Nonviral gene delivery to the liver

Abstract: Diseases of the liver have a large impact on human health. Genetic disorders, metabolic disorders, alcoholism, cancer, or infections can all impair liver function. If serious enough, a liver transplant may be necessary, a major surgical procedure which requires lifelong immune suppression and relies on the availability of donor livers. Gene therapy is being intensively studied as a potential method to treat many disorders, including disorders of the liver. While viral gene therapy has seen some success, possib… Show more

“…RNase H cleavage is the dominant mechanism of antisense oligonucleotide (ASO) therapies, in which a DNA or modified DNA oligonucleotide is delivered that represses translation of a target mRNA through sequence-specific hybridization and subsequent RNase H cleavage and inactivation201 . Previous data from our lab had demonstrated that hydrodynamic dosing of a DNA oligo(T) hybridized to the mRNA poly(A) tail gave equivalent level of expression as dosing mRNA with no poly(A) tail86 , indicating that RNase H was active in vivo after hydrodynamic dosing, in this case to cleave off the poly(A) tail.To prove that RNase H was able to cleave off the tail extensions, SphI (+239) RNA and LU (+5,000) RNA were hybridized with the DNA oligo and incubated with E.coli RNase H. This resulted in distinct bands indicative of RNase H-specific cleavage(Figure 3-7B). The LU (+5,000) mRNA likely had multiple annealing and cleavage points.…”

“…Delivery regarding DNA have been reviewed by members of our lab elsewhere 85,86 . This section focuses on the current state of mRNA delivery in the field and how those barriers are overcome (see Figure 1-9 for a summary).…”

Metabolic stability and persistence of expression of mRNA for nonviral gene delivery

“…RNase H cleavage is the dominant mechanism of antisense oligonucleotide (ASO) therapies, in which a DNA or modified DNA oligonucleotide is delivered that represses translation of a target mRNA through sequence-specific hybridization and subsequent RNase H cleavage and inactivation201 . Previous data from our lab had demonstrated that hydrodynamic dosing of a DNA oligo(T) hybridized to the mRNA poly(A) tail gave equivalent level of expression as dosing mRNA with no poly(A) tail86 , indicating that RNase H was active in vivo after hydrodynamic dosing, in this case to cleave off the poly(A) tail.To prove that RNase H was able to cleave off the tail extensions, SphI (+239) RNA and LU (+5,000) RNA were hybridized with the DNA oligo and incubated with E.coli RNase H. This resulted in distinct bands indicative of RNase H-specific cleavage(Figure 3-7B). The LU (+5,000) mRNA likely had multiple annealing and cleavage points.…”

“…Delivery regarding DNA have been reviewed by members of our lab elsewhere 85,86 . This section focuses on the current state of mRNA delivery in the field and how those barriers are overcome (see Figure 1-9 for a summary).…”

Metabolic stability and persistence of expression of mRNA for nonviral gene delivery