Adjuvant Oligonucleotide Vaccine Increases Survival and Improves Lung Tissue Condition of B6.Cg-Tg (K18-ACE2)2 Transgenic Mice

Oberemok, Volodymyr V.; Laikova, Kateryna V.; Yurchenko, Kseniya A.; Novikov, Ilya A.; Makalish, Tatyana P.; Kubyshkin, Anatolii V.; Andreeva, Oksana A.; Bilyk, Anastasiya I.

doi:10.3390/scipharm91030035

Sci. Pharm.

2023

DOI: 10.3390/scipharm91030035

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Adjuvant Oligonucleotide Vaccine Increases Survival and Improves Lung Tissue Condition of B6.Cg-Tg (K18-ACE2)2 Transgenic Mice

Volodymyr V. Oberemok,

Kateryna V. Laikova,

Kseniya A. Yurchenko

et al.

Abstract: The main problem in creating anti-coronavirus vaccines that target mainly proteins of the outer membrane of the virus is the rapid variability in the RNA genome of the pathogen that encodes these proteins. In addition, the introduction of technologies that can affordably and quickly produce flexible vaccine formulas that easily adapt to the emergence of new subtypes of SARS-CoV-2 is required. Universal adjuvant oligonucleotide vaccines based on conserved regions of the SARS-CoV-2 genome can take into account t… Show more

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2024

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Antisense DNA acaricide targeting pre-rRNA of two-spotted spider miteTetranychus urticaeas efficacy-enhancing agent of fungusMetarhizium robertsii

Gavrilova,

Grizanova,

Novikov

et al. 2024

Preprint

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Two-spotted spider mite Tetranychus urticae Koch (Acari: Tetranychidae) is one of the most dangerous pests in the world and one of the most pesticide-resistant species ever. Complex biological preparations are of great interest for the acaricide market because they do not poison ecosystems and do not bioaccumulate in food products, simultaneously, pests more slowly develop resistance to complex preparations. In this study we applied complex bioformulation composed of 11-mer antisense oligonucleotide (oligonucleotide acaricide or DNA acaricide) Tur-3 and fungus Me-tarhizium robertsii for T. urticae control. We discovered that joint contact application of DNA acaricide and fungus M. robertsii significantly attenuates reproduction rate of the mite. Our results indicate that DNA acaricide Tur-3 and fungus M. robertsii act synergistically and lead to a significant 7-times elevated mortality rate and 5-times reduced fecundity of the mite. Oligonucleotide acaricide Tur-3 causes 2,5-fold reduction of expression of the target pre-rRNA of T. urticae and suppresses the activity of key players of detoxifying enzymes of its defense system (phenoloxidase, esterase, glutathione-S-transferase), on average, by 2-3 times. Oligonucleotide acaricide Tur-3 interferes with protein biosynthesis causing decrease in production of defense system enzymes of the pest. Obviously, attenuation of defense system enhances fungal infection or/and fungus produces a variety of enzymes that degrade and destroy the integument structure of the pest, aiding the penetration of oligonucleotide acaricide Tur-3. This research article is the first evidence of successful application of oligonucleotide acaricide together with fungus M. robertsii for efficient T. urticae control. Combined application of oligonucleotide acaricides based on conservative antisense sequences of rDNA of pests and fungi is a potent and selective approach for eco-friendly plant protection.

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Antisense DNA acaricide targeting pre-rRNA of two-spotted spider miteTetranychus urticaeas efficacy-enhancing agent of fungusMetarhizium robertsii

Gavrilova,

Grizanova,

Novikov

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Adjuvant Oligonucleotide Vaccine Increases Survival and Improves Lung Tissue Condition of B6.Cg-Tg (K18-ACE2)2 Transgenic Mice

Cited by 1 publication

References 43 publications

Antisense DNA acaricide targeting pre-rRNA of two-spotted spider miteTetranychus urticaeas efficacy-enhancing agent of fungusMetarhizium robertsii

Antisense DNA acaricide targeting pre-rRNA of two-spotted spider miteTetranychus urticaeas efficacy-enhancing agent of fungusMetarhizium robertsii

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