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      Evolutionary Implications of Metal Binding Features in Different Species’ Prion Protein: An Inorganic Point of View

      review-article
      1 , * , 2
      Biomolecules
      MDPI
      prion, copper, metal ions, chicken, mammal, peptide, coordination chemistry, neurodegeneration

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          Abstract

          Prion disorders are a group of fatal neurodegenerative conditions of mammals. The key molecular event in the pathogenesis of such diseases is the conformational conversion of prion protein, PrP C, into a misfolded form rich in β-sheet structure, PrP Sc, but the detailed mechanistic aspects of prion protein conversion remain enigmatic. There is uncertainty on the precise physiological function of PrP C in healthy individuals. Several evidences support the notion of its role in copper homeostasis. PrP C binds Cu 2+ mainly through a domain composed by four to five repeats of eight amino acids. In addition to mammals, PrP homologues have also been identified in birds, reptiles, amphibians and fish. The globular domain of protein is retained in the different species, suggesting that the protein carries out an essential common function. However, the comparison of amino acid sequences indicates that prion protein has evolved differently in each vertebrate class. The primary sequences are strongly conserved in each group, but these exhibit a low similarity with those of mammals. The N-terminal domain of different prions shows tandem amino acid repeats with an increasing amount of histidine residues going from amphibians to mammals. The difference in the sequence affects the number of copper binding sites, the affinity and the coordination environment of metal ions, suggesting that the involvement of prion in metal homeostasis may be a specific characteristic of mammalian prion protein. In this review, we describe the similarities and the differences in the metal binding of different species’ prion protein, as revealed by studies carried out on the entire protein and related peptide fragments.

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          Most cited references110

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          Molecular biology of prion diseases.

          Prions cause transmissible and genetic neurodegenerative diseases, including scrapie and bovine spongiform encephalopathy of animals and Creutzfeldt-Jakob and Gerstmann-Sträussler-Scheinker diseases of humans. Infectious prion particles are composed largely, if not entirely, of an abnormal isoform of the prion protein, which is encoded by a chromosomal gene. A posttranslational process, as yet unidentified, converts the cellular prion protein into an abnormal isoform. Scrapie incubation times, neuropathology, and prion synthesis in transgenic mice are controlled by the prion protein gene. Point mutations in the prion protein genes of animals and humans are genetically linked to development of neuro-degeneration. Transgenic mice expressing mutant prion proteins spontaneously develop neurologic dysfunction and spongiform neuropathology. Understanding prion diseases may advance investigations of other neurodegenerative disorders and of the processes by which neurons differentiate, function for decades, and then grow senescent.
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            Late-Neoproterozoic deep-ocean oxygenation and the rise of animal life.

            Because animals require oxygen, an increase in late-Neoproterozoic oxygen concentrations has been suggested as a stimulus for their evolution. The iron content of deep-sea sediments shows that the deep ocean was anoxic and ferruginous before and during the Gaskiers glaciation 580 million years ago and that it became oxic afterward. The first known members of the Ediacara biota arose shortly after the Gaskiers glaciation, suggesting a causal link between their evolution and this oxygenation event. A prolonged stable oxic environment may have permitted the emergence of bilateral motile animals some 25 million years later.
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              Mice devoid of PrP are resistant to scrapie.

              S.B. Prusiner proposed that the infectious agent of scraple, the prion, is PrPSc, a modified form of the normal host protein PrPC. Prn-p0/0 mice devoid of PrPC showed normal development and behavior. When inoculated with mouse scrapie prions, they remained free of scrapie symptoms for at least 13 months while wild-type controls all died within 6 months. Surprisingly, heterozygous Prn-p0/+ mice also showed enhanced resistance to scrapie. After introduction of Syrian hamster PrP transgenes, Prn-p0/0 mice became highly susceptible to hamster but not to mouse prions. These experiments show that PrPC, possibly at close to normal levels, is required for the usual susceptibility to scrapie and that lack of homology between incoming prions and the host's PrP genes retards disease.
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                Author and article information

                Journal
                Biomolecules
                Biomolecules
                biomolecules
                Biomolecules
                MDPI
                2218-273X
                23 May 2014
                June 2014
                : 4
                : 2
                : 546-565
                Affiliations
                [1 ]Department of Pharmacy, University of Pisa, Via Bonanno Pisano 6, Pisa 56126, Italy
                [2 ]Institute of Biostructures and Bioimages, National Council of Research (CNR), Viale A. Doria 6, Catania 95125, Italy; E-Mail: erizzarelli@ 123456unict.it
                Author notes
                [* ]Author to whom correspondence should be addressed; E-Mail: lamendola@ 123456farm.unipi.it ; Tel.: +39-50-221-9500; Fax: +39-50-221-9605.
                Article
                biomolecules-04-00546
                10.3390/biom4020546
                4101497
                24970230
                c4f595a5-56d1-4a8b-b59d-8d2de0c5ea06
                © 2014 by the authors; licensee MDPI, Basel, Switzerland.

                This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license ( http://creativecommons.org/licenses/by/3.0/).

                History
                : 20 February 2014
                : 29 April 2014
                : 06 May 2014
                Categories
                Review

                prion,copper,metal ions,chicken,mammal,peptide,coordination chemistry,neurodegeneration

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