Genome editing for inborn errors of metabolism: advancing towards the clinic

被引:0
作者
Jessica L. Schneller
Ciaran M. Lee
Gang Bao
Charles P. Venditti
机构
[1] SUNY Stony Brook,Department of Biomedical Engineering
[2] Medical Genomics and Metabolic Genetics Branch,Department of Bioengineering
[3] National Human Genome Research Institute,undefined
[4] National Institutes of Health,undefined
[5] Rice University,undefined
来源
BMC Medicine | / 15卷
关键词
Inborn errors of metabolism; Genome editing; CRISPR/Cas9; Zinc-finger nucleases; Liver metabolic disorders;
D O I
暂无
中图分类号
学科分类号
摘要
Inborn errors of metabolism (IEM) include many disorders for which current treatments aim to ameliorate disease manifestations, but are not curative. Advances in the field of genome editing have recently resulted in the in vivo correction of murine models of IEM. Site-specific endonucleases, such as zinc-finger nucleases and the CRISPR/Cas9 system, in combination with delivery vectors engineered to target disease tissue, have enabled correction of mutations in disease models of hemophilia B, hereditary tyrosinemia type I, ornithine transcarbamylase deficiency, and lysosomal storage disorders. These in vivo gene correction studies, as well as an overview of genome editing and future directions for the field, are reviewed and discussed herein.
引用
收藏
相关论文
共 573 条
  • [1] Lanpher B(2006)Inborn errors of metabolism: the flux from Mendelian to complex diseases Nat Rev Genet 7 449-460
  • [2] Brunetti-Pierri N(2010)Phase 2 comparison of a novel ammonia scavenging agent with sodium phenylbutyrate in patients with urea cycle disorders: safety, pharmacokinetics and ammonia control Mol Genet Metab 100 221-228
  • [3] Lee B(2005)Gene therapy for inborn errors of liver metabolism Mol Genet Metab 86 13-24
  • [4] Lee B(2011)Induction and prevention of severe hyperammonemia in the spfash mouse model of ornithine transcarbamylase deficiency using shRNA and rAAV-mediated gene delivery Mol Ther 19 854-859
  • [5] Rhead W(2015)Urea cycle disorders: a case report of a successful treatment with liver transplant and a literature review World J Gastroenterol 21 4063-4068
  • [6] Diaz GA(2015)Liver or combined liver-kidney transplantation for patients with isolated methylmalonic acidemia: who and when? J Pediatr 166 1346-1350
  • [7] Scharschmidt BF(2008)Combined liver-kidney transplant for the management of methylmalonic aciduria: a case report and review of the literature Mol Genet Metab 93 22-29
  • [8] Mian A(1992)Characterization of a preferred site on human chromosome 19q for integration of adeno-associated virus DNA by non-homologous recombination EMBO J 11 5071-5078
  • [9] Shchelochkov O(2002)Novel adeno-associated viruses from rhesus monkeys as vectors for human gene therapy Proc Natl Acad Sci U S A 99 11854-11859
  • [10] Marier JF(2008)Gene delivery to the juvenile mouse liver using AAV2/8 vectors Mol Ther 16 1081-1088
12345678910