TY - JOUR
T1 - Combining nonsense mutation suppression therapy with nonsense-mediated decay inhibition in neurofibromatosis type 1
AU - Osum, Sara H.
AU - Oribamise, Eunice I.
AU - Corbière, Stanislas M.A.S.
AU - Taisto, Mandy
AU - Jubenville, Tyler
AU - Coutts, Alex
AU - Kirstein, Mark N.
AU - Fisher, James
AU - Moertel, Christopher
AU - Du, Ming
AU - Bedwell, David
AU - Largaespada, David A.
AU - Watson, Adrienne L.
N1 - Publisher Copyright:
© 2023
PY - 2023/9/12
Y1 - 2023/9/12
N2 - Neurofibromatosis type 1 (NF1) results from germline mutations in the tumor-suppressor gene NF1 and predisposes patients to developing nervous system tumors. Twenty percent of NF1 patients harbor nonsense mutations resulting in premature termination codons (PTCs). Nonsense suppression therapies can facilitate ribosomal readthrough of PTCs to restore full-length protein, but their potential in NF1 is underexplored. We developed a minipig model of NF1 carrying a PTC to test whether nonsense suppression could restore expression of the NF1-encoded protein neurofibromin in vitro and in vivo. Nonsense suppression did not reliably increase neurofibromin in primary NF1−/− Schwann cells isolated from minipig neurofibromas but could reduce phosphorylated ERK. Gentamicin in vivo produced a similar plasma pharmacokinetic profile to humans and was detectable in clinically relevant tissues, including cerebral cortex, sciatic nerve, optic nerve, and skin. In gentamicin-treated animals, increased neurofibromin expression was seen in the optic nerve. Nonsense-mediated decay (NMD) causes degradation of transcripts with PTCs, which could impede nonsense suppression therapies. Nonsense suppression in combination with NMD inhibition restored neurofibromin protein expression in primary NF1−/− Schwann cells isolated from minipig neurofibromas. Thus, the effectiveness of nonsense suppression therapies can be improved in NF1 by the concurrent use of NMD inhibitors.
AB - Neurofibromatosis type 1 (NF1) results from germline mutations in the tumor-suppressor gene NF1 and predisposes patients to developing nervous system tumors. Twenty percent of NF1 patients harbor nonsense mutations resulting in premature termination codons (PTCs). Nonsense suppression therapies can facilitate ribosomal readthrough of PTCs to restore full-length protein, but their potential in NF1 is underexplored. We developed a minipig model of NF1 carrying a PTC to test whether nonsense suppression could restore expression of the NF1-encoded protein neurofibromin in vitro and in vivo. Nonsense suppression did not reliably increase neurofibromin in primary NF1−/− Schwann cells isolated from minipig neurofibromas but could reduce phosphorylated ERK. Gentamicin in vivo produced a similar plasma pharmacokinetic profile to humans and was detectable in clinically relevant tissues, including cerebral cortex, sciatic nerve, optic nerve, and skin. In gentamicin-treated animals, increased neurofibromin expression was seen in the optic nerve. Nonsense-mediated decay (NMD) causes degradation of transcripts with PTCs, which could impede nonsense suppression therapies. Nonsense suppression in combination with NMD inhibition restored neurofibromin protein expression in primary NF1−/− Schwann cells isolated from minipig neurofibromas. Thus, the effectiveness of nonsense suppression therapies can be improved in NF1 by the concurrent use of NMD inhibitors.
KW - MT: Delivery Strategies
KW - minipig
KW - neurofibromatosis
KW - nonsense mutations
KW - nonsense suppression
KW - pharmacokinetics
KW - preclinical models
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U2 - 10.1016/j.omtn.2023.06.018
DO - 10.1016/j.omtn.2023.06.018
M3 - Article
C2 - 37520682
AN - SCOPUS:85165005667
SN - 2162-2531
VL - 33
SP - 227
EP - 239
JO - Molecular Therapy Nucleic Acids
JF - Molecular Therapy Nucleic Acids
ER -