Antiretroviral drug therapy (ART) effectively suppresses replication of both the immunodeficiency viruses, human (HIV) and simian (SIV); however, virus rebounds soon after ART is withdrawn. ...SIV-infected monkeys were treated with a 90-day course of ART initiated at 5 weeks post infection followed at 9 weeks post infection by infusions of a primatized monoclonal antibody against the α₄β₇ integrin administered every 3 weeks until week 32. These animals subsequently maintained low to undetectable viral loads and normal CD4⁺ cell counts in plasma and gastrointestinal tissues for more than 9 months, even after all treatment was withdrawn. This combination therapy allows macaques to effectively control viremia and reconstitute their immune systems without a need for further therapy.
We have previously reported that two receptor tyrosine kinase inhibitors (RTKIs), called AG879 and tyrphostin A9 (A9), can each block the replication of influenza A virus in cultured cells. In this ...study, we further characterized the in vitro antiviral efficacies and specificities of these agents. The 50% effective concentration (EC50) of each against influenza A was found to be in the high nanomolar range, and the selectivity index (SI = 50% cytotoxic concentration CC50/EC50) was determined to be >324 for AG879 and 50 for A9, indicating that therapeutically useful concentrations of each drug produce only low levels of cytotoxicity. Each compound showed efficacy against representative laboratory strains of both human influenza A (H1N1 or H3N2) and influenza B viruses. Importantly, no drug-resistant influenza virus strains emerged even after 25 viral passages in the presence of AG879, whereas viruses resistant to amantadine appeared after only 3 passages. AG879 and A9 each also exhibited potent inhibitory activity against a variety of other RNA and DNA viruses, including Sendai virus (Paramyxoviridae), herpes simplex virus (Herpesviridae), mouse hepatitis virus (Coronaviridae), and rhesus rotavirus (Reoviridae), but not against Pichinde virus (Arenaviridae). These results together suggest that RTKIs may be useful as therapeutics against viral pathogens, including but not limited to influenza, due to their high selectivity indices, low frequency of drug resistance, and broad-spectrum antiviral activities.
α4β7 integrin-expressing CD4(+) T cells preferentially traffic to gut-associated lymphoid tissue (GALT) and have a key role in HIV and simian immunodeficiency virus (SIV) pathogenesis. We show here ...that the administration of an anti-α4β7 monoclonal antibody just prior to and during acute infection protects rhesus macaques from transmission following repeated low-dose intravaginal challenges with SIVmac251. In treated animals that became infected, the GALT was significantly protected from infection and CD4(+) T cell numbers were maintained in both the blood and the GALT. Thus, targeting α4β7 reduces mucosal transmission of SIV in macaques.
Telomerase synthesizes telomeric DNA by copying a short template sequence within its telomerase RNA component. We delineated nucleotides and base-pairings within a previously mapped central domain of ...the Saccharomyces cerevisiae telomerase RNA (TLC1) that are important for telomerase function and for binding to the telomerase catalytic protein Est2p. Phylogenetic comparison of telomerase RNA sequences from several budding yeasts revealed a core structure common to Saccharomyces and Kluyveromyces yeast species. We show that in this structure three conserved sequences interact to provide a binding site for Est2p positioned near the template. These results, combined with previous studies on telomerase RNAs from other budding yeasts, vertebrates, and ciliates, define a minimal universal core for telomerase RNAs.