Branched-Chain Amino Acid Levels Are Related with Surrogates of Disturbed Lipid Metabolism among Older Men
Kujala, U., Peltonen, M., Laine, M. K., Kaprio, J., Heinonen, O. J., Sundvall, J., Eriksson, J. G., Jula, A., Sarna, S., & Kainulainen, H. (2016). Branched-Chain Amino Acid Levels Are Related with Surrogates of Disturbed Lipid Metabolism among Older Men. Frontiers in Medicine, 3, 57. https://doi.org/10.3389/fmed.2016.00057
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Frontiers in MedicineAuthors
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2016Copyright
© 2016 Kujala, Peltonen, Laine, Kaprio, Heinonen, Sundvall, Eriksson, Jula, Sarna and Kainulainen. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY).
Aims/hypothesis: Existing studies suggest that decreased branched-chain amino acid (BCAA) catabolism and thus elevated levels in blood are associated with metabolic disturbances. Based on such information, we have developed a hypothesis how BCAA degradation mechanistically connects to tricarboxylic acid cycle, intramyocellular lipid storage, and oxidation, thus allowing more efficient mitochondrial energy production from lipids as well as providing better metabolic health. We analyzed whether data from aged Finnish men are in line with our mechanistic hypothesis linking BCAA catabolism and metabolic disturbances.
Methods: Older Finnish men enriched with individuals having been athletes in young adulthood (n = 593; mean age 72.6 ± 5.9 years) responded to questionnaires, participated in a clinical examination including assessment of body composition with bioimpedance and gave fasting blood samples for various analytes as well as participated in a 2-h 75 g oral glucose tolerance test. Metabolomics measurements from serum included BCAAs (isoleucine, leucine, and valine).
Results: Out of the 593 participants, 59 had previously known type 2 diabetes, further 67 had screen-detected type 2 diabetes, 127 impaired glucose tolerance, and 125 impaired fasting glucose, while 214 had normal glucose regulation and one had missing glucose tolerance information. There were group differences in all of the BCAA concentrations (p ≤ 0.005 for all BCAAs), such that those with normal glucose tolerance had the lowest and those with diabetes mellitus had the highest BCAA concentrations. All BCAA levels correlated positively with body fat percentage (r = 0.29–0.34, p < 0.0001 for all). Expected associations with high BCAA concentrations and unfavorable metabolic profile indicators from metabolomics analysis were found. Except for glucose concentrations, the associations were stronger with isoleucine and leucine than with valine.
Conclusion/interpretation: The findings provided further support for our hypothesis by strengthening the idea that the efficiency of BCAA catabolism may be mechanistically involved in the regulation of fat oxidation, thus affecting the levels of metabolic disease risk factors.
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Research Council of FinlandFunding program(s)
Academy Project, AoFAdditional information about funding
The study was funded by the Ministry of Education and Culture, the Juho Vainio Foundation, the Finnish Heart Research Foundation, Paavo Nurmi Foundation, the Finnish Cultural Foundation, the Academy of Finland (grants #265240 and 263278 to JK, and # 298875 to HK), and by a grant from Medical Society of Finland, Finska Läkaresällskapet.License
Except where otherwise noted, this item's license is described as © 2016 Kujala, Peltonen, Laine, Kaprio, Heinonen, Sundvall, Eriksson, Jula, Sarna and Kainulainen. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY).
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