ABSTRACT
Messenger RNAmRNAmedicine was urgently approved in 2020 as a vaccine for COVID-19 . However, current mRNA therapeutics are not fully established, with challenges remaining in translation efficiency and drug delivery system. Therefore, further research is needed to adapt mRNA therapeutics to other diseases. Furthermore, the preparation of mRNA drugs is time-consuming and costly because of the biological methods used. Our laboratory has been working on chemical methods to solve these issues. In this paper, we introduce chemical modifications and novel capping reactions as a method to improve the translation efficiency of mRNA and the introduction of disulfide modification to oligonucleotide therapeutics as an effort on the drug delivery system.Copyright © 2023, Japan Society of Drug Delivery System. All rights reserved.
ABSTRACT
It has been proven that mRNA vaccines are highly effective against the COVID-19 outbreak, and low prevalence of side effects has been shown. However, there are still many gaps in our understanding of the biology and biosafety of nucleic acids as components of lipid nanoparticles (LNPs) most often used as a system for inctracellular delivery of mRNA-based vaccines. It is known that LNPs cause severe injection site inflammation, have broad biodistribution profiles, and are found in multiple tissues of the body, including the brain, after administration. The role of new medications with such pharmacokinetics in inflammation developing in inaccessible organs is poorly understood. The study was aimed to assess the effects of various doses of mRNA-LNP expressing the reporter protein (0, 5, 10, and 20 microg of mRNA encoding the firefly luciferase) on the expression of neuroinflammation markers (Tnfalpha, Il1beta, Gfap, Aif1) in the prefrontal cortex and hypothalamus of laboratory animals 4, 8, and 30 h after the intramuscular injection of LNP nanoemulsion. It was shown that mRNA-LNP vaccines in a dose of 10-20 microg of mRNA could enhance Aif1 expression in the hypothalamus 8 h after vaccination, however, no such differences were observed after 30 h. It was found that the Gfap, l11beta, Tnfalpha expression levels in the hypothalamus observed at different times in the experimental groups were different. According to the results, mRNA-LNPs administered by the parenteral route can stimulate temporary activation of microglia in certain time intervals in the dose-dependent and site specific manner.Copyright © 2022 Pirogov Russian National Research Medical University. All rights reserved.