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Premature termination codon readthrough upregulates progranulin expression and improves lysosomal function in preclinical models of GRN deficiency
Journal article   Open access

Premature termination codon readthrough upregulates progranulin expression and improves lysosomal function in preclinical models of GRN deficiency

J. Frew, A. Baradaran-Heravi, A.D. Balgi, X. Wu, T.D. Yan, S. Arns, F.S. Shidmoossavee, J. Tan, J.B. Jaquith, K.R. Jansen-West, …
Molecular Neurodegeneration, Vol.15(1), 21
2020
PMID: 32178712

Abstract

Animals Cells, Cultured Codon, Nonsense Codon, Terminator Frontotemporal Lobar Degeneration Gene Expression Gentamicins HEK293 Cells Humans Lysosomes Mice Neurons Progranulins Up-Regulation antibiotic g 418 cathepsin D cdx 5196 cdx 5288 isoquinoline derivative phthalimide progranulin unclassified drug antibiotic g 418 gentamicin GRN protein, human animal experiment animal model animal tissue Article astrocyte controlled study enhancer region frontotemporal dementia gene knock-in gene overexpression HEK293 cell line heterozygosity homozygosity human human cell in vivo study induced pluripotent stem cell lysosome mouse nerve cell nerve cell culture nonhuman nonsense mutation pathogenesis phenotype proof of concept protein deficiency protein expression stop codon upregulation animal biosynthesis cell culture drug effect frontotemporal dementia gene expression genetics lysosome metabolism stop codon
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https://www.scopus.com/inward/record.uri?eid=2-s2.0-85082016079&doi=10.1186%2fs13024-020-00369-5&partnerID=40&md5=ecbe8c9d2c9bea33e6af82086bcbe46cView
url
https://doi.org/10.1186/s13024-020-00369-5View
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