l(2)01810 causes glutamine-dependent megamitochondrial formation when it is overexpressed in Drosophila cells. In the present study, we elucidated the function of l(2)01810 during megamitochondrial formation. The overexpression of l(2)01810 and the inhibition of glutamine synthesis showed that l(2)01810 is involved in the accumulation of glutamate. l(2)01810 was predicted to contain transmembrane domains and was found to be localized to the plasma membrane. By using 14C-labelled glutamate, l(2)01810 was confirmed to uptake glutamate into Drosophila cells with high affinity (Km=69.4 μM). Also, l(2)01810 uptakes glutamate in a Na+-independent manner. Interestingly, however, this uptake was not inhibited by cystine, which is a competitive inhibitor of Na+-independent glutamate transporters, but by aspartate. A signal peptide consisting of 34 amino acid residues targeting to endoplasmic reticulum was predicted at the N-terminus of l(2)01810 and this signal peptide is essential for the protein's localization to the plasma membrane. In addition, l(2)01810 has a conserved functional domain of a vesicular-type glutamate transporter, and Arg146 in this domain was found to play a key role in glutamate transport and megamitochondrial formation. These results indicate that l(2)01810 is a novel type of glutamate transporter and that glutamate uptake is a rate-limiting step for megamitochondrial formation.
l(2)01810 is a novel type of glutamate transporter that is responsible for megamitochondrial formation
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Myoung Sup Shim, Jin Young Kim, Kwang Hee Lee, Hee Kyoung Jung, Bradley A. Carlson, Xue-Ming Xu, Dolph L. Hatfield, Byeong Jae Lee; l(2)01810 is a novel type of glutamate transporter that is responsible for megamitochondrial formation. Biochem J 15 October 2011; 439 (2): 277–286. doi: https://doi.org/10.1042/BJ20110582
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