We investigated the effects of six drugs on an RNA polymerase III in vitro transcription system. Adriamycin, daunorubicin, heparin, rifamycin AF/013, streptolydigin, and streptovaricin all inhibit RNA synthesis from a tRNA gene or the adenovirus 2 (AD2) VA1 RNA gene. The completed RNA polymerase III transcription complex is formed by the sequential, ordered addition of protein factors. Although both genes reportedly use the same transcription fractions for in vitro RNA synthesis, some of these drugs interfere differentially with these genes. A drug concentration that inhibits transcription from one gene may not inhibit transcription from the other gene. Adriamycin seems to block transcription if added between the binding of the individual transcription fractions. Daunorubicin appears to inhibit VA transcription only if added prior to both transcription fractions, but inhibits tRNA synthesis before and during transcription factor binding. Heparin blocks both genes between factors binding to DNA and after factor binding. Rifamycin blocks VA synthesis more effectively than tRNA synthesis. Streptolydigin blocks transcription of both genes. Streptovaricin probably blocks transcription by inhibiting early transcription complex assembly events. These drugs appear useful as appropriate probes to investigate transcription complexes since several discriminate between complexes formed on different genes during the assembly process.
Transcription by RNA polymerase II occurs after formation of a transcription complex. This complex is assembled in stages by the interaction of transcription factors with the template and/or with each other. We report on the ability of six drugs to inhibit the assembly of the RNA polymerase II transcription complex. Assembly of the complex on the adenovirus major late promoter requires several transcription factors. The normal assembly process requires that the DNA first interact with TFIIA, then with TFIID, and finally with at least four additional transcription factors (one of which is RNA polymerase II). We observed that streptolydigin (10 micrograms/ml) inhibits association of ILA and IID, and at higher concentrations (100 micrograms/ml) inhibits that IIA/IID complex from binding to DNA. Streptovaricin (100 micrograms/ml) appears to inhibit the IIA/IID interaction with DNA and prevents reinitiation (at 500 micrograms/ml). Adriamycin (1 microgram/ml) inhibits the interaction of TFIID with the IIA/DNA complex and inhibits an additional event immediately prior to, or during, elongation. Daunorubicin may be an elongation inhibitor. Heparin at 10 micrograms/ml inhibits further assembly after the IIA/IID/DNA complex has formed, and at 100 micrograms/ml also inhibits a late event in the assembly process and blocks reinitiation. Rifamycin AF/013 (100 micrograms/ml) inhibits the early events necessary to form the IIA/IID/DNA complex and (at 10 micrograms/ml) an assembly event following formation of the IIA/IID/DNA complex. Therefore, these compounds should be useful as probes for further examination of the assembly process.
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