Metabolic evidence for distinct pyruvate pools inside plant mitochondria

Author:

Le Xuyen H.ORCID,Lee Chun-PongORCID,Monachello DarioORCID,Millar A. HarveyORCID

Abstract

AbstractThe majority of the pyruvate inside plant mitochondria is either transported into the matrix from the cytosol via the mitochondria pyruvate carrier (MPC) or synthesised in the matrix by alanine aminotransferase (AlaAT) or NAD-malic enzyme (NAD-ME). Pyruvate from these origins could mix into a single pool in the matrix and contribute indistinguishably to respiration, or they could maintain a degree of independence in metabolic regulation. Here, we demonstrated that feeding isolated mitochondria with U-13C-pyruvate and unlabelled malate enables the assessment of pyruvate contribution from different sources to TCA cycle intermediate production. Imported pyruvate is the preferred source for citrate production even when the synthesis of NAD-ME-derived pyruvate was optimised. Genetic or pharmacological elimination of MPC activity removed this preference and allowed an equivalent amount of citrate to be generated from the pyruvate produced by NAD-ME. Increasing mitochondrial pyruvate pool size by exogenous addition only affected metabolites from pyruvate transported by MPC whereas depleting pyruvate pool size by transamination to alanine only affected metabolic products derived from NAD-ME. Together, these data reveal respiratory substrate supply in plants involves distinct pyruvate pools inside the matrix that can be flexibly mixed based on the rate of pyruvate transport from the cytosol. These pools are independently regulated and contribute differentially to organic acids export from plant mitochondria.Significance statementPyruvate is the primary respiratory substrate for energy production to support plant growth and development. However, it is also the starting material of many other pathways. Prioritisation of respiratory use over other competing pathways would enable a level of control when pyruvate is delivered to mitochondria via the mitochondrial pyruvate transporter. We demonstrated the existence of two distinct pyruvate pools in plant mitochondria suggesting inner mitochondrial organisation allows metabolic heterogeneity, hence metabolic specialisation. This explains why NAD-ME flux into plant respiration is low and confirms the prominent link between imported pyruvate and energy production. This compartmentation also reveals how NAD-ME supplies substrate to the mitochondrial pyruvate exporter in plants, especially during C4 metabolism.

Publisher

Cold Spring Harbor Laboratory

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