The Mechanism of Mitochondrial Folate Transport by the Mitochondrial Folate Transporter

Lawrence, Scott Alan

29 April 2010

The mitochondrial folate transport protein (MFT) functions to transport folates into the mitochondrial matrix. The MFT is a member of a mitochondrial carrier family (MCF) of proteins that have a high degree of sequence and structural similarities, yet they transport vastly different substrates at high specificities. In this dissertation research, the folate-specific transport mechanism of the MFT was explored using experimental and computational techniques. MFT residues that differed from MCF consensus residues in conserved PxD/ExxK/R motifs and at a predicted substrate-binding site common to all MCF proteins were investigated. Site-directed mutagenesis of these anomalous residues in the MFT revealed that these residues were adapted for optimal folate transport, and that the MCF consensus residues at these positions were incompatible with folate transport. The structure of the MFT was predicted by homology modeling using the solved crystallographic structure of the ADP/ATP carrier as a template and this model was subjected to ~75 ns of molecular dynamics simulations. These simulations predicted a stepwise descent for the folate substrate into the MFT transport cavity and implicated several aromatic and basic residues in folate recognition and orientation. A predicted set of interactions at the base of the transport cavity between the MCF PxD/ExxK/R conserved motif residues did not appear static as previously hypothesized; these interactions appeared to be induced in the presence of the folate substrate. Therefore, we believe it is unlikely that these interactions form a barrier at the base of the transport cavity. We also investigated the role of the MFT in the compartmentalization of folate metabolism. Cell lines were created that could be induced with doxycycline to express either the cytosolic or mitochondrial isoform of the enzyme folylpoly-γ-glutamate synthetase (FPGS). The constructed cell lines were used to study the flux of folylpolyglutamates across the mitochondrial membrane. It appeared that cellular folylpolyglutamates are not transported across the mitochondrial membrane in either direction. We also demonstrated that many antifolates, including methotrexate and pemetrexed, impaired mitochondrial folate uptake. We believe that these folate analogs competitively inhibit the MFT and have purified the MFT protein for future analysis in reconstituted transport systems.

folate

mitochondria

transport

MFT

mitochondrial carrier family

slc25a32

polyglutamate

molecular dynamics

inner mitochondrial membrane

Medical Pharmacology

Medical Sciences

Medicine and Health Sciences

Le transporteur ADP/ATP mitochondrial : études fonctionnelles des prolines des hélices transmembranaires 1, 3 et 5 et étude des conformations associées au transport de nucléotides / The mitochondrial ADP/ATP carrier : functional studies of the prolines in transmembrane helices 1, 3 and 5 and of the conformations associated with the nucleotide transport

Babot, Marion

04 November 2011

Le transporteur mitochondrial de nucléotides adényliques (Ancp), localisé dans la membrane interne mitochondriale, catalyse l'échange ADP/ATP entre le cytoplasme et la matrice mitochondriale. Il lie deux classes d'inhibiteurs naturels avec une grande spécificité et une haute affinité. Ces deux types d'inhibiteurs, BA et CATR, stabilisent Ancp dans deux conformations distinctes impliquées dans le transport des nucléotides. La compréhension des changements conformationnels subits par Ancp est essentielle pour décrire précisément le mécanisme d'échange des nucléotides. La structure atomique du transporteur de bœuf a montré que les hélices transmembranaires 1, 3 et 5 sont coudées par la présence de prolines qui pourraient donc être impliquées dans les changements conformationnels associés au transport.Dans la première partie de ce manuscrit, ces prolines ont été mutées en alanine ou en leucine et les conséquences de ces mutations ont été étudiées au niveau de la cellule (phénotype, morphologie, contenu en protéines) et des mitochondries en examinant le transport lui-même ainsi que toutes les fonctions mitochondriales (respiration, contenu en protéines, importation des protéines, morphologie…). Il peut-être conclu de ces études que ces prolines jouent un rôle dans le transport mais également dans la biogenèse mitochondriale (import d'Ancp, équilibre fusion/fission mitochondriale).Dans la deuxième partie, ont été étudiées des mutations qui stabilisent Ancp dans la conformation BA ou CATR. L'objectif était d'obtenir des formes stables du transporteur représentant des états intermédiaires du transport pour en étudier la structure atomique par cristallographie. Les résultats préliminaires sont prometteurs. / The mitochondrial ADP/ATP carrier (Ancp), located in the inner mitochondrial membrane, catalyzes the ADP/ATP exchange between the cytoplasm and the mitochondrial membrane. Two classes of natural inhibitors can bind to the carrier with high specificity and affinity. These two families of inhibitors, BA and CATR, stabilize Ancp in two different conformations, which are involved in the nucleotide transport. Understanding the conformational changes undergone by Ancp is essential to describe precisely the nucleotide exchange mechanism. The atomic structure of the Beef Ancp unveiled kinks in transmembrane helices 1, 3 and 5 induced by the prolines, which therefore could be involved in the conformational changes associated with the nucleotide transport. In the first part of this manuscript, the three prolines were mutated into alanine or leucine and the results of these mutations were studied at the level of the cell (phenotype, morphology, protein content) and of the mitochondria by examining the transport itself and various mitochondria functions (respiration, protein content, protein import, morphology...). It can be concluded from these studies that these prolines play a key role in the transport but also in mitochondria biogenesis (Ancp import, mitochondrial fusion/fission balance).In the second part were studied mutations that stabilize Ancp in BA or CATR conformation. The goal was to obtain stable forms of Ancp that would correspond to intermediate steps of the transport to study their atomic structure by crystallography. The preliminary results are promising.

Mitochondries

Famille des transporteurs mitochondriaux

Transporteurs ADP/ATP

Changements conformationnels

Saccharomyces cerevisiae

Mitochondria

Mitochondrial carrier family

ADP/ATP carriers

Conformational changes

Saccharomyces cerevisiae