Mitochondrial dysfunction is the early pathological feature of Alzheimer?s disease (AD)-affected brain. Memory impairment in AD is a manifestation of brain pathologies such as accumulation of amyloid-? peptide (A?) and mitochondrial damage. Damaged mitochondria are progressively accumulated in brain over the lifetime of AD- affected neurons, which is likely attributable to inadequate clearance capacity in removing increased numbers of defective mitochondria from nerve cells. Therefore, increased or decreased levels of defective or healthy mitochondria in AD brains disturb the homeostatic balance between healthy and dysfunctional mitochondria, leading to mitochondrial pathology and contributing to cognitive dysfunction. The underlying pathogenic mechanisms and effective disease modifying therapies for AD remain elusive. PTEN-induced putative kinase 1 (PINK1) is important for maintaining mitochondrial integrity and quality control. So far, the role of PINK1 in mitochondrial pathology and cognitive dysfunction in AD remains unexplored. We hypothesize that the impairment of PINK1 function in AD underlies mitochondrial degeneration, leading to cognitive decline. Utilizing gene delivery of PINK1 technology, novel transgenic PINK1/AD models, we will elucidate PINK1- dependent mechanisms underlying A?-mediated mitochondrial alterations. The completion of this project will open up a new avenue for the treatment of AD by targeting PINK1 to maintain mitochondrial integrity.
The aim of this project is to investigate a role of PTEN-induced putative kinase 1 (PINK1) in mitochondrial pathology and cognitive function, relevant to the pathogenesis of Alzheimer?s disease. The outcomes of the proposed studies would also support that PINK1 might be a potential new therapeutic agent for improving mitochondrial function and learning and memory.
| Kalani, Komal; Yan, Shi Fang; Yan, Shirley ShiDu (2018) Mitochondrial permeability transition pore: a potential drug target for neurodegeneration. Drug Discov Today 23:1983-1989 |
