Litcius/Paper detail

Development of an SS-Cleavable pH-Activated Lipid-Like Material (ssPalm) as a Nucleic Acid Delivery Device

Hidetaka Akita

2020Biological and Pharmaceutical Bulletin20 citationsDOIOpen Access PDF

Abstract

Gene and nucleic acid-based medication is an ultimate strategy in the field of personalized medicine. A gene or short interference RNA (siRNA) molecule needs to be delivered to the appropriate organelle (i.e., nucleus and cytoplasm, respectively). We recently focused on improving the intrinsic activity of my original material (ssPalm) in terms of endosomal/lysosomal membrane destabilization activity by chemically modifying the tertiary amine structure. In parallel, I have been expanding the range of applications of ssPalms. The first application is a DNA or RNA vaccine. My crucial finding is that the vitamin E-scaffold ssPalm (ssPalmE) is highly immune-stimulative when combined with DNA. Thereafter, I redesigned the hydrophobic scaffold structure, and found that an oleic acid-scaffold ssPalm (ssPalmO) can confer anti-inflammatory characteristics. Based on this result, I further upgraded the ssPalmO, by inserting a newly designed linker with self-degradable properties.

Topics & Concepts

Nucleic acidLinkerRNAScaffoldRNA interferenceChemistryEndosomeDNACytoplasmSmall interfering RNACell biologyBiochemistryOrganelleBiologyGeneIntracellularBiomedical engineeringMedicineComputer scienceOperating systemRNA Interference and Gene DeliveryRetinoids in leukemia and cellular processesinterferon and immune responses