2020
DOI: 10.1101/2020.04.17.047704
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Disrupted copper availability in sporadic ALS: Implications for CuII(atsm) as a treatment option

Abstract: Objective: The copper compound Cu II (atsm) is in phase 2/3 testing for treatment of the neurodegenerative disease amyotrophic lateral sclerosis (ALS). Cu II (atsm) consistently and reproducibly ameliorates neurodegeneration in mutant SOD1 mouse models of ALS where its neuroprotective activity has been ascribed in part to improving availability of copper to essential cuproenzymes. However, SOD1 mutations cause only ~2% of ALS cases with most cases being of unknown aetiology. Therapeutic pertinence of Cu II (at… Show more

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Cited by 11 publications
(12 citation statements)
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“…The mechanism by which these compounds cross cell membranes, their subcellular trafficking, and how they regulate cellular responses is yet unknown. However, these BTSC compounds have immense potential as neurodegenerative therapeutics, and as diagnostic and imaging agents, with early clinical trials demonstrating promising outcomes in neurodegenerative diseases (Hilton et al, 2017; Hilton et al, 2020; Hung et al, 2012; Price et al, 2011; Southon et al, 2020; Williams et al, 2016). Therefore, while the BTSCs were used as model compounds to address the central question around whether Cu is involved in the regulation of P‐gp at the BBB, they also have clinical potential and the findings from this study could provide additional insight into mechanisms associated with their benefits observed in disease models.…”
Section: Discussionmentioning
confidence: 99%
“…The mechanism by which these compounds cross cell membranes, their subcellular trafficking, and how they regulate cellular responses is yet unknown. However, these BTSC compounds have immense potential as neurodegenerative therapeutics, and as diagnostic and imaging agents, with early clinical trials demonstrating promising outcomes in neurodegenerative diseases (Hilton et al, 2017; Hilton et al, 2020; Hung et al, 2012; Price et al, 2011; Southon et al, 2020; Williams et al, 2016). Therefore, while the BTSCs were used as model compounds to address the central question around whether Cu is involved in the regulation of P‐gp at the BBB, they also have clinical potential and the findings from this study could provide additional insight into mechanisms associated with their benefits observed in disease models.…”
Section: Discussionmentioning
confidence: 99%
“…Phase II/III testing is in progress after successful completion of the phase I trial in ALS patients. In this assay involving post-mortem spinal cord tissue from sALS, it is considered that Cu II (atsm) can be beneficial to sALS, enabling copper to transfer from the complex into mutant SOD1 [ 89 ].…”
Section: Therapeutic Strategies For Als Targetsmentioning
confidence: 99%
“…17,42−44 Furthermore, disrupted copper bioavailability has been reported in sALS cases. 45 Ultimately, using CuATSM at a lower, or individualized, concentration in combination with other therapies, 14,15 such as ebselen, and considering its potential SOD1-independent mechanisms, there is therapeutic potential for a larger range of fALS or sALS cases moving forward into the clinic.…”
Section: Cuatsm-associated Toxicity Is Dependent On the Mutant's Abil...mentioning
confidence: 99%