GHB degradation via TCA cycle is the major metabolic route inArabidopsis thaliana

Abstract

AbstractGamma-hydroxybutyric acid (GHB) is a reduced product of the chemically reactive succinic semi-aldehyde (SSA), which itself is produced from the degradation of GABA. It is regarded as a short chain fatty acid. Despite our understanding of the synthesis of GHB, little is known about its fate. Exogenous application of 0.1 mM GHB topop2 x ssadh, a double mutant incapable of catabolizing GABA, increased the endogenous GHB level by 13-fold compared to the wild type. The GHB dynamic studies by feeding and relieving from treatments showed that GHB is rapidly metabolized in wild type plants compared to thepop2 x ssadhdouble mutant. Although regarded as a short chain fatty acid, GHB level was not altered in mutants of the beta oxidation pathway following exogenous feeding. Therefore, the metabolism back to SSA and then TCA cycle appears to be the major route for GHB degradation. However, the presence of another catabolic route such as secondary modifications cannot be ruled out.