Your search keyword '"Fischer W"' showing total 18 results

1. A redirected proton pathway in the bacteriorhodopsin mutant Tyr-57–>Asp. Evidence for proton translocation without Schiff base deprotonation.

Author

Sonar, S, primary, Marti, T, additional, Rath, P, additional, Fischer, W, additional, Coleman, M, additional, Nilsson, A, additional, Khorana, H.G., additional, and Rothschild, K.J., additional

Published

1994

2. Asp96 deprotonation and transmembrane alpha-helical structural changes in bacteriorhodopsin.

Author

Rothschild, K J, primary, Marti, T, additional, Sonar, S, additional, He, Y W, additional, Rath, P, additional, Fischer, W, additional, and Khorana, H G, additional

Published

1993

3. Expression, purification, and characterization of a soluble form of the first extracellular domain of the human type 1 corticotropin releasing factor receptor.

Author

Perrin, M H, Fischer, W H, Kunitake, K S, Craig, A G, Koerber, S C, Cervini, L A, Rivier, J E, Groppe, J C, Greenwald, J, Møller Nielsen, S, and Vale, W W

Abstract

The first extracellular domain (ECD-1) of the corticotropin releasing factor (CRF) type 1 receptor, (CRFR1), is important for binding of CRF ligands. A soluble protein, mNT-CRFR1, produced by COS M6 cells transfected with a cDNA encoding amino acids 1--119 of human CRFR1 and modified to include epitope tags, binds a CRF antagonist, astressin, in a radioreceptor assay using [(125)I-d-Tyr(0)]astressin. N-terminal sequencing of mNT-CRFR1 showed the absence of the first 23 amino acids of human CRFR1. This result suggests that the CRFR1 protein is processed to cleave a putative signal peptide corresponding to amino acids 1--23. A cDNA encoding amino acids 24--119 followed by a FLAG tag, was expressed as a thioredoxin fusion protein in Escherichia coli. Following thrombin cleavage, the purified protein (bNT-CRFR1) binds astressin and the agonist urocortin with high affinity. Reduced, alkylated bNT-CRFR1 does not bind [(125)I-D-Tyr(0)]astressin. Mass spectrometric analysis of photoaffinity labeled bNT-CRFR1 yielded a 1:1 complex with ligand. Analysis of the disulfide arrangement of bNT-CRFR1 revealed bonds between Cys(30) and Cys(54), Cys(44) and Cys(87), and Cys(68) and Cys(102). This arrangement is similar to that of the ECD-1 of the parathyroid hormone receptor (PTHR), suggesting a conserved structural motif in the N-terminal domain of this family of receptors.

Published

2001

4. Styelin D, an extensively modified antimicrobial peptide from ascidian hemocytes.

Author

Taylor, S W, Craig, A G, Fischer, W H, Park, M, and Lehrer, R I

Abstract

We isolated styelin D, a 32-residue, C-terminally amidated antimicrobial peptide, from the blood cells (hemocytes) of the solitary ascidian, Styela clava. Styelin D had remarkably extensive post-translational modifications, containing two novel amino acids, dihydroxyarginine and dihydroxylysine, and two distinctly unusual ones, 6-bromotryptophan and 3,4-dihydroxyphenylalanine. In addition, the peptide exhibited microheterogeneity because of differential mono- and dihydroxylation of several lysine residues. The primary sequence of one variant was: GW(*)LR(**)K(**)AAK(**)SVGK(**)FY(*)Y(*)K(**)HK(*)Y(*) Y(*)IK(*)AAWQIG KHAL-NH(2), where W(*) is 6-bromotryptophan, R(**) is dihydroxyarginine, Y(*) is 3,4-dihydroxyphenylalanine, K(*) is 5-hydroxylysine, and K(**) is dihydroxylysine. Styelin D exhibited activity against Gram-negative and Gram-positive bacteria, and this activity was retained in 200 mm NaCl. The role of the extensive modifications may be to preserve activity at low pH and/or high salinity because, under these conditions, the native peptide was considerably more active against the Gram-positive bacterial strains than its unmodified synthetic analogue. The peptide was also hemolytic and quite cytotoxic to eukaryotic cells. These broad ranging activities, combined with its relative abundance in ascidian hemocytes, suggest that styelin D plays a significant role in the innate immune mechanisms of S. clava.

Published

2000

5. Helicobacter pylori activates the histidine decarboxylase promoter through a mitogen-activated protein kinase pathway independent of pathogenicity island-encoded virulence factors.

Author

Wessler, S, Höcker, M, Fischer, W, Wang, T C, Rosewicz, S, Haas, R, Wiedenmann, B, Meyer, T F, and Naumann, M

Abstract

Helicobacter pylori infection of the gastric mucosa is accompanied by an activated histamine metabolism. Histamine plays a central role in the regulation of gastric acid secretion and is involved in the pathogenesis of gastroduodenal ulcerations. Histidine decarboxylase (HDC) is the rate-limiting enzyme for histamine production, and its activity is regulated through transcriptional mechanisms. The present study investigated the effect of H. pylori infection on the transcriptional activity of the human HDC (hHDC) promoter in a gastric epithelial cell line (AGS) and analyzed the underlying molecular mechanisms. Our studies demonstrate that H. pylori infection potently transactivated the hHDC promoter. The H. pylori-responsive element of the hHDC gene was mapped to the sequence +1 to +27 base pairs, which shows no homology to known cis-acting elements and also functions as a gastrin-responsive element. H. pylori regulates the activity of this element via a Raf-1/MEK/ERK pathway, which was activated in a Ras-independent manner. Furthermore, we found that H. pylori-induced transactivation of the hHDC promoter was independent of the cag pathogenicity island and the vacuolating cytotoxin A gene and therefore may be exerted through (a) new virulence factor(s). A better understanding of H. pylori-directed hHDC transcription can provide novel insights into the molecular mechanisms of H. pylori-dependent gene regulation in gastric epithelial cells and may lead to new therapeutic approaches.

Published

2000

6. Specificity and stoichiometry of the Arabidopsis H+/amino acid transporter AAP5.

Author

Boorer, K J and Fischer, W N

Abstract

The H+-dependent AAP5 amino acid transporter from Arabidopsis thaliana was expressed in Xenopus oocytes, and we used radiotracer flux and electrophysiology methods to investigate its substrate specificity and stoichiometry. Inward currents of up to 9 microA were induced by a broad spectrum of amino acids, including anionic, cationic, and neutral amino acids. The apparent affinity of AAP5 for amino acids was influenced by the position of side chain branches, bulky ring structures, and charged groups. The maximal current was dependent on amino acid charge, but was relatively independent of amino acid structure. A detailed kinetic analysis of AAP5 using lysine, alanine, glutamate, and histidine revealed H+-dependent differences in the apparent affinity constants for each substrate. The differences were correlated to the effect of H+ concentration on the net charge of each amino acid and suggested that AAP5 transports only the neutral species of histidine and glutamate. Stoichiometry experiments, whereby the uptake of 3H-labeled amino acid and net inward charge were simultaneously measured in voltage-clamped oocytes, showed that the charge:amino acid stoichiometry was 2:1 for lysine and 1:1 for alanine, glutamate, and histidine. The results confirm that histidine is transported in its neutral form and show that the positive charge on lysine contributes to the magnitude of its inward current. Thus, the transport stoichiometry of AAP5 is 1 H+:1 amino acid irrespective of the net charge on the transported substrate. Structural features of amino acid molecules that are involved in substrate recognition by AAP5 are discussed.

Published

1997

7. A family of putative chloride channels from Arabidopsis and functional complementation of a yeast strain with a CLC gene disruption.

Author

Hechenberger, M, Schwappach, B, Fischer, W N, Frommer, W B, Jentsch, T J, and Steinmeyer, K

Abstract

We have cloned four novel members of the CLC family of chloride channels from Arabidopsis thaliana. The four plant genes are homologous to a recently isolated chloride channel gene from tobacco (CLC-Nt1; Lurin, C., Geelen, D., Barbier-Brygoo, H., Guern, J., and Maurel, C. (1996) Plant Cell 8, 701-711) and are about 30% identical in sequence to the most closely related CLC-6 and CLC-7 putative chloride channels from mammalia. AtCLC transcripts are broadly expressed in the plant. Similarly, antibodies against the AtCLC-d protein detected the protein in all tissues, but predominantly in the silique. AtCLC-a and AtCLC-b are highly homologous to each other ( approximately 87% identity), while being approximately 50% identical to either AtCLC-c or AtCLC-d. None of the four cDNAs elicited chloride currents when expressed in Xenopus oocytes, either singly or in combination. Among these genes, only AtCLC-d could functionally substitute for the single yeast CLC protein, restoring iron-limited growth of a strain disrupted for this gene. Introduction of disease causing mutations, identified in human CLC genes, abolished this capacity. Consistent with a similar function of both proteins, the green fluorescent protein-tagged AtCLC-d protein showed the identical localization pattern as the yeast ScCLC protein. This suggests that in Arabidopsis AtCLC-d functions as an intracellular chloride channel.

Published

1996

8. Influence of alanine ester and glycosyl substitution on the lipoteichoic acid carrier activity of lipoteichoic acids.

Author

Koch, H U, Fischer, W, and Fiedler, F

Published

1982

9. Regulation of the ERBB-2 promoter by RBPJkappa and NOTCH.

Author

Chen, Y, Fischer, W H, and Gill, G N

Abstract

Within the human ERBB-2 gene promoter, a 100-base pair region 5' to the TATA box enhances basal transcription 200-fold. Two palindromes present within this 100-base pair region are important for transcription. The palindrome binding protein was purified to homogeneity and found to be identical to RBPJkappa, the mammalian homolog of Drosophila Suppressor of Hairless (Su(H)). Recombinant RBPJkappa bound the ERBB-2 promoter with affinity comparable with that seen with well characterized RBPJkappa binding sites. RBPJkappa activated an ERBB-2 palindrome-containing promoter in 293 cells. Because in Drosophila Su(H) acts downstream of NOTCH and because NOTCH.Su(H)/RBPJkappa stimulates transcription from target promoters, NOTCH-IC, a constitutively active form of NOTCH, was tested for effects on the ERBB-2 palindrome. NOTCH-IC further increased RBPJkappa-mediated transcription on wild type but not mutant ERBB-2 palindrome. Thus, RBPJkappa can activate ERBB-2 transcription and serve as an anchor to mediate NOTCH function on the ERBB-2 gene.

Published

1997

10. Substrate specificity and expression profile of amino acid transporters (AAPs) in Arabidopsis.

Author

Fischer, W N, Kwart, M, Hummel, S, and Frommer, W B

Abstract

Three amino acid transporter genes (AAP3-5) were isolated from Arabidopsis by complementation of a yeast mutant defective in histidine uptake. Transport is driven against a concentration gradient and sensitive to protonophores. Analysis of the substrate specificity demonstrates that the carriers have a broad substrate specificity covering the major transport forms of reduced nitrogen, i.e. glutamine and glutamate. The transporters have similar affinities for glutamate, glutamine, and alanine but differ with respect to valine, phenylalanine, histidine, arginine, and lysine. AAP3 and AAP5 efficiently transport arginine and lysine and are involved in basic amino acid transport. The predicted polypeptides of 53 kDa are highly hydrophobic with 12 putative membrane-spanning regions and show significant homologies to Arabidopsis amino acid transporters AAP1 and AAP2. Each of the genes has a different organ-specific expression in the plant. AAP3 is exclusively expressed in roots and AAP4 mainly in source leaves, stems, and flowers, whereas AAP5 is found in all tissues. The specific distribution in the plant and the different substrate specificities of AAP transporters may indicate that tissues differ both qualitatively and quantitatively regarding import or export of amino acids.

Published

1995

11. Incorporation of D-alanine into lipoteichoic acid and wall teichoic acid in Bacillus subtilis. Identification of genes and regulation.

Author

Perego, M, Glaser, P, Minutello, A, Strauch, M A, Leopold, K, and Fischer, W

Abstract

The Bacillus subtilis dlt operon (D-alanyl-lipoteichoic acid) is responsible for D-alanine esterification of both lipoteichoic acid (LTA) and wall teichoic acid (WTA). The dlt operon contains five genes, dltA-dltE. Insertional inactivation of dltA-dltD results in complete absence of D-alanine from both LTA and WTA. Based on protein sequence similarity with the Lactobacillus casei dlt gene products (Heaton, M. P., and Neuhaus, F. C. (1992) J. Bacteriol. 174, 4707-4717), we propose that dltA encodes the D-alanine-D-alanyl carrier protein ligase (Dcl) and dltC the D-alanyl carrier protein (Dcp). We further hypothesize that the products of dltB and dltD are concerned with the transport of activated D-alanine through the membrane and the final incorporation of D-alanine into LTA. The hydropathy profiles of the dltB and dltD gene products suggest a transmembrane location for the former and an amino-terminal signal peptide for the latter. The incorporation of D-alanine into LTA and WTA did not separate in any of the mutants studied which indicates that either one and the same enzyme is responsible for D-alanine incorporation into both polymers or a separate enzyme, encoded outside the dlt operon, transfers the D-alanyl residues from LTA to WTA (Haas, R., Koch, H.-U., and Fischer, W. (1984) FEMS Microbiol. Lett. 21, 27-31). Inactivation of dltE has no effect on D-alanine ester content of both LTA and WTA, and at present we cannot propose any function for its gene product. Transcription analysis shows that the dlt operon is transcribed from a sigma D-dependent promoter and follows the pattern of transcription of genes belonging to the sigma D regulon. However, the turn off of transcription observed before sporulation starts seems to be dependent on the Spo0A and AbrB sporulation proteins and results in a D-alanine-free purely anionic LTA in the spore membrane. The dlt operon is dispensable for cell growth; its inactivation does not affect cell growth or morphology as described for L. casei.

Published

1995

12. Structural requirements of lipoteichoic acid carrier for recognition by the poly(ribitol phosphate) polymerase from Staphylococcus aureus H. A study of various lipoteichoic acids, derivatives, and related compounds.

Author

Fischer, W., primary, Koch, H.U., additional, Rösel, P., additional, Fiedler, F., additional, and Schmuck, L., additional

Published

1980

13. Alanine ester-containing native lipoteichoic acids do not act as lipoteichoic acid carrier. Isolation, structural and functional characterization.

Author

Fischer, W., primary, Koch, H.U., additional, Rösel, P., additional, and Fiedler, F., additional

Published

1980

14. Integrin engagement by the helical RGD motif of the Helicobacter pylori CagL protein is regulated by pH-induced displacement of a neighboring helix.

Author

Bonsor DA, Pham KT, Beadenkopf R, Diederichs K, Haas R, Beckett D, Fischer W, and Sundberg EJ

Subjects

Amino Acid Motifs, Bacterial Proteins genetics, Bacterial Proteins metabolism, Cell Transformation, Neoplastic, Crystallography, X-Ray, Helicobacter pylori genetics, Helicobacter pylori metabolism, Humans, Hydrogen-Ion Concentration, Structure-Activity Relationship, Bacterial Proteins chemistry, Helicobacter pylori chemistry

Abstract

Arginine-aspartate-glycine (RGD) motifs are recognized by integrins to bridge cells to one another and the extracellular matrix. RGD motifs typically reside in exposed loop conformations. X-ray crystal structures of the Helicobacter pylori protein CagL revealed that RGD motifs can also exist in helical regions of proteins. Interactions between CagL and host gastric epithelial cell via integrins are required for the translocation of the bacterial oncoprotein CagA. Here, we have investigated the molecular basis of the CagL-host cell interactions using structural, biophysical, and functional analyses. We solved an x-ray crystal structure of CagL that revealed conformational changes induced by low pH not present in previous structures. Using analytical ultracentrifugation, we found that pH-induced conformational changes in CagL occur in solution and not just in the crystalline environment. By designing numerous CagL mutants based on all available crystal structures, we probed the functional roles of CagL conformational changes on cell surface integrin engagement. Together, our data indicate that the helical RGD motif in CagL is buried by a neighboring helix at low pH to inhibit CagL binding to integrin, whereas at neutral pH the neighboring helix is displaced to allow integrin access to the CagL RGD motif. This novel molecular mechanism of regulating integrin-RGD motif interactions by changes in the chemical environment provides new insight to H. pylori-mediated oncogenesis., (© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2015

15. Characterization of the translocation-competent complex between the Helicobacter pylori oncogenic protein CagA and the accessory protein CagF.

Author

Bonsor DA, Weiss E, Iosub-Amir A, Reingewertz TH, Chen TW, Haas R, Friedler A, Fischer W, and Sundberg EJ

Subjects

Adenocarcinoma metabolism, Adenocarcinoma microbiology, Amino Acid Substitution, Antigens, Bacterial genetics, Antigens, Bacterial metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Bacterial Secretion Systems physiology, Helicobacter pylori genetics, Helicobacter pylori metabolism, Humans, Multiprotein Complexes genetics, Multiprotein Complexes metabolism, Mutation, Missense, Oncogene Proteins genetics, Oncogene Proteins metabolism, Protein Structure, Quaternary, Protein Structure, Secondary, Protein Structure, Tertiary, Stomach Neoplasms metabolism, Stomach Neoplasms microbiology, Antigens, Bacterial chemistry, Bacterial Proteins chemistry, Helicobacter pylori chemistry, Multiprotein Complexes chemistry, Oncogene Proteins chemistry

Abstract

CagA is a virulence factor that Helicobacter pylori inject into gastric epithelial cells through a type IV secretion system where it can cause gastric adenocarcinoma. Translocation is dependent on the presence of secretion signals found in both the N- and C-terminal domains of CagA and an interaction with the accessory protein CagF. However, the molecular basis of this essential protein-protein interaction is not fully understood. Herein we report, using isothermal titration calorimetry, that CagA forms a 1:1 complex with a monomer of CagF with nM affinity. Peptide arrays and isothermal titration calorimetry both show that CagF binds to all five domains of CagA, each with μM affinity. More specifically, a coiled coil domain and a C-terminal helix within CagF contacts domains II-III and domain IV of CagA, respectively. In vivo complementation assays of H. pylori with a double mutant, L36A/I39A, in the coiled coil region of CagF showed a severe weakening of the CagA-CagF interaction to such an extent that it was nearly undetectable. However, it had no apparent effect on CagA translocation. Deletion of the C-terminal helix of CagF also weakened the interaction with CagA but likewise had no effect on translocation. These results indicate that the CagA-CagF interface is distributed broadly across the molecular surfaces of these two proteins to provide maximal protection of the highly labile effector protein CagA.

Published

2013

16. Identification of a functional binding site for activin on the type I receptor ALK4.

Author

Harrison CA, Gray PC, Koerber SC, Fischer W, and Vale W

Subjects

Activin Receptors, Type I metabolism, Amino Acids genetics, Animals, Binding Sites, Bone Morphogenetic Protein Receptors, Type I, Cells, Cultured, Epithelial Cells cytology, Epithelial Cells physiology, Gene Expression, Humans, Kidney cytology, Lung cytology, Mink, Molecular Sequence Data, Mutagenesis, Protein Structure, Tertiary, Receptor, Transforming Growth Factor-beta Type I, Receptors, Transforming Growth Factor beta chemistry, Receptors, Transforming Growth Factor beta genetics, Receptors, Transforming Growth Factor beta metabolism, Sequence Homology, Amino Acid, Structure-Activity Relationship, Activin Receptors, Type I chemistry, Activin Receptors, Type I genetics, Activins metabolism, Protein Serine-Threonine Kinases, Proteins, Receptors, Growth Factor

Abstract

Activins, like other members of the transforming growth factor-beta (TGF-beta) superfamily, initiate signaling by assembling a complex of two types of transmembrane serine/threonine receptor kinases classified as type II (ActRII or ActRIIB) and type I (ALK4). A kinase-deleted version of ALK4 can form an inactive complex with activin and ActRII/IIB and thereby acts in a dominant negative manner to block activin signaling. Using the complex structure of bone morphogenetic protein-2 bound to its type I receptor (ALK3) as a guide, we introduced extracellular domain mutations in the context of the truncated ALK4 (ALK4-trunc) construct and assessed the ability of the mutants to inhibit activin function. We have identified five hydrophobic amino acid residues on the ALK4 extracellular domain (Leu40, Ile70, Val73, Leu75, and Pro77) that, when mutated to alanine, have substantial effects on ALK4-trunc dominant negative activity. In addition, eleven mutants partially affected activin binding to ALK4. Together, these residues likely constitute the binding surface for activin on ALK4. Cross-linking studies measuring binding of 125I-activin-A to the ALK4-trunc mutants in the presence of ActRII implicated the same residues. Our results indicate that there is only a partial overlap of the binding sites on ALK4 and ALK3 for activin-A and bone morphogenetic protein-2, respectively. In addition three of the residues required for activin binding to ALK4 are conserved on the type I TGF-beta receptor ALK5, suggesting the corresponding region on ALK5 may be important for TGF-beta binding.

Published

2003

17. Monomeric activin A retains high receptor binding affinity but exhibits low biological activity.

Author

Hüsken-Hindi P, Tsuchida K, Park M, Corrigan AZ, Vaughan JM, Vale WW, and Fischer WH

Subjects

Activin Receptors, Activins, Animals, Baculoviridae genetics, Base Sequence, Binding, Competitive, Cells, Cultured, Cysteine genetics, Cysteine metabolism, Follicle Stimulating Hormone metabolism, Inhibins classification, Inhibins genetics, Mice, Molecular Sequence Data, Moths cytology, Mutagenesis, Site-Directed, Pituitary Gland, Anterior metabolism, Protein Binding, Protein Conformation, Rats, Recombinant Proteins metabolism, Serine genetics, Inhibins metabolism, Receptors, Growth Factor metabolism

Abstract

Activins are multipotent hormones/growth factors that belong to the transforming growth factor-beta (TGF-beta) superfamily. Like TGF-beta s, activins have 9 conserved cysteine residues and are disulfide-bonded dimers. Based on the three-dimensional structure of TGF-beta 2, we deduced Cys80 in activin A to form the intermolecular disulfide bond. To obtain a monomeric form of activin, Cys80 was exchanged for a serine residue by polymerase chain reaction mutagenesis. The mutant protein was expressed in a baculovirus/insect cell expression system. The molecular mass of this mutant activin was determined to be 13 kDa (consistent with a single chain form of the protein) by SDS-polyacrylamide gel electrophoresis and by laser desorption mass spectroscopy. When this mutant monomeric activin was incubated with cells that expressed either the activin type IIB receptor or both the type I and type IIB receptors, its affinity was found to be 20% of that of native activin on a mass basis. Binding affinity determined using the mouse pituitary cell line AtT 20 was 10% of that of native activin A. Biological potency, however, as determined by the mutant protein's ability to release FSH from anterior pituitary cells in primary culture and by its ability to suppress basal ACTH secretion form AtT 20 cells, was only 1% of that of the native protein. This discrepancy of an order of magnitude between binding and biological activity is consistent with a model in which dimerization of the hormone is not necessary for high affinity binding to its receptor(s) while being essential for efficient signal transduction.

Published

1994

18. Assignment of disulfide bonds in corticotropin-releasing factor-binding protein.

Author

Fischer WH, Behan DP, Park M, Potter E, Lowry PJ, and Vale W

Subjects

Amino Acid Sequence, Humans, Molecular Sequence Data, Oxidation-Reduction, Peptide Fragments chemistry, Peptide Mapping, Recombinant Proteins, Transfection, Carrier Proteins chemistry, Disulfides chemistry

Abstract

We have previously isolated, cloned, and characterized a protein that specifically binds and inactivates the peptide corticotropin-releasing factor. The integrity of the disulfide bonds in the binding protein is essential for this activity as reduction abolishes the protein's ability to bind corticotropin-releasing factor. The disulfide arrangement of the 10 cysteines present in the mature protein was established by analysis of proteolytically cleaved protein and sequence analysis of cystine containing fragments. A pattern is observed where each cysteine is connected to the next one in a sequential manner. Inspection of the genomic DNA encoding for this protein reveals that four of the domains defined by disulfide linkage coincide with four different exons.

Published

1994