Cerebrospinal Fluid-Directed rAAV9-rsATP7A Plus Subcutaneous Copper Histidinate Advance Survival and Outcomes in a Menkes Disease Mouse Model

Cerebrospinal Fluid-Directed rAAV9-rsATP7A Plus Subcutaneous Copper Histidinate Advance Survival and Outcomes in a Menkes Disease Mouse Model

Menkes disease is a lethal neurodegenerative disorder of copper metabolism caused by mutations in an evolutionarily conserved copper transporter, ATP7A. Based on our prior clinical and animal studies, we seek to develop a therapeutic approach suitable for application in affected human subjects, usin...

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Bibliographic Details
Published in:Molecular therapy. Methods & clinical development Vol. 10; no. C; pp. 165 - 178
Main Authors: Haddad, Marie Reine, Choi, Eun-Young, Zerfas, Patricia M., Yi, Ling, Martinelli, Diego, Sullivan, Patricia, Goldstein, David S., Centeno, Jose A., Brinster, Lauren R., Ralle, Martina, Kaler, Stephen G.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 21-09-2018
Elsevier Limited
Elsevier
American Society of Gene & Cell Therapy
Subjects:
adeno-associated virus
Animal models
ATP7A
Brain
Cerebrospinal fluid
choroid plexus epithelia
Copper
Cytomegalovirus
dopamine-beta-hydroxylase
Drug dosages
Enzymes
Gene therapy
Illnesses
Menkes disease
Menkes syndrome
Microscopy
Mitochondria
Mortality
Mutation
Neurodegenerative diseases
Neurons
Phenotypes
Survival
Survival analysis
United States > US
copper
choroid plexus epithelia
adeno-associated virus
ATP7A
dopamine-beta-hydroxylase
Menkes disease
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Summary:Menkes disease is a lethal neurodegenerative disorder of copper metabolism caused by mutations in an evolutionarily conserved copper transporter, ATP7A. Based on our prior clinical and animal studies, we seek to develop a therapeutic approach suitable for application in affected human subjects, using the mottled-brindled (mo-br) mouse model that closely mimics the Menkes disease biochemical and clinical phenotypes. Here, we evaluate the efficacy of low-, intermediate-, and high-dose recombinant adeno-associated virus serotype 9 (rAAV9)-ATP7A delivered to the cerebrospinal fluid (CSF), in combination with subcutaneous administration of clinical-grade copper histidinate (sc CuHis, IND #34,166). Mutant mice that received high-dose (1.6 × 1010 vg) cerebrospinal fluid-directed rAAV9-rsATP7A plus sc copper histidinate showed 53.3% long-term (≥300-day) survival compared to 0% without treatment or with either treatment alone. The high-dose rAAV9-rsATP7A plus sc copper histidinate-treated mutant mice showed increased brain copper levels, normalized brain neurochemical levels, improvement of brain mitochondrial abnormalities, and normal growth and neurobehavioral outcomes. This synergistic treatment effect represents the most successful rescue to date of the mo-br mouse model. Based on these findings, and the absence of a large animal model, we propose cerebrospinal fluid-directed rAAV9-rsATP7A gene therapy plus subcutaneous copper histidinate as a potential therapeutic approach to cure or ameliorate Menkes disease. [Display omitted]
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USDOE Office of Science (SC), Basic Energy Sciences (BES)
Z01 HD008927; R01 GM090016; Z01 HD008768; AC02-06CH11357
ISSN:2329-0501
2329-0501
DOI:10.1016/j.omtm.2018.07.002