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101.
Tamara Bar-Magen Richard D. Sloan Daniel A. Donahue Bj?rn D. Kuhl Alexandra Zabeida Hongtao Xu Maureen Oliveira Daria J. Hazuda Mark A. Wainberg 《Journal of virology》2010,84(18):9210-9216
MK-2048 represents a prototype second-generation integrase strand transfer inhibitor (INSTI) developed with the goal of retaining activity against viruses containing mutations associated with resistance to first-generation INSTIs, raltegravir (RAL) and elvitegravir (EVG). Here, we report the identification of mutations (G118R and E138K) which confer resistance to MK-2048 and not to RAL or EVG. These mutations were selected in vitro and confirmed by site-specific mutagenesis. G118R, which appeared first in cell culture, conferred low levels of resistance to MK-2048. G118R also reduced viral replication capacity to approximately 1% that of the isogenic wild-type (wt) virus. The subsequent selection of E138K partially restored replication capacity to ≈13% of wt levels and increased resistance to MK-2048 to ≈8-fold. Viruses containing G118R and E138K remained largely susceptible to both RAL and EVG, suggesting a unique interaction between this second-generation INSTI and the enzyme may be defined by these residues as a potential basis for the increased intrinsic affinity and longer “off” rate of MK-2048. In silico structural analysis suggests that the introduction of a positively charged arginine at position 118, near the catalytic amino acid 116, might decrease Mg2+ binding, compromising enzyme function and thus leading to the significant reduction in both integration and viral replication capacity observed with these mutations.Selective pressure exerted by antiretroviral drugs, in conjunction with high viral mutation rates, promotes the inevitable emergence of drug-resistant HIV-1 variants. This necessitates an ongoing search for novel antiretroviral compounds that either have novel mechanisms and inhibit different stages of viral replication or inhibit targets that have acquired resistance to existing drugs. In the latter case, such newer next-generation agents should ideally display resistance profiles which are distinct and nonoverlapping with those of the first-generation drugs.Integration of viral cDNA into the host cell genome is a distinct feature of retroviral replication, and inhibitors of HIV-1 integrase have recently been added to the arsenal of clinically approved antiretroviral drugs. Raltegravir (RAL) was the first integrase strand transfer inhibitor (INSTI) to be approved by the U.S. Food and Drug Administration (FDA) after clinical trials showed that this drug promoted a rapid and sustained antiviral effect (13). Elvitegravir (EVG), another integrase inhibitor, is currently in phase III clinical trials (27). Resistance mutations common to both of these first-generation integrase inhibitors have been reported and can result in high levels of drug resistance (26). Mutations which engender cross-resistance between RAL and EVG have been reported in clinical trials, cell culture studies, and biochemical assays (9, 26). This has prompted the search for second-generation integrase inhibitors that might display novel patterns of resistance, allowing their use in patients who have failed therapy with RAL or EVG. MK-2048 (28) is a prototype second-generation INSTI that retains potency against viruses containing common single and double mutations observed in the clinic with first-generation agents with a 95% inhibitory concentration (IC95) in the nM range. MK-2048 has been previously reported to be active against viruses resistant to RAL and EVG (28, 29). Given common mechanisms of action among INSTIs and a lack of structural information on integrase inhibitor complexes with resistance mutations, an understanding of resistance to second-generation agents such as MK-2048 is important.This article describes the selection of resistance to MK-2048 in tissue culture and the characterization of mutations associated with such resistance, G118R and E138K. The identification of distinct mutations which appear to confer resistance to MK-2048 and not to either RAL or EVG has potential implications for understanding the structural basis for the second-generation profile of this compound as well as future drug discovery and development efforts focused on this mechanism. 相似文献
102.
Timothy HP Tan Timothy Barkham Burtram C Fielding Chih-Fong Chou Shuo Shen Seng Gee Lim Wanjin Hong Yee-Joo Tan 《Virology journal》2005,2(1):1-4
Phage N5 is one of the phages of Vibrio cholerae serovar O1 biotype El Tor (Ghosh, A. N., Ansari, M. Q., and Dutta, G. C. Isolation and morphological characterization of El Tor cholera phages. J. Gen. Virol. 70: 2241–2243, 1989). In the present communication the growth curve, molecular weight and confirmation of the genome, partial denaturation map and restriction endonuclease digestion pattern have been determined. Partial denaturation map indicates that the genome has non-permuted / invariant sequence. Presence of cohesive ends has also been documented. 相似文献
103.
104.
105.
Host DNA repair enzymes have long been assumed to play a role in HIV replication, and many different DNA repair factors have been associated with HIV. In order to identify DNA repair pathways required for HIV infection, we conducted a targeted siRNA screen using 232 siRNA pools for genes associated with DNA repair. Mapping the genes targeted by effective siRNA pools to well-defined DNA repair pathways revealed that many of the siRNAs targeting enzymes associated with the short patch base excision repair (BER) pathway reduced HIV infection. For six siRNA pools targeting BER enzymes, the negative effect of mRNA knockdown was rescued by expression of the corresponding cDNA, validating the importance of the gene in HIV replication. Additionally, mouse embryo fibroblasts (MEFs) lacking expression of specific BER enzymes had decreased transduction by HIV-based retroviral vectors. Examining the role BER enzymes play in HIV infection suggests a role for the BER pathway in HIV integration. 相似文献
106.
The role of manganese in promoting multimerization and assembly of human immunodeficiency virus type 1 integrase as a catalytically active complex on immobilized long terminal repeat substrates. 总被引:2,自引:2,他引:0 下载免费PDF全文
The integration of a DNA copy of the viral genome into the genome of the host cell is an essential step in the replication of all retroviruses. Integration requires two discrete biochemical reactions; specific processing of each viral long terminal repeat terminus or donor substrate, and a DNA strand transfer step wherein the processed donor substrate is joined to a nonspecific target DNA. Both reactions are catalyzed by a virally encoded enzyme, integrase. A microtiter assay for the strand transfer activity of human immunodeficiency virus type 1 integrase which uses an immobilized oligonucleotide as the donor substrate was previously published (D. J. Hazuda, J. C. Hastings, A. L. Wolfe, and E. A. Emini, Nucleic Acids Res. 22;1121-1122, 1994). We now describe a series of modifications to the method which facilitate study of both the nature and the dynamics of the interaction between integrase and the donor DNA. The enzyme which binds to the immobilized donor is shown to be sufficient to catalyze strand transfer with target DNA substrates added subsequent to assembly; in the absence of the target substrate, the complex was retained on the donor in an enzymatically competent state. Assembly required high concentrations of divalent cation, with optimal activity achieved at 25 mM MnCl2. In contrast, preassembled complexes catalyzed strand transfer equally efficiently in either 1 or 25 mM MnCl2, indicating mechanistically distinct functions for the divalent cation in assembly and catalysis, respectively. Prior incubation of the enzyme in 25 mM MnCl2 was shown to promote the multimerization of integrase in the absence of a DNA substrate and alleviate the requirement for high concentrations of divalent cation during assembly. The superphysiological requirement for MnCl2 may, therefore, reflect an insufficiency for functional self-assembly in vitro. Subunits were observed to exchange during the assembly reaction, suggesting that multimerization can occur either before or coincident with but not after donor binding. These studies both validate and illustrate the utility of this novel methodology and suggest that the approach may be generally useful in characterizing other details of this biochemical reaction. 相似文献
107.
Hale JJ Budhu RJ Mills SG MacCoss M Gould SL DeMartino JA Springer MS Siciliano SJ Malkowitz L Schleif WA Hazuda D Miller M Kessler J Danzeisen R Holmes K Lineberger J Carella A Carver G Emini EA 《Bioorganic & medicinal chemistry letters》2002,12(20):2997-3000
Incorporation of acidic functional groups into a lead CCR5 antagonist identified from a targeted combinatorial library resulted in compounds with enhanced anti-HIV-1 activity and attenuated L-type calcium channel affinity. 相似文献
108.
Hale JJ Budhu RJ Holson EB Finke PE Oates B Mills SG MacCoss M Gould SL DeMartino JA Springer MS Siciliano S Malkowitz L Schleif WA Hazuda D Miller M Kessler J Danzeisen R Holmes K Lineberger J Carella A Carver G Emini E 《Bioorganic & medicinal chemistry letters》2001,11(20):2741-2745
Investigations of the structure-activity relationships of 1,3,4-trisubstituted pyrrolidine human CCR5 receptor antagonists afforded orally bioavailable compounds with the ability to inhibit HIV replication in vitro. 相似文献
109.
Chemical and enzymatic modifications of integric acid and HIV-1 integrase inhibitory activity 总被引:4,自引:0,他引:4
Integric acid (1), an acyl eremophilane sesquiterpenoid, was identified as an inhibitor of HIV-1 integrase, the enzyme responsible for provirus entry into the host cell nucleus and integration in to the host genome. Chemical and enzymatic modification of integric acid led to the preparation of several selective chemical derivatives of integric acid. Preparation, HIV-1 inhibitory activity, and the structure-activity relationship against coupled and strand transfer assays are described. It appears that most of the groups present in the natural product are required for inhibition of HIV-1 integrase strand transfer activity. In contrast, inhibition of 3' processing activity is less stringent suggesting distinct SAR for the two integrase reactions. 相似文献
110.
Inhibition of human immunodeficiency virus type 1 concerted integration by strand transfer inhibitors which recognize a transient structural intermediate 总被引:1,自引:0,他引:1 下载免费PDF全文
Pandey KK Bera S Zahm J Vora A Stillmock K Hazuda D Grandgenett DP 《Journal of virology》2007,81(22):12189-12199
Human immunodeficiency virus type 1 (HIV-1) integrase (IN) inserts the viral DNA genome into host chromosomes. Here, by native agarose gel electrophoresis, using recombinant IN with a blunt-ended viral DNA substrate, we identified the synaptic complex (SC), a transient early intermediate in the integration pathway. The SC consists of two donor ends juxtaposed by IN noncovalently. The DNA ends within the SC were minimally processed (~15%). In a time-dependent manner, the SC associated with target DNA and progressed to the strand transfer complex (STC), the nucleoprotein product of concerted integration. In the STC, the two viral DNA ends are covalently attached to target and remain associated with IN. The diketo acid inhibitors and their analogs effectively inhibit HIV-1 replication by preventing integration in vivo. Strand transfer inhibitors L-870,810, L-870,812, and L-841,411, at low nM concentrations, effectively inhibited the concerted integration of viral DNA donor in vitro. The inhibitors, in a concentration-dependent manner, bound to IN within the SC and thereby blocked the docking onto target DNA, which thus prevented the formation of the STC. Although 3'-OH recessed donor efficiently formed the STC, reactions proceeding with this substrate exhibited marked resistance to the presence of inhibitor, requiring significantly higher concentrations for effective inhibition of all strand transfer products. These results suggest that binding of inhibitor to the SC occurs prior to, during, or immediately after 3'-OH processing. It follows that the IN-viral DNA complex is "trapped" by the strand transfer inhibitors via a transient intermediate within the cytoplasmic preintegration complex. 相似文献