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Browsing by Author "LeBlanc, Andrea C."
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Item AUTHOR CORRECTION: Rare CASP6N73T variant associated with hippocampal volume exhibits decreased proteolytic activity, synaptic transmission defect, and neurodegeneration(Springer Nature, 2021-08-03) Zhou, Libin; Nho, Kwangsik; Haddad, Maria G.; Cherepacha, Nicole; Tubeleviciute‑Aydin, Agne; Tsai, Andy P.; Saykin, Andrew J.; Sjöström, P. Jesper; LeBlanc, Andrea C.; Radiology and Imaging Sciences, School of MedicineItem Rare CASP6N73T variant associated with hippocampal volume exhibits decreased proteolytic activity, synaptic transmission defect, and neurodegeneration(Springer Nature, 2021-06-16) Zhou, Libin; Nho, Kwangsik; Haddad, Maria G.; Cherepacha, Nicole; Tubeleviciute‑Aydin, Agne; Tsai, Andy P.; Saykin, Andrew J.; Sjöström, P. Jesper; LeBlanc, Andrea C.; Radiology and Imaging Sciences, School of MedicineCaspase-6 (Casp6) is implicated in Alzheimer disease (AD) cognitive impairment and pathology. Hippocampal atrophy is associated with cognitive impairment in AD. Here, a rare functional exonic missense CASP6 single nucleotide polymorphism (SNP), causing the substitution of asparagine with threonine at amino acid 73 in Casp6 (Casp6N73T), was associated with hippocampal subfield CA1 volume preservation. Compared to wild type Casp6 (Casp6WT), recombinant Casp6N73T altered Casp6 proteolysis of natural substrates Lamin A/C and α-Tubulin, but did not alter cleavage of the Ac-VEID-AFC Casp6 peptide substrate. Casp6N73T-transfected HEK293T cells showed elevated Casp6 mRNA levels similar to Casp6WT-transfected cells, but, in contrast to Casp6WT, did not accumulate active Casp6 subunits nor show increased Casp6 enzymatic activity. Electrophysiological and morphological assessments showed that Casp6N73T recombinant protein caused less neurofunctional damage and neurodegeneration in hippocampal CA1 pyramidal neurons than Casp6WT. Lastly, CASP6 mRNA levels were increased in several AD brain regions confirming the implication of Casp6 in AD. These studies suggest that the rare Casp6N73T variant may protect against hippocampal atrophy due to its altered catalysis of natural protein substrates and intracellular instability thus leading to less Casp6-mediated damage to neuronal structure and function.