Protein Kinase pUL97 Research Articles

Direct targeting of human cytomegalovirus protein kinase pUL97 by kinase inhibitors is a novel principle for antiviral therapy.

The protein kinase pUL97, encoded by human cytomegalovirus (HCMV), is an important determinant of virus replication. Recently, indolocarbazoles were identified as a class of substances that inhibit the pUL97 kinase activity in vitro. In parallel, it was shown that indolocarbazoles interfere with HCMV replication; however, the causal relationship between inhibition of pUL97 kinase activity and virus replication has not been clarified. Here evidence is provided that indolocarbazole-mediated inhibition of virus replication is a direct result of diminished pUL97 protein kinase activity. In cell culture infections, a strong and selective antiviral activity was measured with respect to several strains of HCMV in contrast with other related or non-related viruses. For fine quantification, recombinant HCMVs expressing green fluorescent protein were used, demonstrating the high sensitivity towards compounds NGIC-I and Gö6976. Interestingly, a ganciclovir-resistant virus mutant (UL97-M460I) showed increased sensitivity to both compounds. Supporting this concept, transfection experiments with cloned pUL97 revealed that ganciclovir-resistant mutants were characterized by reduced levels of autophosphorylation compared with wild-type and possessed particularly high sensitivity to indolocarbazoles. Moreover, the Epstein-Barr virus-encoded homologous kinase, BGLF4, which showed a similar pattern of autophosphorylation and ganciclovir phosphorylation activities, was not inhibited. Importantly, a cytomegalovirus deletion mutant, lacking a functional UL97 gene and showing a severe impairment of replication, was completely insensitive to indolocarbazoles. Thus, our findings indicate that a specific block in the activity of pUL97 is the critical step in indolocarbazole-mediated inhibition of virus replication and that pUL97 might be targeted very efficiently by a novel antiviral therapy.

Inhibitors of human cytomegalovirus replication drastically reduce the activity of the viral protein kinase pUL97

The UL97-encoded protein kinase (pUL97) of human cytomegalovirus (HCMV) plays a critical role in the control of virus replication. Deletion of the UL97 gene results in a drastic reduction in the replication efficiency. Although the exact function of pUL97 remains unclear and its sensitivity to specific inhibitors is speculative, protein kinase inhibitors of the indolocarbazole class are effective inhibitors of cytomegalovirus. Based on the phosphorylation of ganciclovir (GCV), a novel quantification system for pUL97 kinase activity was established: the phosphorylated form of GCV exerts an easily quantifiable cytotoxic effect in transfected cells. Importantly, the addition of indolocarbazole compounds, Gö6976 and NGIC-I, which were highly effective at nanomolar concentrations while other protein kinase inhibitors were not, led to a significant reduction of pUL97 kinase activity. It was also demonstrated that a catalytically inactive mutant of pUL97, K355M, and a GCV-resistant mutant, M460I, were both negative for GCV phosphorylation, although protein phosphorylation remained detectable for the latter mutant. In vitro kinase assays were used to confirm the levels of pUL97-mediated phosphorylation recorded. To generate a tool for screening large numbers of putative inhibitors that preferentially interfere with GCV as well as protein phosphorylation, pUL97-expressing cell clones with stable pUL97 kinase activity were selected. This study demonstrates that certain indolocarbazole compounds are potent pUL97 inhibitors and, therefore, represent novel candidates for antiviral drugs that target viral protein kinase functions.

Indolocarbazoles exhibit strong antiviral activity against human cytomegalovirus and are potent inhibitors of the pUL97 protein kinase

We have analyzed a panel of protein kinase inhibitors (PKIs) and found that some indolocarbazoles (Gö6976, K252a, K252c) proved to be highly effective inhibitors of GCV-sensitive and -resistant human cytomegalovirus (HCMV) strains, but did not show any effect against herpes simplex virus. Antiviral activity was determined by focus reduction assays (IC 50 ranging from 0.009 to 0.4 μM). Other inhibitors of serine/threonine kinases (Gö6850, H-7, roscovitine) were found to be ineffective. Virus yield at 5 days after infection was reduced by three orders of magnitude with nanomolar concentrations of the indolocarbazoles. These compounds were fully effective when added up to 24 h post infection and showed reduced activity up to 72 h post infection. Cytotoxicity assays in proliferating and non-proliferating cells demonstrated that the effective antiviral concentration of these compounds was significantly lower than either antiproliferative (IC 50/CC 50 ranging from 6.5 to 390) or cytotoxic (IC 50/CC 50 ranging from 72.5 to 1000) doses. The effects of PKIs on the virus-encoded protein kinase pUL97 were studied using recombinant vaccinia viruses. Indolocarbazoles strongly inhibited both pUL97 autophosphorylation (IC 50 ranging from 0.0012 to 0.013 μM) and pUL97-dependent ganciclovir phosphorylation (IC 50 ranging from 0.05 to 0.26 μM). Other inhibitors of serine/threonine kinases showed only weak (Gö6850) or no (H-7, roscovitine) effect on these pUL97 functions, while oxoflavone tyrosine kinase inhibitors had no effect at all.