2021
DOI: 10.3389/fragi.2021.782162
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INDY—From Flies to Worms, Mice, Rats, Non-Human Primates, and Humans

Abstract: I’m Not Dead Yet (Indy) is a fly homologue of the mammalian SLC13A5 (mSLC13A5) plasma membrane citrate transporter, a key metabolic regulator and energy sensor involved in health, longevity, and disease. Reduction of Indy gene activity in flies, and its homologs in worms, modulates metabolism and extends longevity. The metabolic changes are similar to what is obtained with caloric restriction (dietary restriction). Similar effects on metabolism have been observed in mice and rats. As a citrate transporter, IND… Show more

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Cited by 3 publications
(2 citation statements)
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“…However, signifi-cant species differences in target biology may result in different phenotypes in humans and mice with genetic Slc13a5 deficiencies. In particular, differences in transport kinetics could lead to different outcomes associated with Slc13a5-deficient mice or mutations or other variants in human Slc13a5 [13,50]. The high affinity/low capacity transporter in mice is completely saturated under plasma citrate concentrations of approximately 150-200 µM and cannot respond to further increases in circulating citrate, whereas the human low affinity/high capacity transporter is not saturated, and therefore, can respond to changes in citrate levels [2,51].…”
Section: Discussionmentioning
confidence: 99%
“…However, signifi-cant species differences in target biology may result in different phenotypes in humans and mice with genetic Slc13a5 deficiencies. In particular, differences in transport kinetics could lead to different outcomes associated with Slc13a5-deficient mice or mutations or other variants in human Slc13a5 [13,50]. The high affinity/low capacity transporter in mice is completely saturated under plasma citrate concentrations of approximately 150-200 µM and cannot respond to further increases in circulating citrate, whereas the human low affinity/high capacity transporter is not saturated, and therefore, can respond to changes in citrate levels [2,51].…”
Section: Discussionmentioning
confidence: 99%
“…At physiological concentrations of citrate, 150–200 µM for both mouse and human, the mouse NaCT functions in a saturated manner, whereas the human NaCT does not. This may suggest physiological differences in citrate metabolism between these species and why Slc13a5 knock out (KO) mice have a milder phenotype than SDD patients [ 19 , 20 , 21 ].…”
Section: Genetics and Molecular Basismentioning
confidence: 99%