Use of Flaviviral genetic fragments as a potential prevention strategy for HIV-1 Silencing

Use of Flaviviral genetic fragments as a potential prevention strategy for HIV-1 Silencing

Introduction: Coinfection with certain members of the Flaviviridae, such as Dengue Virus (DV), West Nile Virus (WNV) Yellow Fever Virus (YFV) and most importantly, GBV-C have been documented to reduce HIV-1 viral load in vivo. Numerous studies strongly support the notion that persistent coinfection...

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Main Authors: Muhammad Sheraz, Mazhar Kanak, Mahmudul Hasan, Roshan Bhattarai, Kuhanandha Mahalingam, Leanna A Sealey, Rashshana R Blackwood, Zhabiz Golkar, Ewen McLean, Omar Bagasra
Format: Article
Language:English
Published: The Journal of Infection in Developing Countries 2016-08-01
Series:Journal of Infection in Developing Countries
Subjects:
Flaviviruses
HIV-1
miRNAs
vaccine
Online Access:https://jidc.org/index.php/journal/article/view/7386
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Summary:Introduction: Coinfection with certain members of the Flaviviridae, such as Dengue Virus (DV), West Nile Virus (WNV) Yellow Fever Virus (YFV) and most importantly, GBV-C have been documented to reduce HIV-1 viral load in vivo. Numerous studies strongly support the notion that persistent coinfection with non-pathogenic virus prolongs survival in HIV-1 infected individuals. Coinfected individuals show higher CD4+ cell counts, lower HIV-1 RNA viral loads and live three times longer than clinically matched HIV-1 monoinfected patients. We have previously shown that one of the major anti-HIV defenses conferred by GBV-C coinfection is the upregulation of intracellular miRNAs in CD4+ cells that share significant mutual homologies with GBV-C and HIV-1 (>80%) genomes. Methodology: Genome-wide bioinformatics analyses were carried out to search for miRNA binding sites in mutual homologies between HIV and several members of the Flaviviridae Results:  Several miRNAs shared significant mutual homology with HIV-1 genetic sequences and GBV-A, B, C, DV, WNV and YFV.  These may be responsible for beneficial effects in HIV-1 infected individuals. Three highly mutual homologous miRNAs (i.e. miR-627-5, miR-369-5 and miR-548f), expressed in CD4+ cell lines, reduce HIV-1 replication by up to 90% whereas miRNAs with low mutual homologies (i.e. miR-34-1 and miR-508) impart only slight inhibition of HIV-1. Conclusion: We hypothesize that a recombinant GBV-C-based vector can be constructed which expresses several beneficial genetic motifs of the Flaviviridae without causing any side effects while stimulating a wide array of beneficial miRNAs that can more efficiently prevent HIV-1 infection.
ISSN:1972-2680

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