Involvement of Type 10 17ß-Hydroxysteroid Dehydrogenase in the Pathogenesis of Infantile Neurodegeneration and Alzheimer's Disease.

ABSTRACT

Type 10 17ß-hydroxysteroid dehydrogenase (17ß-HSD10) is the HSD17B10 gene product playing an appreciable role in cognitive functions. It is the main hub of exercise-upregulated mitochondrial proteins and is involved in a variety of metabolic pathways including neurosteroid metabolism to regulate allopregnanolone homeostasis. Deacetylation of 17ß-HSD10 by sirtuins helps regulate its catalytic activities. 17ß-HSD10 may also play a critical role in the control of mitochondrial structure, morphology and dynamics by acting as a member of the Parkin/PINK1 pathway, and by binding to cyclophilin D to open mitochondrial permeability pore. 17ß-HSD10 also serves as a component of RNase P necessary for mitochondrial tRNA maturation. This dehydrogenase can bind with the Aß peptide thereby enhancing neurotoxicity to brain cells. Even in the absence of Aß, its quantitative and qualitative variations can result in neurodegeneration. Since elevated levels of 17ß-HSD10 were found in brain cells of Alzheimer's disease (AD) patients and mouse AD models, it is considered to be a key factor in AD pathogenesis. Since data underlying Aß-binding-alcohol dehydrogenase (ABAD) were not secured from reported experiments, ABAD appears to be a fabricated alternative term for the HSD17B10 gene product. Results of this study would encourage researchers to solve the question why elevated levels of 17ß-HSD10 are present in brains of AD patients and mouse AD models. Searching specific inhibitors of 17ß-HSD10 may find candidates to reduce senile neurodegeneration and open new approaches for the treatment of AD.