Site-directed mutagenesis of the His residues of the rat mitochondrial carnitine/acylcarnitine carrier: Implications for the role of His-29 in the transport pathway

The mitochondrial carnitine/acylcarnitine carrier (CAC) of Rattus norvegicus contains two His, His-29 and His-205. Only the first residue is conserved in all the members of the CAC subfamily and is positioned before the first of the three conserved motifs. In the homology model of CAC, His-29 is located in H1 close to the bottom of the central cavity. His-205 is the first amino acid of H5 and it is exposed towards the cytosol. The effect of substitution of the His residues on the transport function of the reconstituted mutant CACs has been analysed, in comparison with the wild-type. H29A showed very low activity, H29K and H29D were nearly inactive, whereas H205A, H205K and H205D showed activities similar to that of the wild-type. His-29 has also been substituted with Gln, Asn, Phe and Tyr. All the mutants showed very low transport function and, similarly to H29A, higher Km, reduced Vmax and altered selectivity towards (n)acylcarnitines, with the exception of H29Q, which exhibited functional properties similar to those of the wild-type. The experimental data, together with a comparative analysis of the carnitine acyltranferase active sites, indicated that His-29 forms an H-bond with the β-OH of carnitine. The substitution of His-205 led to a change of response of the CAC to the pH. The results are discussed in terms of relationships of His-29 with the molecular mechanism of translocation of the CAC.     

Conformation-dependent accessibility of Cys-136 and Cys-155 of the mitochondrial rat carnitine/acylcarnitine carrier to membrane-impermeable SH reagents

During substrate translocation mitochondrial carriers cycle between the cytoplasmic-state (c-state) with substrate-binding site open to the intermembrane space and matrix-state (m-state) with the binding site open to the mitochondrial matrix. Here, the accessibility of Cys-58, Cys-136 and Cys-155 of the rat mitochondrial carnitine/acylcarnitine carrier (CAC) to membrane-impermeable SH reagents was examined as a function of the conformational state. Reconstituted mutant CACs containing the combinations Cys-58/Cys-136, Cys-58/Cys-155, and Cys-136/Cys-155 transport carnitine with a ping-pong mechanism like the wild-type, since increasing substrate concentrations on one side of the membrane decreased the apparent affinity for the substrate on the other side. In view of this mechanism, the effect of SH reagents on the transport activity of mutant CACs was tested by varying the substrate concentration inside or outside the proteoliposomes, keeping the substrate concentration on the opposite side constant. The reagents MTSES, MTSEA and fluorescein-5-maleimide did not affect the carnitine/carnitine exchange activity of the mutant carrier with only Cys-58 in contrast to mutant carriers with Cys-58/Cys-136, Cys-58/Cys-155 or Cys-136/Cys-155. In the latter, the inhibitory effect of the reagents was more pronounced when the intraliposomal carnitine concentration was increased, favouring the m-state of the carrier, whereas the effect was less when the concentration of carnitine was increased in the external compartment of the proteoliposomes, favouring the c-state. Moreover, the mutant carrier proteins with Cys-136/Cys-155, Cys-58/Cys-136 or Cys-58/Cys-155 were more fluorescent when extracted from fluorescein-5-maleimide-treated proteoliposomes containing 15 mM internal carnitine as compared to 2.5 mM. These results are discussed in terms of conformational changes of the carrier occurring during substrate translocation.