Mitochondria-Targeted Therapeutics for Alzheimer's Disease: The Good, the Bad, the Potential.

TitleMitochondria-Targeted Therapeutics for Alzheimer's Disease: The Good, the Bad, the Potential.
Publication TypeJournal Article
Year of Publication2021
AuthorsMi Y, Qi G, Brinton RDiaz, Yin F
JournalAntioxid Redox Signal
Volume34
Issue8
Pagination611-630
Date Published2021 Mar 10
ISSN1557-7716
KeywordsAlzheimer Disease, Animals, Humans, Mitochondria, Neuroprotective Agents
Abstract

Alzheimer's disease (AD) is the leading cause of dementia. Thus far, 99.6% of clinical trials, including those targeting energy metabolism, have failed to exert disease-modifying efficacy. Altered mitochondrial function and disruption to the brain bioenergetic system have long-been documented as early events during the pathological progression of AD. While therapeutic approaches that directly promote mitochondrial bioenergetic machinery or eliminate reactive oxygen species have exhibited limited translatability, emerging strategies targeting nonenergetic aspects of mitochondria provide novel therapeutic targets with the potential to modify AD risk and progression. Growing evidence also reveals a critical link between mitochondrial phenotype and neuroinflammation metabolic reprogramming of glial cells. Herein, we summarize major classes of mitochondrion-centered AD therapeutic strategies. In addition, the discrepancy in their efficacy when translated from preclinical models to clinical trials is addressed. Key factors that differentiate the responsiveness to bioenergetic interventions, including sex, apolipoprotein E genotype, and cellular diversity in the brain, are discussed. We propose that the future development of mitochondria-targeted AD therapeutics should consider the interactions between bioenergetics and other disease mechanisms, which may require cell-type-specific targeting to distinguish neurons and non-neuronal cells. Moreover, a successful strategy will likely include stratification by metabolic phenotype, which varies by sex and genetic risk profile and dynamically changes throughout the course of disease. As the network of mitochondrial integration expands across intracellular and systems level biology, assessment of intended, the good, unintended consequences, the bad, will be required to reach the potential of mitochondrial therapeutics.

DOI10.1089/ars.2020.8070
Alternate JournalAntioxid Redox Signal
PubMed ID32143551
PubMed Central IDPMC7891225
Grant ListP01 AG026572 / AG / NIA NIH HHS / United States
R01 AG057931 / AG / NIA NIH HHS / United States
R37 AG053589 / AG / NIA NIH HHS / United States
Faculty Member Reference: 
Roberta Diaz Brinton, Ph.D
Fei Yin, Ph.D.