Abstract
Inositol phosphates are key signaling molecules affecting a large variety of cellular processes. Inositol-polyphosphate multikinase (IPMK) is a central component of the inositol phosphate biosynthetic routes, playing essential roles during development. IPMK phosphorylates inositol 1,4,5-trisphosphate to inositol tetrakisphosphate and subsequently to inositol pentakisphosphate and has also been described to function as a lipid kinase. Recently, a catalytically inactive mammalian IPMK was reported to be involved in nutrient signaling by way of mammalian target of rapamycin and AMP-activated protein kinase. In yeast, the IPMK homologue, Arg82, is the sole inositol-trisphosphate kinase. Arg82 has been extensively studied as part of the transcriptional complex regulating nitrogen sensing, in particular arginine metabolism. Whether this role requires Arg82 catalytic activity has long been a matter of contention. In this study, we developed a novel method for the real time study of promoter strength in vivo and used it to demonstrate that catalytically inactive Arg82 fully restored the arginine-dependent transcriptional response. We also showed that expression in yeast of catalytically active, but structurally very different, mammalian or plant IPMK homologue failed to restore arginine regulation. Our work indicates that inositol phosphates do not regulate arginine-dependent gene expression.
Highlights
The involvement of inositol phosphates produced by the yeast inositol-polyphosphate multikinase, Arg82, in transcription is controversial
A catalytically inactive mammalian Inositol-polyphosphate multikinase (IPMK) was reported to be involved in nutrient signaling by way of mammalian target of rapamycin and AMP-activated protein kinase
We developed a novel method for the real time study of promoter strength in vivo and used it to demonstrate that catalytically inactive Arg82 fully restored the arginine-dependent transcriptional response
Summary
The involvement of inositol phosphates produced by the yeast inositol-polyphosphate multikinase, Arg, in transcription is controversial. A catalytically inactive mammalian IPMK was reported to be involved in nutrient signaling by way of mammalian target of rapamycin and AMP-activated protein kinase. The IPMK homologue, Arg, is the sole inositol-trisphosphate kinase. Arg has been extensively studied as part of the transcriptional complex regulating nitrogen sensing, in particular arginine metabolism Whether this role requires Arg catalytic activity has long been a matter of contention. The IPMK homologue Arg (or Ipk2) is the sole inositol-trisphosphate kinase [11] It was originally identified in a screen for mutants unable to grow on alternative nitrogen sources (arginine/ornithine) [12]. A long running controversy surrounds the requirement for Arg catalytic activity in regulating arginine metabolism, the role of putative inositol phosphates produced by Arg82 [14, 15]. We developed a novel transcriptional assay that allows real time measurement of arginine-regulated promoters in vivo
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