SBIR-STTR Award

Non viral gene delivery is used in most biomedical laboratories for basic research and for many commercial and medical applications These include basic investigations into gene function modification of cells for the production of recombinant proteins and generation of genetically modified human cells for cancer therapy e g chimeric antigen receptor transgenic T cells However the delivery of DNA by transfection for gene transfer is limited by its extremely high toxicity to many cell types such as hematopoietic stem cells and other blood cell types e g human T cells Thus gene delivery by DNA transfection is very inefficient except in a subset of cell lines selected for transfectability e g HEK T cells In contrast delivery of in vitro transcribed mRNA results in robust gene expression in a very high percentage of cells without toxicity greatly out performing DNA delivery Unfortunately the transient nature of an mRNA limits the utility of this gene delivery method to special rare circumstances where a short duration of expression is acceptable But in most gene therapy settings and in many experiments permanent gene expression is desired In this proposal from B MoGen Biotechnologies Inc we will establish the feasibiliy our entirely new gene delivery system in which an RNA molecule is delivered to cells that is then converted to a DNA copy in the cell where it is efficiently integrated into the genome and expressed This novel system should combine the efficiency and non toxicity of RNA gene delivery with the permanence of DNA gene delivery The applications of this technology for research are many including numerous settings where DNA transfection is sub optimal Moreover this technology could revolutionize therapeutic gene delivery to human cells including correction of genetic diseases in blood stem cells delivery of chimeric antigen receptor transgenes to T cells and delivery of substrate DNA molecules for homology dependent repair after targeted nuclease mediated double stranded DNA cutting The technology is based on a retrotransposon from mice called the Intracisternal Type A Particle IAP which does not exist in human cells As such it is an ideal RNA based permanent gene delivery vehicle for human cells and could be applied to tissues in situ Project Narrative This proposal describes experiments designed to further refine and commercialize a new method for permanent gene transfer into cells especially primary human cells for the purpose of achieving effective gene therapy or creating cell based therapies after gene transfer The method is efficient but simple does not involve use of a virus could be used for in situ gene transfer in vivo and is highly non toxic to cells It uses delivery of single stranded ribonucleic acid RNA which can be modified to prevent activation of innate immune responses to achieve permanent gene transfer This method avoids the significant toxicities associated with delivery of double stranded deoxyribonucleic acid DNA The system is based on a mouse retrotransposon thus extending transposon based gene delivery to this family of transposable elements for the first time