AI Article Synopsis
- Spinal Muscular Atrophy (SMA) results from the loss of the SMN1 gene, leading to muscle degeneration and loss of motor function, while the SMN2 gene is a potential target for treatment due to its presence in SMA patients.
- A new intermediate mouse model of SMA has been developed that retains a slightly more functional version of the SMN protein, designated as SMN read-through (SMN(RT)), which shows reduced disease severity and extended survival compared to severe SMA models.
- This model allows for the testing of various therapeutic strategies, both dependent and independent of SMN2, while also validating the efficacy of the SMN(RT) protein in living organisms.
Article Abstract
Spinal Muscular Atrophy (SMA) is due to the loss of the survival motor neuron gene 1 (SMN1), resulting in motor neuron (MN) degeneration, muscle atrophy and loss of motor function. While SMN2 encodes a protein identical to SMN1, a single nucleotide difference in exon 7 causes most of the SMN2-derived transcripts to be alternatively spliced resulting in a truncated and unstable protein (SMNΔ7). SMA patients retain at least one SMN2 copy, making it an important target for therapeutics. Many of the existing SMA models are very severe, with animals typically living less than 2 weeks. Here, we present a novel intermediate mouse model of SMA based upon the human genomic SMN2 gene. Genetically, this model is similar to the well-characterized SMNΔ7 model; however, we have manipulated the SMNΔ7 transgene to encode a modestly more functional protein referred to as SMN read-through (SMN(RT)). By introducing the SMN(RT) transgene onto the background of a severe mouse model of SMA (SMN2(+/+);Smn(-/-)), disease severity was significantly decreased based upon a battery of phenotypic parameters, including MN pathology and a significant extension in survival. Importantly, there is not a full phenotypic correction, allowing for the examination of a broad range of therapeutics, including SMN2-dependent and SMN-independent pathways. This novel animal model serves as an important biological and therapeutic model for less severe forms of SMA and provides an in vivo validation of the SMN(RT) protein.
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| http://dx.doi.org/10.1093/hmg/ddt037 | DOI Listing |
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