Abstract
Aminoglycosides such as gentamicin have the ability to suppress translation termination at premature stop mutations, leading to a partial restoration of protein expression and function. This observation led to studies showing that this approach may provide a viable treatment for patients with genetic diseases such as cystic fibrosis that are caused by premature stop mutations. Although aminoglycoside treatment is sometimes associated with harmful side effects, several studies have shown that the co-administration of polyanions such as poly-L-aspartic acid (PAA) can both reduce toxicity and increase the intracellular aminoglycoside concentration. In the current study we examined how the co-administration of gentamicin with PAA influenced the readthrough of premature stop codons in cultured cells and a cystic fibrosis mouse model. Using a dual luciferase readthrough reporter system in cultured cells, we found that the co-administration of gentamicin with PAA increased readthrough 20-40% relative to cells treated with the same concentration of gentamicin alone. Using a Cftr-/- hCFTR-G542X mouse model, we found that PAA also increased the in vivo nonsense suppression induced by gentamicin. Following the withdrawal of gentamicin, PAA significantly prolonged the time interval during which readthrough could be detected, as shown by short circuit current measurements and immunofluorescence. Because the use of gentamicin to suppress disease-causing nonsense mutations will require their long term administration, the ability of PAA to reduce toxicity and increase both the level and duration of readthrough has important implications for this promising therapeutic approach.
Highlights
Cular dystrophy [2] and cystic fibrosis (CF)2 [3, 4]
Because it is well documented that the co-administration of poly-L-aspartic acid (PAA) with gentamicin reduces the toxicity of aminoglycosides [13,14,15,16], these results suggest that the co-administration of these compounds may alleviate the major limitation of this therapeutic approach while enhancing its efficacy
PAA Enhances Gentamicin-induced Readthrough in CftrϪ/Ϫ hCFTR-G542X Mice—We previously reported that once daily subcutaneous injections of 5 mg/kg gentamicin or 15 mg/kg amikacin resulted in suppression of the hCFTR-G542X mutation and a partial restoration of CFTR protein and function in CftrϪ/Ϫ hCFTR-G542X mice [4]
Summary
Cell Culture and Dual Luciferase Readthrough Assays— HEK293T cells maintained as monolayer cultures were grown in Dulbecco’s modified Eagle’s medium with 4.5 gm/liter D-glucose, 584 mg/liter L-glutamine, and 110 mg/liter sodium pyruvate supplemented with 10% fetal bovine serum, 100 IU/ml penicillin, and 100 g/ml streptomycin. HEK293T cells were split into 96-well plates and treated with different concentrations of gentamicin with or without PAA for the indicated time period. The cells were transfected with the dual luciferase UGA readthrough reporter (pDB691) or CGA sense control reporter (pDB690) using FuGENE 6 (Roche Applied Science). Each well was transfected with 0.75 l of FuGENE 6 and 0.25 g of dual luciferase constructs, and cells were grown for an additional 24 or 48 h before harvesting for assays. The dual luciferase reporters used to monitor readthrough of stop codons in mammalian cells have been described previously [17, 18]. The cells were grown in 10-cm culture dishes in the presence of gentamicin (Ϯ PAA) at different concentrations for 24 h. CFTR-specific antiserum 4562 was raised against an antigen that included hCFTR NBD1 and a portion of the R domain (hCFTR amino acids 521– 828)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
