Two Heme-binding Domains of Heme-regulated Eukaryotic Initiation Factor-2α Kinase

Rafie-Kolpin, Maryam; Chefalo, Peter J.; Hussain, Zareena; Hahn, James K.; Uma, Sheri; Matts, Robert L.; Chen, Jane Jane

doi:10.1074/jbc.275.7.5171

Cited by 99 publications

(91 citation statements)

References 55 publications

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“…This interpretation is not limited to the situation with isolated peptides, since recombinant IRP2 also failed to bind haem immobilized on cross-linked agarose ( Figure 6) and to produce a low-spin EPR signal with the cofactor. It is noteworthy that not all sequences containing a potential HRM have the ability to bind haem, as shown for the C-terminal portion of the haem-regulated α-subunit of eukaryotic initiation factor-2 kinase [40].…”

Section: Discussionmentioning

confidence: 99%

Human iron regulatory protein 2 is easily cleaved in its specific domain: consequences for the haem binding properties of the protein

Dycke

Bougault

Gaillard

et al. 2007

Biochemical Journal

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Mammalian IRPs (iron regulatory proteins), IRP1 and IRP2, are cytosolic RNA-binding proteins that post-transcriptionally control the mRNA of proteins involved in storage, transport, and utilization of iron. In iron-replete cells, IRP2 undergoes degradation by the ubiquitin/proteasome pathway. Binding of haem to a 73aa-Domain (73-amino-acid domain) that is unique in IRP2 has been previously proposed as the initial iron-sensing mechanism. It is shown here that recombinant IRP2 and the 73aa-Domain are sensitive to proteolysis at the same site. NMR results suggest that the isolated 73aa-Domain is not structured. Iron-independent cleavage of IRP2 within the 73aa-Domain also occurs in lung cancer (H1299) cells. Haem interacts with a cysteine residue only in truncated forms of the 73aa-Domain, as shown by a series of complementary physicochemical approaches, including NMR, EPR and UV-visible absorption spectroscopy. In contrast, the cofactor is not ligated by the same residue in the full-length peptide or intact IRP2, although non-specific interaction occurs between these molecular forms and haem. Therefore it is unlikely that the iron-dependent degradation of IRP2 is mediated by haem binding to the intact 73aa-Domain, since the sequence resembling an HRM (haem-regulatory motif) in the 73aa-Domain does not provide an axial ligand of the cofactor unless this domain is cleaved.

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Section: Discussionmentioning

confidence: 99%

Human iron regulatory protein 2 is easily cleaved in its specific domain: consequences for the haem binding properties of the protein

Dycke

Bougault

Gaillard

et al. 2007

Biochemical Journal

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“…HRI is a multidomain protein composed of five structural domains (Figure 2), namely, the N-terminal domain (NTD), the kinase I domain (K-I), the kinase insertion domain (KI), the kinase II domain (K-II) and the C-terminal domain (CTD) [56,[59][60][61]. The catalytic domain of HRI is divided in two halves, one on each side of the KI domain, and activation of HRI is thought to involve bringing residues on each of these two halves of the catalytic domain into close proximity [23,56,[59][60][61]. Two HRMs are present in HRI, one in the KI domain and the other in the CTD [23,56,[59][60][61].…”

Section: The Hri Kinase Inhibits Eucaryotic Initiation Factor 2a Durimentioning

confidence: 99%

“…The catalytic domain of HRI is divided in two halves, one on each side of the KI domain, and activation of HRI is thought to involve bringing residues on each of these two halves of the catalytic domain into close proximity [23,56,[59][60][61]. Two HRMs are present in HRI, one in the KI domain and the other in the CTD [23,56,[59][60][61]. The heme binding site in the KI domain is thought to reversibly bind heme and to play a role in the coordination of HRI activity with changes in heme concentration [61].…”

Section: The Hri Kinase Inhibits Eucaryotic Initiation Factor 2a Durimentioning

confidence: 99%

“…Two HRMs are present in HRI, one in the KI domain and the other in the CTD [23,56,[59][60][61]. The heme binding site in the KI domain is thought to reversibly bind heme and to play a role in the coordination of HRI activity with changes in heme concentration [61]. The second heme binding site, contained in the NTD without an HRM, consists of a stably bound heme that co-purifies with HRI [59,62].…”

Section: The Hri Kinase Inhibits Eucaryotic Initiation Factor 2a Durimentioning

confidence: 99%

“…The isolated NTD stably binds heme but does not display any kinase activity. The CTD domain does not bind to heme, although it contains an HRM motif [61].…”

Section: The Hri Kinase Inhibits Eucaryotic Initiation Factor 2a Durimentioning

confidence: 99%

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Analysis of the regulatory and catalytic domains of PTEN-induced kinase-1 (PINK1)

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Mutations of the phosphatase and tensin homolog (PTEN)-induced kinase 1 (PINK1) gene can cause early-onset familial Parkinson disease (PD). PINK1 encodes a neuroprotective protein kinase localized at the mitochondria, and its involvement in regulating mitochondrial dynamics, trafficking, structure, and function is well documented. Owing to the lack of information on structure and biochemical properties for PINK1, exactly how PINK1 exerts its neuroprotective function and how the PD-causative mutations impact on PINK1 structure and function remain unclear. As an approach to address these questions, we conducted bioinformatic analyses of the mitochondrial targeting, the transmembrane, and kinase domains of PINK1 to predict the motifs governing its regulation and function. Our report sheds light on how PINK1 is targeted to the mitochondria and how PINK1 is cleaved by mitochondrial peptidases. Moreover, it includes a potential optimal phosphorylation sequence preferred by the PINK1 kinase domain. On the basis of the results of our analyses, we predict how the PD-causative mutations affect processing of PINK1 in the mitochondria, PINK1 kinase activity, and substrate specificity. In summary, our results provide a conceptual framework for future investigation of the structural and biochemical basis of regulation and the neuroprotective mechanism of PINK1.

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Two Heme-binding Domains of Heme-regulated Eukaryotic Initiation Factor-2α Kinase

Cited by 99 publications

References 55 publications

Human iron regulatory protein 2 is easily cleaved in its specific domain: consequences for the haem binding properties of the protein

Human iron regulatory protein 2 is easily cleaved in its specific domain: consequences for the haem binding properties of the protein

Heme: a versatile signaling molecule controlling the activities of diverse regulators ranging from transcription factors to MAP kinases

Analysis of the regulatory and catalytic domains of PTEN-induced kinase-1 (PINK1)

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