Please use this identifier to cite or link to this item: https://doi.org/10.1093/hmg/ddab212
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dc.titleA novel zebrafish model for intermediate type spinal muscular atrophy demonstrates importance of Smn for maintenance of mature motor neurons
dc.contributor.authorTay, Shermaine Huiping
dc.contributor.authorEllieyana, Erna Nur
dc.contributor.authorLe, Yao
dc.contributor.authorSarusie, Menachem Viktor
dc.contributor.authorGrimm, Clemens
dc.contributor.authorOhmer, Jurgen
dc.contributor.authorMathuru, Ajay S
dc.contributor.authorFischer, Utz
dc.contributor.authorWinkler, Christoph
dc.date.accessioned2022-03-29T07:55:32Z
dc.date.available2022-03-29T07:55:32Z
dc.date.issued2021-07-23
dc.identifier.citationTay, Shermaine Huiping, Ellieyana, Erna Nur, Le, Yao, Sarusie, Menachem Viktor, Grimm, Clemens, Ohmer, Jurgen, Mathuru, Ajay S, Fischer, Utz, Winkler, Christoph (2021-07-23). A novel zebrafish model for intermediate type spinal muscular atrophy demonstrates importance of Smn for maintenance of mature motor neurons. HUMAN MOLECULAR GENETICS 30 (24) : 2488-2502. ScholarBank@NUS Repository. https://doi.org/10.1093/hmg/ddab212
dc.identifier.issn0964-6906
dc.identifier.issn1460-2083
dc.identifier.urihttps://scholarbank.nus.edu.sg/handle/10635/217960
dc.description.abstractA deficiency in Survival Motor Neuron (SMN) protein results in motor neuron loss in spinal muscular atrophy (SMA) patients. Human SMN is encoded by SMN1 and SMN2 that differ by a single C6T transition in a splice regulatory region of exon 7. In SMN2, exon 7 is skipped leading to an unstable protein, which cannot compensate for SMN1 loss in SMA patients. The disease severity of human SMA (Types 1-4) depends on the levels of SMN protein, with intermediate levels leading to delayed disease onset and extended life expectancy in Type 2 patients. We used homology directed repair (HDR) to generate a zebrafish mutant with intermediate Smn levels, to mimic intermediate, hSMN2 dependent forms of SMA. In the obtained smnA6Tind27 mutant zebrafish, Smn protein formed oligomers but protein levels dropped significantly at juvenile stages. Motor neurons and neuromuscular junctions (NMJ) also formed normally initially but motor neuron loss and locomotor deficiencies became evident at 21 days. Subsequent muscle wasting and early adult lethality also phenocopied intermediate forms of human SMA. Together, our findings are consistent with the interpretation that Smn is required for neuromuscular maintenance, and establish the smnA6Tind27 zebrafish mutant as a novel model for intermediate types of SMA. As this mutant allows studying the effect of late Smn loss on motor neurons, neuromuscular junctions, and muscle at advanced stages of the disease, it will be a valuable resource for testing new drugs targeted towards treating intermediate forms of SMA.
dc.language.isoen
dc.publisherOXFORD UNIV PRESS
dc.sourceElements
dc.subjectScience & Technology
dc.subjectLife Sciences & Biomedicine
dc.subjectBiochemistry & Molecular Biology
dc.subjectGenetics & Heredity
dc.subjectNEUROMUSCULAR-JUNCTION
dc.subjectMOUSE MODEL
dc.subjectEMBRYONIC-DEVELOPMENT
dc.subjectSINGLE NUCLEOTIDE
dc.subjectANIMAL-MODEL
dc.subjectGENE
dc.subjectSURVIVAL
dc.subjectPROTEIN
dc.subjectDEFECTS
dc.subjectMICE
dc.typeArticle
dc.date.updated2022-03-29T07:16:35Z
dc.contributor.departmentBIOLOGICAL SCIENCES
dc.contributor.departmentRISK MANAGEMENT INSTITUTE
dc.description.doi10.1093/hmg/ddab212
dc.description.sourcetitleHUMAN MOLECULAR GENETICS
dc.description.volume30
dc.description.issue24
dc.description.page2488-2502
dc.published.statePublished
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