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Glycogen branching enzyme controls cellular iron homeostasis via Iron Regulatory Protein 1 and mitoNEET.

Nature communications (2019-12-01)
Nhan Huynh, Qiuxiang Ou, Pendleton Cox, Roland Lill, Kirst King-Jones
ABSTRACT

Iron Regulatory Protein 1 (IRP1) is a bifunctional cytosolic iron sensor. When iron levels are normal, IRP1 harbours an iron-sulphur cluster (holo-IRP1), an enzyme with aconitase activity. When iron levels fall, IRP1 loses the cluster (apo-IRP1) and binds to iron-responsive elements (IREs) in messenger RNAs (mRNAs) encoding proteins involved in cellular iron uptake, distribution, and storage. Here we show that mutations in the Drosophila 1,4-Alpha-Glucan Branching Enzyme (AGBE) gene cause porphyria. AGBE was hitherto only linked to glycogen metabolism and a fatal human disorder known as glycogen storage disease type IV. AGBE binds specifically to holo-IRP1 and to mitoNEET, a protein capable of repairing IRP1 iron-sulphur clusters. This interaction ensures nuclear translocation of holo-IRP1 and downregulation of iron-dependent processes, demonstrating that holo-IRP1 functions not just as an aconitase, but throttles target gene expression in anticipation of declining iron requirements.

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Millipore
Gel d′affinità ANTI-FLAG® M2, purified immunoglobulin, buffered aqueous glycerol solution
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2-mercaptoetanolo, ≥99.0%
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Ammonium iron(III) citrate, reagent grade, powder
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Acetonitrile, anhydrous, 99.8%
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Ammonium citrate tribasic, ≥97% (titration)
Corning® syringe filters, Nylon membrane, pore size 0.45 μm
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Triton X-100, BioXtra
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Bathophenanthrolinedisulfonic acid disodium salt hydrate, 98%