Crystallographic studies of Helicobacter pylori chaperone HspB and human serum transferrin : metalloprotein as a template for heavy metal ions and their relevance to bismuth antiulcer drug

Wang, Minji, 汪旻稷

January 2014

Iron is important for human health and serves as a co-factor in a variety of proteins and enzymes. Human serum transferrin (hTF) is an Fe(III) transporter in blood plasma which delivers metal to cells via a receptor-mediated endocytosis. In the first part, crystal structures of FeNFeC-hTF and BiNFeC-hTF have been characterized. The N-lobes of the two structures adopt “partially opened” conformations between holo-hTF’s “closed” and apo-hTF’s “fully-opened” states. The N-lobe of BiNFeC-hTF opens wider than FeNFeC-hTF. Their metal-bound C-lobes are totally closed. Rigid-body movement and different inter-lobal hydrogen bonds for the “partially opened” conformations are observed. The binding affinities of four putative binding residues are in the order: Tyr188>Tyr95>Asp63~His249. In the N-lobe of BiNFeC-hTF, Tyr188, bicarbonate and a nitrilotriacetate (NTA) ion bind to Bi(III), whilst Tyr95 and Asp63 interact with NTA ligand. One (BiNFeC-hTF) or two (FeNFeC-hTF) glycan molecules are identified on the surface area of C-lobe. In the second part, biocoordination chemistry of selected metal ions was investigated using hTF as a template. The Al(III), Fe(III), Ga(III), Dy(III) and Yb(III)-bound hTF exhibit closed conformations in the C-lobe and “fully-opened” conformations in the N-lobe. In these structures, malonate serves as an anion in the C-lobe and provides two tunable ligation sites that lead to a less distorted octahedral coordination geometry. As a result, the large lanthanide ions (Dy(III) and Yb(III)) turn from their favored high coordination numbers (8~12) and fit into the protein’s hexadental pocket. Unexpectedly, in the presence of malonate ion and the excess amount of Dy(III) ion, the Ga(III) can be partially replaced by Dy(III), although Ga(III) has a much higher affinity than Dy(III) towards the protein. The chaperone system in Helicobacter pylorithat helps protein refold is assembled with HspB and HspA. In the third part, preliminary crystallographic work is reported for HspB and HspA. The chaperone HspB has been crystallized under various conditions and currently the diffraction resolution is 6.8Å. The co-chaperone HspA, which binds Bi(III) tightly, although its crystals diffract to 1.6Å, still needs improvement for data collection due to radiation damage.The crystal structure of HspB revealed that HspB presents as a single-ring heptamer, though it is a mixture of dimer, tetramer and a higher oligomer in solution. The interactions between HspB monomers in crystal structure are significantly weaker than that of GroEL (counterpart in Escherichia coli) monomers which may makes the HspB heptamer easier to dissociate in solution. / published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy

Molecular chaperones

Metalloproteins

Serum

Transferrin

Structure of the membrane proximal oxidoreductase domain of human Steap3, the dominant ferrireductase of the erythroid transferrin cycle

Sendamarai, Anoop Kumar Balakrishnan.

January 2009

Thesis (PhD)--Montana State University--Bozeman, 2009. / Typescript. Chairperson, Graduate Committee: C. Martin Lawrence. Includes bibliographical references (leaves 101-112).

Studies on transferrin levels in newborns

Galet, Samuel

January 1973

No description available.

Transferrin.

Infant, Newborn.

Newborn infants.

A study of transferrin and iron in chronic skin wounds

Dorsey, William Kevin

January 1997

This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu).

Transferrin

Iron

Skin

Wound Healing

Receptor-mediated iron and haem transport in Haemophilus

Parsons, Tina

January 1995

No description available.

579

Iron acquisition in Actinobacillus suis

Bahrami, Fariborz

January 2005

No description available.

Iron -- Metabolism.

Swine -- Diseases.

Transferrin.

Actinobacillus -- Metabolism.

Studies on receptor-mediated uptake of transferrin and iron acquisition by rabbit reticulocytes and a rat hepatoma cell line

陳遠儀, Chan, Yuen-yee, Roxanne.

January 1986

published_or_final_version / Physiology / Master / Master of Philosophy

Iron - Metabolism.

Transferrin.

Rabbits - Physiology.

Rats - Physiology.

Iron acquisition in Actinobacillus suis

Bahrami, Fariborz

January 2005

Seven strains of Actinobacillus suis (ATCC 15557, B49, C84, H89-1173, H91-0380, SO4 and VSB 3714) were investigated with respect to iron acquisition from animal transferrins (Tfs) and haemoglobins (Hbs). Growth assays with porcine, bovine and human Tfs and Hbs revealed that all seven strains could use porcine (but not human or bovine) Tf and all three Hbs as iron sources. In solid phase binding assays, membranes derived from all strains exhibited strong binding of porcine Tf and each of the Hbs. Competition binding assays indicated that all three Hbs were bound by the same receptor(s). Affinity procedures allowed the isolation and identification of iron repressible Tf-binding (~100 kDa and ~63 kDa) and Hb-binding (~105 kDa) polypeptides from all strains. Nucleotide sequence analyses revealed that A. suis strains SO4 and C84 possess genes that encode homologues of the Actinobacillus pleuropneumoniae Tf-binding proteins, TbpA and TbpB, and Hb-binding protein, HgbA. In both strains, tbpB was located immediately upstream of tbpA and was shown to be preceded by tonB, exbB and exbD homologues; hgbA was shown to be preceded by a hugZ homologue. Putative promoter and Fur box sequences were located upstream of tonB and hugZ and RT-PCR revealed that the genes in each of these clusters (tonB-exbB-exbD-tbpB-tbpA; hugZ-hgbA) are co-transcribed and iron-repressible. The molecular masses of the predicted mature TbpA, TbpB and HgbA proteins were calculated to be 104.3, 63.4 and 105.0 kDa, respectively, suggesting that the affinity-isolated, ~100 kDa and ~63 kDa Tf-binding polypeptides represent TbpA and TbpB, respectively, and that the ~105 kDa Hb-binding polypeptide represents HgbA. TbpB of A. suis was expressed in Escherichia coli and the recombinant TbpB (rTbpB) was identified by immunoblotting using swine sera raised against recombinant TbpB (A. pleuropneumoniae). It is envisaged that the acquisition of Tf- and Hb-bound iron by A. suis involves mechan

Transferrin.

Actinobacillus -- Metabolism.

Iron -- Metabolism.

Swine -- Diseases.

Iron biology of schistosomes: molecular characterisation and vaccine potential of iron homeostasis proteins

Amber Glanfield

Unknown Date

Iron is a trace element required for a range of metabolic reactions in virtually all living organisms. Studies of prokaryotes, plants, yeast, and vertebrates have established detailed information on iron uptake and the role iron plays in metabolic processes. Iron is an essential growth requirement of schistosomes in vitro and schistosomes also express the highly conserved iron storage protein ferritin. However, studies into how this iron is taken up by the parasite have been neglected. This study aims to identify molecules involved in iron uptake and homeostasis in the human parasite Schistosoma japonicum. I have characterised two isoforms of a divalent metal transporter (DMT), a membrane bound protein of schistosomes. These DMTs have significant homology to the mammalian DMT1, the primary ferrous iron uptake protein of the intestinal brush border. Both schistosome isoforms displayed functional iron uptake by rescuing growth in a yeast strain deficient in iron uptake (fet3fet4). Interestingly schistosome DMT1 was localised to the tegument and not the gastrodermis of adult parasites, suggesting surface mediated iron uptake across the tegument. In physiological conditions, iron is abundant as largely insoluble ferric iron and hence ferric reductases are an essential component of iron uptake, reducing iron to the soluble ferrous form. Cytochromes b561 (Cyts-b561) are a family of ascorbate reducing transmembrane proteins found in most eukaryotic cells. Recent observations that Cyts-b561 may be involved in iron metabolism have opened new perspectives for their physiological function. Here, I have identified a new member of the cytochrome b561 family in Schistosoma japonicum that localises to the tegument of this trematode. Expression of the SjCytb561 in a Saccharomyces cerevisiae mutant that lacks plasma membrane ferrireductase activity (fre1fre2) was able to rescue the growth defect in iron deficient conditions, suggesting involvement in iron metabolism. Plasma membrane ferrireductase activities were also quantified using intact transformed yeast cells. These data further support the hypothesised tegumental uptake of host iron. Further, I have identified a putative schistosome transferrin. In mammals, transferrin is a glycoprotein responsible for binding and transporting iron in the bloodstream and delivering iron into cells via a specific transferrin receptor. Preliminary characterisation of the schistosome transferrin sequence has revealed it does not contain all the conserved amino acid residues associated with iron binding, with conservation seen only in the C-terminal lobe, not in both the N and C-lobes observed in mammalian transferrins. This difference makes it unclear whether the schistosome transferrin shares functional homology with its mammalian counterpart. In addition, no transferrin receptor has been identified to support an iron trafficking and uptake function, nor would this function be expected in an acoelomate organism. Further characterisation and localisation of this protein is required to elucidate its biological significance and function. The tegumental location of both the SjDMT1 and the SjCytb561 for the uptake of host iron make it possible to consider these proteins as potential vaccine candidates. A preliminary vaccination study with these proteins elicited only low to moderate protection from infection, and further studies are required to fully assess their potential. The data presented in this thesis provide evidence for surface-mediated uptake of iron by adult schistosomes, and represent the first characterisation of iron uptake proteins in any helminths. These studies show a novel method of iron uptake in schistosomes, and contribute to our understanding of how these parasites are able to survive and thrive by scavenging nutrients, in this case iron, from the host organism.

Schistosomiasis

Iron Uptake

Transferrin

Vaccine

ferric reductase

Immunogenetic studies of cattle transferrins and blood groups

Datta, Surinder P.

January 1963

Thesis (Ph. D.)--University of Wisconsin--Madison, 1963. / Typescript. Vita. With this is bound: The J substance of cattle : VII. Production of immune anti-J in rabbits / A, G. Bednefoff, S.P. Datta and W.H. Stone. Reprinted from Journal of immunology, vol. 89, no. 3 (Sep. 1962), p. 408-413. Includes bibliographical references.