoxins; female; fibroblasts; lymphokines; macrophage activation; macrophage-activating factors; macrophages; mice; mice, inbred AKR; mice, inbred BALB C; mice, inbred C3H; mice, inbred C57BL; RNA; immune tolerance
Elenco autori:
L. Varesio, H.J. Issaq, R. Kowal, E. Bonvini, D. Taramelli
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