Mitochondrial aldehyde dehydrogenase and cardiac diseases

CH Chen, L Sun, D Mochly-Rosen - Cardiovascular research, 2010 - academic.oup.com
CH Chen, L Sun, D Mochly-Rosen
Cardiovascular research, 2010academic.oup.com
Numerous conditions promote oxidative stress, leading to the build-up of reactive aldehydes
that cause cell damage and contribute to cardiac diseases. Aldehyde dehydrogenases
(ALDHs) are important enzymes that eliminate toxic aldehydes by catalysing their oxidation
to non-reactive acids. The review will discuss evidence indicating a role for a specific ALDH
enzyme, the mitochondrial ALDH2, in combating oxidative stress by reducing the cellular
'aldehydic load'. Epidemiological studies in humans carrying an inactive ALDH2, genetic …
Abstract
Numerous conditions promote oxidative stress, leading to the build-up of reactive aldehydes that cause cell damage and contribute to cardiac diseases. Aldehyde dehydrogenases (ALDHs) are important enzymes that eliminate toxic aldehydes by catalysing their oxidation to non-reactive acids. The review will discuss evidence indicating a role for a specific ALDH enzyme, the mitochondrial ALDH2, in combating oxidative stress by reducing the cellular ‘aldehydic load’. Epidemiological studies in humans carrying an inactive ALDH2, genetic models in mice with altered ALDH2 levels, and small molecule activators of ALDH2 all highlight the role of ALDH2 in cardioprotection and suggest a promising new direction in cardiovascular research and the development of new treatments for cardiovascular diseases.
Oxford University Press