Researchers discover molecule that may be linked to athletic performance

by University of Bergen

molecule

Carnosine and its precursor beta-alanine increase muscle strength, and have recently become extremely popular as dietary supplements in competitive sports. Researchers at University of Bergen, Norway, have recently discovered an enzyme that forms beta-alanine from the common amino acid aspartic acid.

“This contrasts conventional wisdom that most beta-alanine is generated by degradation of nitrogen bases, such as uracil,” says senior author of the study, Professor Jan Haavik.

A new animal model

The researchers discovered the GADL1 enzyme 10 years ago, but have had difficulties determining the function of the enzyme. To explore the function they studied a new mouse model lacking this enzyme. The picture is now a lot clearer.

“Mice lacking the enzyme, termed GADL1, had decreased levels of carnosine peptides in all tissues examined. The reduction was most pronounced in the olfactory bulb (70-80 % reduction), a brain structure involved in sense of smell, but also affected in neurodegenerative diseases, such as Alzheimer’s disease and Parkinson’s disease.”

The reduction of carnosine was accompanied by a three-fold increase in the content ofglutathione reductase (GSR), an enzyme involved in antioxidant defense.

“In humans it has been found that genetic variants in GADL1 have been associated with many different traits, including muscle strength, subjective well-being and kidney function. The new study shows that these genetic associations may be due different capacities for formation of beta-alanine and carnosine peptides.”

“The new animal model will also be useful to investigate the role of carnosine peptides in protection against age related diseases, such as cancer, cardiovascular and neurodegenerative diseases,” says Haavik.

Explore further

Team identifies new mechanism for misfolded proteins in heart disease
More information: Elaheh Mahootchi et al. GADL1 is a multifunctional decarboxylase with tissue-specific roles in β-alanine and carnosine production, Science Advances (2020). DOI: 10.1126/sciadv.abb3713
Journal information: Science Advances
Provided by University of Bergen

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