TY - JOUR
T1 - Mechanism and evidence of nonsense suppression therapy for genetic eye disorders
AU - Richardson, Rose
AU - Smart, Matthew
AU - Tracey-White, Dhani
AU - Webster, Andrew R
AU - Moosajee, Mariya
N1 - Copyright © 2017 Elsevier Ltd. All rights reserved.
PY - 2017/2
Y1 - 2017/2
N2 - Between 5 and 70% of genetic disease is caused by in-frame nonsense mutations, which introduce a premature termination codon (PTC) within the disease-causing gene. Consequently, during translation, non-functional or gain-of-function truncated proteins of pathological significance, are formed. Approximately 50% of all inherited retinal disorders have been associated with PTCs, highlighting the importance of novel pharmacological or gene correction therapies in ocular disease. Pharmacological nonsense suppression of PTCs could delineate a therapeutic strategy that treats the mutation in a gene- and disease-independent manner. This approach aims to suppress the fidelity of the ribosome during protein synthesis so that a near-cognate aminoacyl-tRNA, which shares two of the three nucleotides of the PTC, can be inserted into the peptide chain, allowing translation to continue, and a full-length functional protein to be produced. Here we discuss the mechanisms and evidence of nonsense suppression agents, including the small molecule drug ataluren (or PTC124) and next generation 'designer' aminoglycosides, for the treatment of genetic eye disease.
AB - Between 5 and 70% of genetic disease is caused by in-frame nonsense mutations, which introduce a premature termination codon (PTC) within the disease-causing gene. Consequently, during translation, non-functional or gain-of-function truncated proteins of pathological significance, are formed. Approximately 50% of all inherited retinal disorders have been associated with PTCs, highlighting the importance of novel pharmacological or gene correction therapies in ocular disease. Pharmacological nonsense suppression of PTCs could delineate a therapeutic strategy that treats the mutation in a gene- and disease-independent manner. This approach aims to suppress the fidelity of the ribosome during protein synthesis so that a near-cognate aminoacyl-tRNA, which shares two of the three nucleotides of the PTC, can be inserted into the peptide chain, allowing translation to continue, and a full-length functional protein to be produced. Here we discuss the mechanisms and evidence of nonsense suppression agents, including the small molecule drug ataluren (or PTC124) and next generation 'designer' aminoglycosides, for the treatment of genetic eye disease.
KW - Codon, Nonsense
KW - Eye Diseases/genetics
KW - Eye Proteins/genetics
KW - Genetic Therapy/methods
KW - Humans
U2 - 10.1016/j.exer.2017.01.001
DO - 10.1016/j.exer.2017.01.001
M3 - Review article
C2 - 28065590
SN - 0014-4835
VL - 155
SP - 24
EP - 37
JO - Experimental eye research
JF - Experimental eye research
ER -