Litcius/Paper detail

Metabolic, structure-activity characteristics of conjugated linolenic acids and their mediated health benefits

Meijun Du, Jun Jin, Gangcheng Wu, Qingzhe Jin, Xingguo Wang

2023Critical Reviews in Food Science and Nutrition16 citationsDOI

Abstract

Conjugated linolenic acid (CLnA) is a mixture of octadecenoic acid with multiple positional and geometric isomers (including four 9, 11, 13-C18:3 isomers and three 8, 10, 12-C18:3 isomers) that is mainly present in plant seeds. In recent years, CLnA has shown many promising health benefits with the deepening of research, but the metabolic characteristics, physiological function differences and mechanisms of different isomers are relatively complex. In this article, the metabolic characteristics of CLnA were firstly reviewed, with focus on its conversion, catabolism and anabolism. Then the possible mechanisms of CLnA exerting biological effects were summarized and analyzed from its own chemical and physical characteristics, as well as biological receptor targeting characteristics. In addition, the differences and mechanisms of different isomers of CLnA in anticancer, lipid-lowering, anti-diabetic and anti-inflammatory physiological functions were compared and summarized. The current results show that the position and cis-trans conformation of conjugated structure endow CLnA with unique physical and chemical properties, which also makes different isomers have commonalities and particularities in the regulation of metabolism and physiological functions. Corresponding the metabolic characteristics of different isomers with precise nutrition strategy will help them to play a better role in disease prevention and treatment. CLnA has the potential to be developed into food functional components and dietary nutritional supplements. The advantages and mechanisms of different CLnA isomers in the clinical management of specific diseases need further study.

Topics & Concepts

ChemistryCatabolismLinolenic acidMetabolic pathwayAnabolismConjugated systemBiochemistryConjugated linoleic acidMetabolismFatty acidLinoleic acidOrganic chemistryPolymerFatty Acid Research and HealthLipid metabolism and biosynthesisCholesterol and Lipid Metabolism