Dengue fever is a severe, widespread, and neglected disease with more than 2 million diagnosed infections per year. The dengue virus NS2B/NS3 protease (PR) represents a prime target for rational drug design. At the moment, there are no clinical PR inhibitors (PIs) available. We have identified diaryl (thio)ethers as candidates for a novel class of PIs. Here, we report the selective and noncompetitive inhibition of the serotype 2 and 3 dengue virus PR in vitro and in cells by benzothiazole derivatives exhibiting 50% inhibitory concentrations (IC 50 s) in the low-micromolar range. Inhibition of replication of DENV serotypes 1 to 3 was specific, since all substances influenced neither hepatitis C virus (HCV) nor HIV-1 replication. Molecular docking suggests binding at a specific allosteric binding site. In addition to the in vitro assays, a cell-based PR assay was developed to test these substances in a replication-independent way. The new compounds inhibited the DENV PR with IC 50 s in the low-micromolar or submicromolar range in cells. Furthermore, these novel PIs inhibit viral replication at submicromolar concentrations. Dengue viruses (DENVs) are enveloped positive-strand RNA viruses and belong to the family Flaviviridae. DENV is the most important arthropod-borne viral infection. Over one-third of the world population lives in areas of DENV endemicity, and an estimated 390 million infections occur every year. In addition, the number of countries having experienced DENV epidemics has risen from 9 in 1970 to more than 100 today (1, 2). Furthermore, the number of diagnosed infections across America, Southeast Asia, and the Western Pacific nearly doubled from 1.2 million in 2008 to over 2.3 million in 2010 (2). Four different DENV serotypes have been identified so far. Recently, evidence for an additional subtype has been presented (3). Serotypes 1 to 4 are now prevalent in Asia, Africa, and America, and the regions where dengue is endemic are still increasing (4-6), with dengue endangering even Europe and the United States due to vector spread. DENV infections can be associated with dengue fever, but up to 88% of the infections remain inapparent (7). These nonpersistent infected patients serve besides persistently infected mosquitoes as a virus reservoir. Severe DENV infections and especially reinfections may lead to dengue hemorrhagic fever and dengue shock syndrome, with lethality up to 5% (2,8,9). There is neither a vaccination nor a specific treatment for DENV infections.The DENV genome contains a single open reading frame, which encodes the structural proteins capsid, membrane precursor (prM), and envelope and the nonstructural proteins NS1, NS2, NS3, NS4, and NS5 (10). Cellular proteases and the viral serine protease (PR) are responsible for cleaving the viral precursor polyprotein into functional proteins. The DENV PR consists of the amino-terminal domain of the NS3 protein and requires NS2B, a 14-kDa protein, as a cofactor to form a stable complex. This heterodimeric PR cleaves at the capsid-prM, NS2A/NS2...
The Human Immunodeficiency Virus type 1 (HIV-1) subtype C is currently the predominant subtype worldwide. Cell culture studies of Sub-Saharan African subtype C proviral plasmids are hampered by the low replication capacity of the resulting viruses, although viral loads in subtype C infected patients are as high as those from patients with subtype B. Here, we describe the sequencing and construction of a new HIV-1 subtype C proviral clone (pZAC), replicating more than one order of magnitude better than the previous subtype C plasmids. We identify the env-region for being the determinant for the higher viral titers and the pZAC Env to be M-tropic. This higher replication capacity does not lead to a higher cytotoxicity compared to previously described subtype C viruses. In addition, the pZAC Vpu is also shown to be able to down-regulate CD4, but fails to fully counteract CD317.
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