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Current Medicinal Chemistry

Editor-in-Chief

ISSN (Print): 0929-8673
ISSN (Online): 1875-533X

Trends in Mitochondrial Therapeutics for Neurological Disease

Author(s): Ana Leitão-Rocha, Pedro Guedes-Dias, Brígida R. Pinho and Jorge M. A. Oliveira

Volume 22, Issue 20, 2015

Page: [2458 - 2467] Pages: 10

DOI: 10.2174/0929867322666150209160317

Price: $65

Abstract

Neuronal homeostasis is critically dependent on healthy mitochondria. Mutations in mitochondrial DNA (mtDNA), in nuclear-encoded mitochondrial components, and age-dependent mitochondrial damage, have all been connected with neurological disorders. These in clude not only typical mitochondrial syndromes with neurological features such as encephalomyopathy, myoclonic epilepsy, neuropathy and ataxia; but also secondary mitochondrial involvement in neurodegenerative disorders such as Alzheimer’s, Parkinson’s and Huntington’s disease. Unravelling the molecular aetiology of mitochondrial dysfunction opens new therapeutic prospects for diseases thus far lacking effective treatments. In this review we address recent advances on preventive strategies, such as pronuclear, spindle-chromosome complex, or polar body genome transfer to replace mtDNA and avoid disease transmission to newborns; we also address experimental mitochondrial therapeutics aiming to benefit symptomatic patients and prevent disease manifestation in those at risk. Specifically, we focus on: (1) gene therapy to reduce mutant mtDNA, such as anti-replicative therapies and mitochondriatargeted nucleases allowing favourable heteroplasmic shifts; (2) allotopic expression of recoded wild-type mitochondrial genes, including targeted tRNAs and xenotopic expression of cognate genes to compensate for pathogenic mutations; (3) mitochondria targeted-peptides and lipophilic cations for in vivo delivery of antioxidants or other putative therapeutics; and (4) modulation of mitochondrial dynamics at the level of biogenesis, fission, fusion, movement and mitophagy. Further advances in therapeutic development are hindered by scarce in vivo models for mitochondrial disease, with the bulk of available data coming from cellular models. Nevertheless, wherever available, we also address data from in vivo experiments and clinical trials, focusing on neurological disease models.

Keywords: Experimental therapeutics, gene therapy, mitochondria, mitochondrial disease, mitochondrial dynamics, neurodegeneration, neurological disease.


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