Rezvan Zabihollahi scite author profile

Background: Despite the progress in the discovery of antiretroviral compounds for treating HIV-1 infection by targeting HIV integrase (IN), a promising and well-known drug target against HIV-1, there is a growing need to increase the armamentarium against HIV, for avoiding the drug resistance issue. Objective: To develop novel HIV-1 IN inhibitors, a series of 3-hydroxy-pyrane-4-one (HP) and 3- hydroxy-pyridine-4-one (HPO) derivatives have been rationally designed and synthesized. Methods: To provide a significant characterization of the novel compounds, in-depth computational analysis was performed using a novel HIV-1 IN/DNA binary 3D-model for investigating the binding mode of the newly conceived molecules in complex with IN. The 3D-model was generated using the proto-type foamy virus (PFV) DNA as a structural template, positioning the viral polydesoxyribonucleic chain into the HIV-1 IN homology model. Moreover, a series of in vitro tests were performed including HIV-1 activity inhibition, HIV-1 IN activity inhibition, HIV-1 IN strand transfer activity inhibition and cellular toxicity. Results: Bioassay results indicated that most of HP analogues including HPa, HPb, HPc, HPd, HPe and HPg, showed favorable inhibitory activities against HIV-1-IN in the low micromolar range. Particularly halogenated derivatives (HPb and HPd) offered the best biological activities in terms of reduced toxicity and optimum inhibitory activities against HIV-1 IN and HIV-1 in cell culture. Conclusion: Halogenated derivatives, HPb and HPd, displayed the most promising anti-HIV profile, paving the way to the optimization of the presented scaffolds for developing new effective antiviral agents.

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Synthesis, biological evaluation, and molecular modeling studies of new 1,3,4-oxadiazole- and 1,3,4-thiadiazole-substituted 4-oxo-4H-pyrido[1,2-a]pyrimidines as anti-HIV-1 agents

Hajimahdi

Zarghi

Zabihollahi

et al. 2012

Med Chem Res

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Design, synthesis and anti-HIV-1 evaluation of a series of 5-hydroxypyridine-4-one derivatives as possible integrase inhibitors

et al. 2015

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Application of Outer Membrane Vesicle of Neisseria meningitidis Serogroup B as a New Adjuvant to Induce Strongly Th1-Oriented Responses Against HIV-1

Aghasadeghi

Salmani²,

Sadat³

et al. 2011

CHR

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Despite the worldwide efforts made in the field of HIV vaccine development, an efficient AIDS vaccine strategy is still vague. Virus-like particles (VLPs) are one of the introduced aspects for HIV vaccine development since the non-replicative nature of HIV VLPs, resulting from the lack of viral genomic RNA, makes them suitable for broad applications. We have previously designed and introduced non-infectious VLPs (mzNL4-3) by introduction of a deletion mutation in the reverse transcriptase and integrase coding regions of HV-1. There are evidences suggesting that an effective cellular immune response against HIV-1 is able to control and suppress viremia during primary and chronic HIV infections. In the present study we have evaluated the potency of mzNL4-3 VLPs mixed with Neisseria meningitidis serogroup B outer-membrane vesicle (OMV), which is among the microbial components with proved adjuvant properties, to induce humoral and cellular responses against HIV-1. Analysis of anti-HIV-1 responses elicited in immunized BALB/c mice following different immunization regimens indicated OMV+VLP as an immunopotent combination which significantly induced anti-HIV-1 IgG with IgG2a dominancy. Results of cytokine and ELISpot assays also showed the capability of VLP+OMV immunogen for effective induction of IFN-gamma; and IL4 secreting cells and further suggested the promotion of Th1-oriented response that was evidenced with the increased IFN-γ/IL4 secretion ratio. According to our study, HIV-1 VLPs combined with N. meningitidis B OMVs seem to be a promising approach in vaccine development against HIV-1.

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