Activity of triciribine and triciribine-5'-monophosphate against human immunodeficiency virus types 1 and 2

Triciribine (TCN) and its 5'-monophosphate (TCN-P) are novel tricyclic compounds with known antitumor activity; TCN-P is currently in phase II human clinical trials. We now report that these compounds have potent and selective activity against HIV-1 and HIV-2. Using a syncytial plaque assay, TCN and TCN-P were active against HIV-1 at 0.01-0.02 microM and had differential selectivities of 2250 and 1900, respectively, compared to 1850 for AZT. In contrast, TCN and TCN-P had minimal selectivity against human cytomegalovirus (50 and 27, respectively). TCN and TCN-P markedly inhibited HIV-1-induced p24 core antigen production, Reverse Transcriptase, and infectious virus production in a dose-dependent manner using HIV-1 acutely infected CEM-SS, H9, and persistently infected H9IIIB and U1 cells. In acutely infected PBL cells, TCN and TCN-P inhibited Reverse Transcriptase and infectious virus production but not p24 core antigen production. Using a microtiter XTT assay, TCN and TCN-P were active against a panel of HIV-1 and HIV-2 strains at IC50 values ranging from 0.02 to 0.46 microM. Evaluation of matched pairs of predrug and postdrug therapy HIV-1 isolates established that AZT-resistant and TIBO-resistant variants of HIV-1 were sensitive to TCN or TCN-P. Furthermore, unlike AZT and other fraudulent nucleosides, neither TCN, TCN-P, nor TCN-TP inhibited the viral Reverse Transcriptase. Thus, even though triciribine is a nucleoside chemically, it does not act biologically by classic nucleoside modalities but rather by a unique mechanism yet to be elucidated.