Your search keyword '"Henning U"' showing total 76 results

1. SPRY4-dependent ERK negative feedback demarcates functional adult stem cells in the male mouse germline†

Author

Luo, Yanyun, Yamada, Makiko, N’Tumba-Byn, Thierry, Asif, Hana, Gao, Meng, Hu, Yang, Marangoni, Pauline, Liu, Ying, Evans, Todd, Rafii, Shahin, Klein, Ophir D, Voss, Henning U, Hadjantonakis, Anna-Katerina, Elemento, Olivier, Martin, Laura A, and Seandel, Marco

Abstract

Niche-derived growth factors support self-renewal of mouse spermatogonial stem and progenitor cells through ERK MAPK signaling and other pathways. At the same time, dysregulated growth factor-dependent signaling has been associated with loss of stem cell activity and aberrant differentiation. We hypothesized that growth factor signaling through the ERK MAPK pathway in spermatogonial stem cells is tightly regulated within a narrow range through distinct intracellular negative feedback regulators. Evaluation of candidate extracellular signal-regulated kinase (ERK) mitogen-activated protein kinase (MAPK)-responsive genes known to dampen downstream signaling revealed robust induction of specific negative feedback regulators, including Spry4, in cultured mouse spermatogonial stem cells in response to glial cell line-derived neurotrophic factor or fibroblast growth factor 2. Undifferentiated spermatogonia in vivo exhibited high levels of Spry4mRNA. Quantitative single-cell analysis of ERK MAPK signaling in spermatogonial stem cell cultures revealed both dynamic signaling patterns in response to growth factors and disruption of such effects when Spry4was ablated, due to dysregulation of ERK MAPK downstream of RAS. Whereas negative feedback regulator expression decreased during differentiation, loss of Spry4shifted cell fate toward early differentiation with concomitant loss of stem cell activity. Finally, a mouse Spry4reporter line revealed that the adult spermatogonial stem cell population in vivo is demarcated by strong Spry4promoter activity. Collectively, our data suggest that negative feedback-dependent regulation of ERK MAPK is critical for preservation of spermatogonial stem cell fate within the mammalian testis.The Spry4is a novel ERK-dependent negative feedback regulator of FGF and GDNF signaling that is critical for preservation of stem cell activity in cultured adult mouse spermatogonia and serves as a marker for adult SSCs in vivo.Graphical Abstract

Published

2023

2. Cognitive-Motor Dissociation Following Pediatric Brain Injury

Author

Kim, Nayoung, O'Sullivan, James, Olafson, Emily, Caliendo, Eric, Nowak, Sophie, Voss, Henning U., Lowder, Ryan, Watson, William D., Ivanidze, Jana, Fins, Joseph J., Schiff, Nicholas D., Hill, N. Jeremy, and Shah, Sudhin A.

Published

2022

3. Pulsatility analysis of the circle of Willis

Author

Voss, Henning U. and Razlighi, Qolamreza R.

Abstract

To evaluate the phenomenological significance of cerebral blood pulsatility imaging in aging research.

Published

2024

4. Resting-state connectivity biomarkers define neurophysiological subtypes of depression

Author

Drysdale, Andrew T, Grosenick, Logan, Downar, Jonathan, Dunlop, Katharine, Mansouri, Farrokh, Meng, Yue, Fetcho, Robert N, Zebley, Benjamin, Oathes, Desmond J, Etkin, Amit, Schatzberg, Alan F, Sudheimer, Keith, Keller, Jennifer, Mayberg, Helen S, Gunning, Faith M, Alexopoulos, George S, Fox, Michael D, Pascual-Leone, Alvaro, Voss, Henning U, Casey, BJ, Dubin, Marc J, and Liston, Conor

Abstract

Biomarkers have transformed modern medicine but remain largely elusive in psychiatry, partly because there is a weak correspondence between diagnostic labels and their neurobiological substrates. Like other neuropsychiatric disorders, depression is not a unitary disease, but rather a heterogeneous syndrome that encompasses varied, co-occurring symptoms and divergent responses to treatment. By using functional magnetic resonance imaging (fMRI) in a large multisite sample (n = 1,188), we show here that patients with depression can be subdivided into four neurophysiological subtypes ('biotypes') defined by distinct patterns of dysfunctional connectivity in limbic and frontostriatal networks. Clustering patients on this basis enabled the development of diagnostic classifiers (biomarkers) with high (82–93%) sensitivity and specificity for depression subtypes in multisite validation (n = 711) and out-of-sample replication (n = 477) data sets. These biotypes cannot be differentiated solely on the basis of clinical features, but they are associated with differing clinical-symptom profiles. They also predict responsiveness to transcranial magnetic stimulation therapy (n = 154). Our results define novel subtypes of depression that transcend current diagnostic boundaries and may be useful for identifying the individuals who are most likely to benefit from targeted neurostimulation therapies.

Published

2017

5. Frontal Networks Associated With Command Following After Hemorrhagic Stroke.

Author

Mikell, Charles B., Banks, Garrett P., Frey, Hans-Peter, Youngerman, Brett E., Nelp, Taylor B., Karas, Patrick J., Chan, Andrew K., Voss, Henning U., Connolly, E. Sander, and Claassen, Jan

Published

2015

6. Dichotomous Effects of Chronic Intermittent Hypoxia on Focal Cerebral Ischemic Injury.

Author

Jackman, Katherine A., Ping Zhou, Faraco, Giuseppe, Peixoto, Pablo M., Coleman, Christal, Voss, Henning U., Pickel, Virginia, Manfredi, Giovanni, and Iadecola, Costantino

Published

2014

7. Therapeutic hypothermia and hypoxia–ischemia in the term-equivalent neonatal rat: characterization of a translational preclinical model

Author

Patel, Shyama D., Pierce, Leslie, Ciardiello, Amber, Hutton, Alexandra, Paskewitz, Samuel, Aronowitz, Eric, Voss, Henning U., Moore, Holly, and Vannucci, Susan J.

Abstract

Background:Hypoxic–ischemic encephalopathy (HIE) is a major cause of morbidity in survivors. Therapeutic hypothermia (TH) is the only available intervention, but the protection is incomplete. Preclinical studies of HIE/TH in the rodent have relied on the postnatal day (P) 7 rat whose brain approximates a 32–36?wk gestation infant, less relevant for these studies. We propose that HIE and TH in the term-equivalent P10 rat will be more translational.Methods:P10-11 rat pups were subjected to unilateral hypoxia–ischemia (HI) and 4?h recovery in normothermic (N) or hypothermic (TH) conditions. Brain damage was assessed longitudinally at 24?h, 2?wk, and 12?wk. Motor function was assessed with the beam walk; recognition memory was measured by novel object recognition.Results:Neuroprotection with TH was apparent at 2 and 12?wk in both moderately and severely damaged animals. TH improved motor function in moderate, but not severe, damage. Impaired object recognition occurred with severe damage with no evidence of protection of TH.Conclusion:This adaptation of the immature rat model of HI provides a reproducible platform to further study HIE/TH in which individual animals are followed up longitudinally to provide a useful translational preclinical model.

Published

2015

8. Frontal Networks Associated With Command Following After Hemorrhagic Stroke

Author

Mikell, Charles B., Banks, Garrett P., Frey, Hans-Peter, Youngerman, Brett E., Nelp, Taylor B., Karas, Patrick J., Chan, Andrew K., Voss, Henning U., Connolly, E. Sander, and Claassen, Jan

Abstract

Level of consciousness is frequently assessed by command-following ability in the clinical setting. However, it is unclear what brain circuits are needed to follow commands. We sought to determine what networks differentiate command following from noncommand following patients after hemorrhagic stroke.

Published

2015

9. MRI of neuronal network structure, function, and plasticity.

Author

Voss, Henning U. and Schiff, Nicholas D.

Abstract

Abstract: We review two complementary MRI imaging modalities to characterize structure and function of neuronal networks in the human brain, and their application to subjects with severe brain injury. The structural imaging modality, diffusion tensor imaging, is based on imaging the diffusion of water protons in the brain parenchyma. From the diffusion tensor, several quantities characterizing fiber structure in the brain can be derived. The principal direction of the diffusion tensor has been found to depend on the fiber direction of myelinated axons. It can be used for white matter fiber tracking. The anisotropy (or directional dependence) of diffusion has been shown to be sensitive to developmental as well as white matter changes during training and recovery from brain injury. The functional MRI imaging modality, resting state fMRI, concerns the functional connectivity of neuronal networks rather than their anatomical structure. Subjects undergo a conventional fMRI imaging protocol without performing specific tasks. Various resting state network patterns can be computed by algorithms that reveal correlations in the fMRI signal. Often, thalamic structures are involved, suggesting that resting state fMRI could reflect global brain network functionality. Clinical applications of resting state fMRI have been reported, in particular relating signal abnormalities to neurodegenerative processes. To better understand to which degree resting state patterns reflect neuronal network function, we are comparing network patterns of normal subjects with those having severe brain lesions in a small pilot study. [Copyright &y& Elsevier]

Published

2009

10. Dichotomous Effects of Chronic Intermittent Hypoxia on Focal Cerebral Ischemic Injury

Author

Jackman, Katherine A., Zhou, Ping, Faraco, Giuseppe, Peixoto, Pablo M., Coleman, Christal, Voss, Henning U., Pickel, Virginia, Manfredi, Giovanni, and Iadecola, Costantino

Abstract

Obstructive sleep apnea, a condition associated with chronic intermittent hypoxia (CIH), carries an increased risk of stroke. However, CIH has been reported to either increase or decrease brain injury in models of focal cerebral ischemia. The factors determining the differential effects of CIH on ischemic injury and their mechanisms remain unclear. Here, we tested the hypothesis that the intensity of the hypoxic challenge determines the protective or destructive nature of CIH by modulating mitochondrial resistance to injury.

Published

2014

11. Pattern Classification of Volitional Functional Magnetic Resonance Imaging Responses in Patients With Severe Brain Injury

Author

Bardin, Jonathan C., Schiff, Nicholas D., and Voss, Henning U.

Abstract

BACKGROUND Recent neuroimaging investigations have explored the use of mental imagery tasks as proxies for an overt motor response, in which patients are asked to imagine performing a task, such as “Imagine yourself swimming.” OBJECTIVES To detect covert volitional brain activity in patients with severe brain injury using pattern classification of the blood oxygenation level–dependent (BOLD) response during mental imagery and to compare these results with those of a univariate functional magnetic resonance imaging analysis. DESIGN Case-control study. SETTING Academic research. PARTICIPANTS Experiments were performed in 8 healthy control subjects and in 5 patients with severe brain injury. The patients with severe brain injury constituted a convenience sample. MAIN OUTCOME MEASURES Functional magnetic resonance imaging data were acquired as the patients were asked to follow commands or to answer questions using motor imagery as a proxy response. RESULTS In the controls, the responses were accurately classified. In the patient group, the responses of 3 of 5 patients were correctly classified. The remaining 2 patients showed no significant BOLD response in a standard univariate analysis, suggesting that they did not perform the task. In addition, we showed that a classifier trained on command-following data can be used to evaluate a later communication run. This technique was used to successfully disambiguate 2 potential BOLD responses to a single question. CONCLUSIONS Pattern classification in functional magnetic resonance imaging is a promising technique for advancing the understanding of volitional brain responses in patients with severe brain injury and may serve as a powerful complement to traditional general linear model–based univariate analysis methods.

Published

2012

12. Increased Apoptosis of Neutrophils in a Case of Clozapine-induced Agranulocytosis

Author

Loeffler, S., Fehsel, K., Henning, U., Fischer, J., Agelink, M., Kolb-Bachofen, V., and Klimke, A.

Published

2003

13. Uptake of Clozapine into HL-60 Promyelocytic Leukaemia Cells

Author

Henning, U., Löffler, S., Krieger, K., and Klimke, A.

Published

2002

14. Nonlinear analysis of complex phenomena in cardiological data

Author

Wessel, Niels, Voss, Andreas, Malberg, Hagen, Ziehmann, Christine, Voss, Henning U., Schirdewan, Alexander, Meyerfeldt, Udo, and Kurths, Jürgen

Abstract

Das Hauptanliegen dieses Beitrages ist es, verschiedene Ansätze in der Herzfrequenz- und Blutdruckvariabilität zu diskutieren und damit das Verständnis der kardiovaskulären Regulation zu verbessern. Wir betrachten Komplexitätsmaße basierend auf der symbolischen Dynamik, die renormierte Entropie und die ,finite-time’ Wachstumsraten. Weiterhin werden die duale Sequenzmethode zur Bestimmung der Baroreflexsensitivität sowie die Maximalkorrelationsmethode zur Schätzung der nichtlinearen Kopplung in bivariaten Daten vorgestellt. Letztere stellt eine geeignete Methode zur Bestimmung der Kopplungsstärke und –richtung dar. Herzfrequenz- und Blutdruckvariabilitätsdaten einer klinischen Pilotstudie und einer großangelegten klinischen Studie werden analysiert. Wir demonstrieren in diesem Beitrag, dass Methoden der nichtlinearen Dynamik nützlich sind für die Risikostratifizierung nach Herzinfarkt, für die Vorhersage von lebensbedrohlichen Rhythmusstörungen sowie für die Modellierung der Herzfrequenz- und Blutdruckregulation. Diese Ergebnisse könnten in der klinischen Diagnostik sowie für therapeutische und präventive Zwecke von implantierbaren Defibrillatoren der nächsten Generation von Bedeutung sein. The main intention of this contribution is to discuss different nonlinear approaches to heart rate and blood pressure variability analysis for a better understanding of the cardiovascular regulation. We investigate measures of complexity which are based on symbolic dynamics, renormalised entropy and the finite time growth rates. The dual sequence method to estimate the baroreflex sensitivity and the maximal correlation method to estimate the nonlinear coupling between time series are employed for analysing bivariate data. The latter appears to be a suitable method to estimate the strength of the nonlinear coupling and the coupling direction. Heart rate and blood pressure data from clinical pilot studies and from very large clinical studies are analysed. We demonstrate that parameters from nonlinear dynamics are useful for risk stratification after myocardial infarction, for the prediction of life-threatening cardiac events even in short time series, and for modelling the relationship between heart rate and blood pressure regulation. These findings could be of importance for clinical diagnostics, in algorithms for risk stratification, and for therapeutic and preventive tools of next generation implantable cardioverter defibrillators.

Published

2000

15. Specific binding of ^3H-spiperone to peripheral blood cells: Relevance for the interpretation of binding studies in psychiatric disorders

Author

Henning, U., Krieger, K., and Klimke, A.

Published

1999

16. The nature of information, required for export and sorting, present within the outer membrane protein OmpA of Escherichia coli K‐12.

Author

Freudl, R., Schwarz, H., Klose, M., Movva, N.R., and Henning, U.

Abstract

Information, in addition to that provided by signal sequences, for translocation across the plasma membrane is thought to be present in exported proteins of Escherichia coli. Such information must also exist for the localization of such proteins. To determine the nature of this information, overlapping inframe deletions have been constructed in the ompA gene which codes for a 325‐residue major outer membrane protein. In addition, one deletion, encoding only the NH2‐terminal part of the protein up to residue 160, was prepared. The location of each product was determined by immunoelectron microscopy. Proteins missing residues 4‐45, 43‐84, 46‐227, 86‐227 or 160‐325 of the mature protein were all efficiently translocated across the plasma membrane. The first two proteins were found in the outer membrane, the others in the periplasmic space. It has been proposed that export and sorting signals consist of relatively small amino acid sequences near the NH2 terminus of an outer membrane protein. On the basis of sequence homologies it has also been suggested that such proteins possess a common sorting signal. The locations of the partially deleted proteins described here show that a unique export signal does not exist in the OmpA protein. The proposed common sorting signal spans residues 1‐14 of OmpA. Since this region is not essential for routing the protein, the existence of a common sorting signal is doubtful. It is suggested that information both for export (if existent) and localization lies within protein conformation which for the former process should be present repeatedly in the polypeptide.

Published

1985

17. Degrees of relatedness of T‐even type E. coli phages using different or the same receptors and topology of serologically cross‐reacting sites.

Author

Schwarz, H., Riede, I., Sonntag, I., and Henning, U.

Abstract

The relatedness of a series of T‐even like phages which use the Escherichia coli outer membrane protein OmpA as a receptor, and the classical phages T2, T4 and T6 has been investigated. Immunoelectron microscopy and the pattern of phage resistance in bacterial mutants revealed that: (i) phages of this morphology do not necessarily cross‐react serologically; (ii) phages using different receptors may bind heterologous IgG everywhere except to the tip (comprising approximately 10% of one fiber polypeptide) of the long tail fibers; (iii) cross‐reacting OmpA‐specific phages may bind heterologous IgG only to the tip of these fibers: (iv) OmpA‐specific phages not cross‐reacting at the tip of the tail fibers use different receptor sites on the protein. Absence of cross‐reactivity appears to reflect high degrees of dissimilarity. A DNA probe consisting of genes encoding the two most distal tail fiber proteins of T4 detected homologies only in DNA from phages serologically cross‐reacting at this fiber. Even under conditions of low stringency, allowing the formation of stable hybrids with almost 30% base mismatch, no such homologies could be found in serologically unrelated phages. Thus, in the collection of phages examined, there are sets of very similar and very dissimilar tail fiber genes and even of such gene segments.

Published

1983

18. The receptor specificity of bacteriophages can be determined by a tail fiber modifying protein.

Author

Riede, I., Degen, M., and Henning, U.

Abstract

T‐Even type bacteriophages recognize their cellular receptors with the distal ends of their long tail fibers. The distal part of these fibers consists of a dimer of gene product (gp) 37. The assembly of this gp to a functional dimer requires the action of two other proteins, gp57 and gp38. Genes (g) 38 have been cloned from five T‐even type phages which use the Escherichia coli outer membrane protein OmpA as a receptor. The phages used differ in their ability to infect a series of ompA mutants producing altered OmpA proteins, i.e., each phage has a specific host range for these mutants. The cloned genes 38 complemented g38 amber mutants of phage T2, which uses the outer membrane protein OmpF as a receptor. The complemented phages had become phenotypically OmpA‐dependent and, with one exception, OmpF‐independent, but regained the host range of T2 upon growth in a host lacking the cloned g38. The host range of the complemented phages, as determined on the ompA mutants, was identical to, similar to, or different from that of the phage, from which the cloned g38 originated. The results presented show that gp38 from one phage can phenotypically ‘imprint’, in a finely‐tuned manner, a host range onto gp37 of another phage with a different host specificity. In view of the extreme diversity of host ranges observed, it is suggested that gp38 of T2 and of the OmpA‐specific phages may remain attached to gp37 in the phage particle and in cooperation with gp37 determine the host range.

Published

1985

19. Apparent bacteriophage-binding region of an Escherichia coli K-12 outer membrane protein

Author

Cole, S T, Chen-Schmeisser, U, Hindennach, I, and Henning, U

Abstract

The 325-residue OmpA protein is one of the major outer membrane proteins of Escherichia coli. It serves as the receptor for several T-even-like phages and is required for the action of certain colicins and for the stabilization of mating aggregates in conjugation. We have isolated two mutant alleles of the cloned ompA gene which produce a protein that no longer functions as a phage receptor. Bacteria possessing the mutant proteins were unable to bind the phages, either reversibly or irreversibly. However, both proteins still functioned in conjugation, and one of them conferred colicin L sensitivity. DNA sequence analysis showed that the phage-resistant, colicin-sensitive phenotype exhibited by one mutant was due to the amino acid substitution Gly leads to Arg at position 70. The second mutant, which contained a tandem duplication, encodes a larger product with 8 additional amino acid residues, 7 of which are a repeat of the sequence between residues 57 and 63. In contrast to the wild-type OmpA protein, this derivative was partially digested by pronase when intact cells were treated with the enzyme. The protease removed 64 NH2-terminal residues, thereby indicating that this part of the protein is exposed to the outside. It is argued that the phage receptor site is most likely situated around residues 60 to 70 of the OmpA protein and that the alterations characterized have directly affected this site.

Published

1983

20. Active [3H]-Dopamine Uptake Displayed by Native Lymphocyte Suspensions is Mainly Due to Contaminating Platelets

Author

Krieger, K., Klimke, A., and Henning, U.

Published

1998

21. Protection and repair of gamma-radiation-induced lesions in mice with DNA or deoxyribonucleoside treatments

Author

Henning, U. G. G., Wang, Q., Gee, N. H., and Borstel, R. C. Von

Published

1996

22. Primary structure of major outer membrane protein II (ompA protein) of Escherichia coli K-12.

Author

Chen, R, Schmidmayr, W, Krämer, C, Chen-Schmeisser, U, and Henning, U

Abstract

The amino acid sequence of major outer membrane protein II (ompA protein) from Escherichia coli K-12 has been determined. The transmembrane polypeptide consists of 325 residues, resulting in a molecular weight of 35,159. The transmembrane part of the protein is located between residues 1 and 177. In this part of the protein a predominantly lipophilic 27-residue segment exists that perhaps spans the membrane in a mostly alpha-helical conformation, or a 19-residue stretch of this segment might traverse the membrane linearly. Inside the outer membrane a sequence -Ala-Pro-Ala-Pro-Ala-Pro-Ala-Pro- exists that, analogous to the -Cys-Pro-Pro-Cys-Pro- sequence in the hinge region of immunoglobulin, could assume the conformation of a polyproline helix. Computer analysis did not reveal a clear overall pattern of internal homology in the protein; besides the -Ala-Pro- repeat, only one local area (two adjacent dodecapeptide segments) shows some repetitiveness. The same analysis did not produce evidence for internal homology in the previously determined sequence of outer membrane protein I (porin) nor was any marked resemblance detected between transmembrane proteins I and II.

Published

1980

23. Cloning and expression in Escherichia coli K-12 of the genes for major outer membrane protein OmpA from Shigella dysenteriae, Enterobacter aerogenes, and Serratia marcescens

Author

Cole, S T, Sonntag, I, and Henning, U

Abstract

The outer membranes of many gram-negative bacteria contain a major heat-modifiable protein which shows serological cross-reactivity with the OmpA protein of Escherichia coli K-12. Using the cloned gene for the E. coli K12 protein as a DNA-DNA hybridization probe, we were able to identify the corresponding genes from Shigella dysenteriae. Enterobacter aerogenes, and Serratia marcescens. These were cloned in a phage lambda vector, and their expression in E. coli K-12 was studied. All three OmpA proteins were fully produced and correctly exported to the outer membrane. In several cases, complete or partial restoration of known function of the E. coli K-12 protein was observed.

Published

1982

24. Major proteins of the Escherichia coli outer cell envelope membrane as bacteriophage receptors

Author

Datta, D B, Arden, B, and Henning, U

Abstract

Three Escherichia coli phages, TuIa, TuIb, and TuII, were isolated from local sewage. We present evidence that they use the major outer membrane proteins Ia, Ib, and II, respectively, as receptors. In all cases the proteins, under the experimental conditions used, required lipopolysaccharide to exhibit their receptor activity. For proteins Ia and II, an approximately two- to eightfold molar excess of lipopolysaccharide (based on one diglucosamine unit) was necessary to reach maximal receptor activity. Lipopolysaccharide did not appear to possess phage-binding sites. It seemed that the lipopolysaccharide requirement reflected a protein-lipopolysaccharide interaction in vivo, and lipopolysaccharide may thus cause the specific localization of these proteins. Inactivation of phage TuII by a protein II-lipopolysaccharide complex was reversible as long as the complex was in solution. Precipitation of the complex with Mg2+ led to irreversible phage inactivation with an inactivation constant (37 degrees C)K = 7 X 10-2 ml/min per microgram. With phages TuIa and TuIb and their respective protein-lipopolysaccharide complexes, only irreversible inactivation was found at 37 degrees C. The activity of the three proteins as phage receptors shows that part of them must be located at the cells surface. In addition, the association of proteins Ia and Ib with the murein layer of the cell envelope makes this pair trans-membrane proteins.

Published

1977

25. Primary structure of major outer-membrane protein I (ompF protein, porin) of Escherichia coli B/r

Author

Chen, R, Krämer, C, Schmidmayr, W, Chen-Schmeisser, U, and Henning, U

Abstract

In the outer membrane of Gram-negative bacteria hydrophilic pores exist, allowing the diffusion of various low-molecular-weight solutes. These pores are formed by proteins, the porins. In a preliminary communication [Chen, Krämer, Schmidmayr & Henning (1979) Proc. Natl. Acad. Sci. U.S.A. 76, 5014-5017] we presented the primary structure of one of these porins, the 340-amino-acid-residue protein I (ompF protein) from Escherichia coli B/r. In the present paper we give the experimental evidence for this sequence. Two tryptophan positions, one valine position, two aspartic acid positions and nine out of 82 amide determinations have been corrected. To aid further studies on this class of transmembrane proteins, the isolation of most of the constituent peptides is documented.

Published

1982

26. Role of lipopolysaccharide in assembly of Escherichia coli outer membrane proteins OmpA, OmpC, and OmpF

Author

Ried, G, Hindennach, I, and Henning, U

Abstract

Selection was performed for resistance to a phage, Ox2, specific for the Escherichia coli outer membrane protein OmpA, under conditions which excluded recovery of ompA mutants. All mutants analyzed produced normal quantities of OmpA, which was also normally assembled in the outer membrane. They had become essentially resistant to OmpC and OmpF-specific phages and synthesized these outer membrane porins at much reduced rates. The inhibition of synthesis acted at the level of translation. This was due to the presence of lipopolysaccharides (LPS) with defective core oligosaccharides. Cerulenin blocks fatty acid synthesis and therefore that of LPS. It also inhibits synthesis of OmpC and OmpF but not of OmpA (C. Bocquet-Pagès, C. Lazdunski, and A. Lazdunski, Eur. J. Biochem. 118:105-111, 1981). In the presence of the antibiotic, OmpA synthesis and membrane incorporation remained unaffected at a time when OmpC and OmpF synthesis had almost ceased. The similarity of these results with those obtained with the mutants suggests that normal porin synthesis is not only interfered with by production of mutant LPS but also requires de novo synthesis of LPS. Since synthesis and assembly of OmpA into the outer membrane was not affected in the mutants or in the presence of cerulenin, association of this protein with LPS appears to occur with outer membrane-located LPS.

Published

1990

27. An artificial hydrophobic sequence functions as either an anchor or a signal sequence at only one of two positions within the Escherichia coli outer membrane protein OmpA.

Author

MacIntyre, S, Freudl, R, Eschbach, M L, and Henning, U

Abstract

The 325-residue outer membrane protein, OmpA, of Escherichia coli, like most other outer membrane proteins with known sequence, contains no long stretch of hydrophobic amino acids. A synthetic oligonucleotide, encoding the sequence Leu-Ala-Leu-Val, was inserted four times between the codons for amino acid residues 153 and 154 and two, three, or four times between the codons for residues 228 and 229, resulting in the OmpA153-4, OmpA-228-2, -3, and -4 proteins, respectively. In the first case, the lipophilic sequence anchored the protein in the plasma membrane. In the OmpA228 proteins, 16 but not 12 or 8 lipophilic residues most likely also acted as an anchor. By removal of the NH2-terminal signal peptide, the function of the insert in OmpA153-4 was converted to that of a signal-anchor sequence. Possibly due to differences in amino acid sequences surrounding the insert, no signal function was observed with the insert in OmpA228-4. Production of the OmpA153-4 protein, with or without the NH2-terminal signal sequence, resulted in a block of export of chromosomally encoded OmpA. Clearly, long hydrophobic regions are not permitted within proteins destined for the bacterial outer membrane, and these proteins, therefore, have had to evolve another mechanism of membrane assembly.

Published

1988

28. The nature of information, required for export and sorting, present within the outer membrane protein OmpA of Escherichia coli K‐12.

Author

Freudl, R., Schwarz, H., Klose, M., Movva, N.R., and Henning, U.

Abstract

Information, in addition to that provided by signal sequences, for translocation across the plasma membrane is thought to be present in exported proteins of Escherichia coli. Such information must also exist for the localization of such proteins. To determine the nature of this information, overlapping inframe deletions have been constructed in the ompA gene which codes for a 325‐residue major outer membrane protein. In addition, one deletion, encoding only the NH2‐terminal part of the protein up to residue 160, was prepared. The location of each product was determined by immunoelectron microscopy. Proteins missing residues 4‐45, 43‐84, 46‐227, 86‐227 or 160‐325 of the mature protein were all efficiently translocated across the plasma membrane. The first two proteins were found in the outer membrane, the others in the periplasmic space. It has been proposed that export and sorting signals consist of relatively small amino acid sequences near the NH2 terminus of an outer membrane protein. On the basis of sequence homologies it has also been suggested that such proteins possess a common sorting signal. The locations of the partially deleted proteins described here show that a unique export signal does not exist in the OmpA protein. The proposed common sorting signal spans residues 1‐14 of OmpA. Since this region is not essential for routing the protein, the existence of a common sorting signal is doubtful. It is suggested that information both for export (if existent) and localization lies within protein conformation which for the former process should be present repeatedly in the polypeptide.

Published

1985

29. Abnormal Glucocorticoid Dependent Increase of Spiperone Binding Sites on Lymphocytes from Schizophrenics in Vitro

Author

Halbach, M. and Henning, U.

Published

1989

30. Cloning of the structural gene (ompA) for an integral outer membrane protein of Escherichia coli K-12.

Author

Henning, U, Royer, H D, Teather, R M, Hindennach, I, and Hollenberg, C P

Abstract

The gene (ompA) for the major outer membrane protein II* from Escherichia coli K-12 has been cloned on a 5-megadalton EcoRI fragment by using phage lambda as vector. The gene is expressed during the lytic cycle of the recombinant phage and the insoluble membrane-bound protein was detected in phage plaques with a simple radioimmunoassay. Transfer of the EcoRI fragment into plasmid pSC101 and expression in a host lacking protein II* led to overproduction of protein II* and decreased production of two other major outer membrane proteins. Expression of the plasmid pSC101-ompA+ in minicells derived from an ompA minicell-producing strain led to synthesis, at high rates, of this protein and massive accumulation of a second cell envelope protein most likely representing the biosynthetic precursor of protein II*.

Published

1979

31. Evaluation of maize inbred Iines for resistance to sugarcane mosaic virus (SCMV) and maize dwarf mosaic virus (MDMV)

Author

Kuntze, L., Fuchs, E., Gr?ntzig, M., Schulz, B., Henning, U., Hohmann, F., and Melchinger, AE

Abstract

Field and greenhouse experiments were performed to evaluate 124 maize inbreds for their reaction to inoculation with sugarcane mosaic virus (SCMV) and maize dwarf mosaic virus (MDMV). Plants were mechanically inoculated twice with SCMV or MDMV and symptoms were evaluated at weekly intervals. The progress of symptom development showed good agreement between inbreds inoculated with SCMV and with MDMV under field and greenhouse conditions. Three inbreds showed complete resistance to SCMV and MDMV across all experiments, 19 inbreds expressed partial resistance, and the remaining inbreds were highly susceptible. In a greenhouse experiment conducted to evaluate 15 inbreds for their reaction to SCMV, MDMV, Johnson grass mosaic virus (JGMV), and sorghum mosaic virus (SrMV), 5 lines were completely resistant to all 4 viruses. Correlations between percentage of infected plants per inbred were high among SCMV, MDMV, SrMV and JGMV. ?valuation des lign?es de ma?s pour leur r?sistance au virus de la mosa?que de la canne ? sucre (SCMV) et au virus de la mosa?que nanisante du ma?s (MDMV). Nous avons r?alis? des essais en serre et au champ pour ?valuer 124 lign?es de ma?s pour leur r?action ? l'inoculation par le virus de la mosa?que de la canne ? sucre (SCMV) et par le virus de la mosa?que nanisante du ma?s. Les plantes ont ?t? inocul?es m?caniquement 2 fois avec le SCMV et le MDMV, et les sympt?mes ont ?t? ?valu?s chaque semaine. On a constat? un bon accord entre les lign?es inocul?es avec SCMV et MDMV au champ et en serre sur la progression des sympt?mes. Trois lign?es ont manifest? une r?sistance compl?te au SCMV et au MDMV sur l'ensemble des essais. Dix-neuf lign?es ont exprim? une r?sistance partielle, et les lign?es restantes se sont av?r?es tr?s sensibles. Dans un essai en serre pour ?valuer 15 lign?es pour leur r?action au SCMV, au MDMV, au virus de la mosa?que du sorgho d'Alep (JGMV), et au virus de la mosa?que du sorgho (SrMV), 5 lign?es se sont av?r?es compl?tement r?sistantes aux 4 virus. La corr?lation entre les pourcentages de plantes infect?es par lign?es ?tait ?lev?e pour le SCMV, le MDMV, le SrMV, et le JGMV.

Published

1995

32. Primary structure of major outer membrane protein I of Escherichia coli B/r.

Author

Chen, R, Krämer, C, Schmidmayr, W, and Henning, U

Abstract

The amino acid sequence of the pore-forming outer membrane protein I (porin) from Escherichia coli B/r has been determined. The polypeptide contains 340 amino acid residues resulting in a molecular weight of 37,205. The transmembrane polypeptide has no stretches of nonpolar residues, uninterrupted by charged side chains, longer than 11 amino acid residues. Regarding polarity, the chain can be subdivided into three regions: a distinctly hydrophilic region between residues 1 and 82 (51.2% polarity), a fairly nonpolar region between residues 83 and 194 (33.9% polarity), and a more hydrophilic region up to the COOH terminus (48% polarity). These results are interpreted as evidence against a simple transmembrane structure in which the membrane is spanned by a single contiguous sequence of hydrophobic amino acids, as has been proposed, for example, for glycophorin.

Published

1979

33. Alterations to the signal peptide of an outer membrane protein (OmpA) of Escherichia coli K-12 can promote either the cotranslational or the posttranslational mode of processing.

Author

Freudl, R, MacIntyre, S, Degen, M, and Henning, U

Abstract

The signal sequence of the precursor of the Escherichia coli outer membrane protein OmpA was altered by oligonucleotide insertions into the corresponding gene. In one case, OmpA-S1, the hydrophobic core of the signal peptide, is reduced from 12 to 10 residues, and one positive charge is added near the NH2-terminus. In another case, OmpA-P1, the hydrophobic core is extended from 12 to 16 residues. The pro-OmpA protein is normally processed partially co- and partially posttranslationally. Processing of the pro-OmpA-S1 protein was entirely posttranslational and that of the pro-OmpA-P1 protein strictly cotranslational. Evidence is presented which strongly suggests that posttranslational processing reflects posttranslational translocation across the plasma membrane. The generation times of cells expressing pro-OmpA-P1 or pro-OmpA-S1 were identical and the pro-OmpA-S1 polypeptide could be chased into the mature protein in the absence of protein synthesis. Hence, it does not matter which mode of processing, or rather translocation, is used. The same oligonucleotides were inserted into the ompA gene of plasmid pRD87; a plasmid which leads to overproduction of the protein and to massive accumulation of both the mature protein and the precursor. In the OmpA signal sequence encoded by pRD87-P2 the hydrophobic core is extended from 12 to 20 residues. This peptide was also rapidly removed. Therefore, regardless of whether the hydrophobic core contains 12, 16, or 20 lipophilic residues, not only does the signal sequence always function correctly to mediate export, but in each case, the cleavage site is always accessible to the signal peptidase.

Published

1988

34. Membrane assembly of the outer membrane protein OmpA of Escherichia coli.

Author

Klose, M, Störiko, A, Stierhof, Y D, Hindennach, I, Mutschler, B, and Henning, U

Abstract

The membrane part (residues 1 to approximately 170) of the 325-residue Escherichia coli outer membrane protein OmpA is thought to exist in the membrane as an 8-stranded beta-barrel, subdividing this part into four segments. The influence of proline residues on membrane assembly of the protein has been studied. These were introduced, using site-directed mutagenesis, into each of seven of the antiparallel beta-strands. One important parameter for allowing or not allowing membrane assembly was the potential H beta (i) which is the potential to form an amphiphilic beta-strand. When H beta (i) remained unaltered, 2 prolines were tolerated. Lowering H beta (i) in most cases caused failure of assembly when 2 such residues were present. An insert of 10 residues, including 3 prolines, did not alter H beta(i) and was tolerated, but caused “looping out” of the strand to the outer face of the membrane; displacement to its inner side would not have allowed for an amphiphilic beta-strand. Thus, a beta-structured protein is as adaptable as it has been shown for an alpha-helix. The wild type segment order 1-2-3-4 has been changed to 1-3-3-4 and 1-4-3-4. Since the proteins were found associated with the outer membrane but could not be incorporated into it, it appears that sorting is less sensitive to alterations than assembly. A regulatory circuit was affected (missense mutants of outer membrane proteins can cause inhibition of synthesis of other such proteins); expression of the two rearranged genes effected a strong inhibition of synthesis of the unrelated porins OmpC and F as well as that of the maltoporin LamB and wild type OmpA. Hence, outer membrane proteins are designed not only for efficient membrane assembly but also for proper regulation of their synthesis.

Published

1993

35. Determination of Cell Shape in Bacteria

Author

Henning, U

Published

1975

36. Location and unusual membrane topology of the immunity protein of the Escherichia coli phage T4

Author

Lu, M J, Stierhof, Y D, and Henning, U

Abstract

The immunity protein (Imm) encoded by the Escherichia coli phage T4 effects exclusion of phage superinfecting cells already infected with T4. The 83-residue polypeptide possesses two long lipophilic areas (from residues 3 to 32 and 37 to 65) interrupted by a hydrophilic stretch including two positively charged residues. The charge distribution of the protein very strongly suggested that it is a plasma membrane protein with the C terminus facing the periplasm. While it could be shown that the expected location was correct, fusions of Imm to alkaline phosphatase or beta-galactosidase showed that the C terminus was at the cytosolic side of the membrane. Also, concerning function, there was almost no structural specificity to this part of the protein. Even removal of the two positively charged residues did not completely abolish function. Evidence suggesting that Imm is associated with the membrane at specific sites is presented. It is proposed that Imm is localized to the membrane with the help of a receptor and that, therefore, it does not follow the established rules for the topology of other membrane proteins. The results also suggest that Imm acts indirectly, possibly by altering the conformation of a component of a phage DNA injection site.

Published

1993

37. The immunity (imm) gene of Escherichia coli bacteriophage T4

Author

Lu, M J and Henning, U

Abstract

The immunity (imm) gene of the Escherichia coli bacteriophage T4 effects exclusion of phage superinfecting cells already infected with T4. A candidate for this gene was placed under the control of the lac regulatory elements in a pUC plasmid. DNA sequencing revealed the presence of an open reading frame encoding a very lipophilic 83-residue (or 73-residue, depending on the unknown site of translation initiation) polypeptide which most likely represents a plasma membrane protein. This gene could be identified as the imm gene because expression from the plasmid caused exclusion of T4 and because interruption of the gene in the phage genome resulted in a phage no longer effecting superinfection immunity. It was found that the fraction of phage which was excluded upon infection of cells possessing the plasmid-encoded Imm protein ejected only about one-half of their DNA. Therefore, the Imm protein inhibited, directly or indirectly, DNA ejection.

Published

1989

38. An outer membrane protein (OmpA) of Escherichia coli K-12 undergoes a conformational change during export.

Author

Freudl, R, Schwarz, H, Stierhof, Y D, Gamon, K, Hindennach, I, and Henning, U

Abstract

Pulse-chase experiments were performed to follow the export of the Escherichia coli outer membrane protein OmpA. Besides the pro-OmpA protein, which carries a 21-residue signal sequence, three species of ompA gene products were distinguishable. One probably represented an incomplete nascent chain, another the mature protein in the outer membrane, and the third, designated imp-OmpA (immature processed), a protein which was already processed but apparently was still associated with the plasma membrane. The pro- and imp-OmpA proteins could be characterized more fully by using a strain overproducing the ompA gene products; pro- and imp-OmpA accumulated in large amounts. It could be shown that the imp- and pro-OmpA proteins differ markedly in conformation from the OmpA protein. The imp-OmpA, but not the pro-OmpA, underwent a conformational change and gained phage receptor activity upon addition of lipopolysaccharide. Utilizing a difference in detergent solubility between the two polypeptides and employing immunoelectron microscopy, it could be demonstrated that the pro-OmpA protein accumulated in the cytoplasm while the imp-OmpA was present in the periplasmic space. The results suggest that the pro-OmpA protein, bound to the plasma membrane, is processed, and the resulting imp-OmpA, still associated with the plasma membrane, recognizes the lipid A moiety of the lipopolysaccharide. The resulting conformational change may then force the protein into the outer membrane.

Published

1986

39. The signal sequence of an Escherichia coli outer membrane protein can mediate translocation of a not normally secreted protein across the plasma membrane.

Author

MacIntyre, S, Freudl, R, Degen, M, Hindennach, I, and Henning, U

Abstract

The distal part of the long tail fibers of the Escherichia coli phage T4 consists of a dimer of protein 37. A fragment of the corresponding gene, encoding 253 amino acids, was inserted into several different sites within the cloned gene for the 325-residue outer membrane protein OmpA. In plasmid pTU T4-5 the fragment was inserted once and in pTU T4-10 tandemly twice between the codons for residues 153 and 154 of the OmpA protein. In pTU T4-22 two fragments were present, in tandem, between the codons for residues 45 and 46 of this protein. In pIN T4-6 one fragment was inserted into the ompA gene immediately following the part encoding the signal sequence. The corresponding mature proteins consist, in this order, of 605, 860, 835, and 279 amino acid residues. All precursor proteins were processed and translocated across the plasma membrane. Hence, not only can the OmpA protein serve as a vehicle for export of a nonsecretory protein, but the signal sequence alone can also mediate export of such a protein. Export of the pro-OmpA protein depends on the SecA protein. Export of the tail fiber fragment expressed from pIN T4-6 remained SecA dependent. Thus, the secA pathway in this case is chosen by the signal peptide. It is proposed that a signal peptide can mediate translocation of nonsecretory proteins as long as they are export-compatible. The inability of a signal sequence to mediate export of some proteins appears to be due to export incompatibility of the protein rather than to the absence of information, within the mature part of the polypeptide, which would be required for translocation.

Published

1987

40. The influence of amino substitutions within the mature part of an Escherichia coli outer membrane protein (OmpA) on assembly of the polypeptide into its membrane.

Author

Klose, M, MacIntyre, S, Schwarz, H, and Henning, U

Abstract

The membrane part of the 325-residue outer membrane protein OmpA of Escherichia coli encompasses residues 1-177. This part is thought to cross the membrane eight times in antiparallel beta-strands, forming four loops of an amphipathic beta-barrel. With the aim of gaining some insight into the mechanism of sorting, i.e. the way the protein recognizes and assembles into its membrane, a set of point mutants in the ompA gene has been generated. Selection for toxicity of ompA expression following mutagenesis with sodium bisulfite yielded genes with multiple base pair substitutions, the majority of which resulted in amino acid substitutions in the membrane moiety of the protein. None of the altered proteins was blocked in membrane incorporation. A proline residue exists at or near each of the presumed turns at the inner side of the outer membrane. Using oligonucleotide-directed mutagenesis, each of them was replaced by a leucine residue which is thought to be a turn blocking residue. None of these proteins had lost the ability to be incorporated into the membrane. Apparently, leucine residues are tolerated at turns in this protein. To interfere with the formation of antiparallel beta-strands, four double mutants were prepared: ompA-ON3 (Ala11—-Pro, Leu13—-Pro), -ON4 (Ala11—-Asp, Leu13—-Pro), -ON5 (Gly160—-Val, Leu162—-Arg), and -ON6 (Leu164—-Pro, Val166—-Asp). The former three proteins and even quadruple mutants consisting of a combination of ompA-ON2 or -ON4 with -ON5 were not defective in membrane assembly. In contrast, the OmpA-ON6 protein was translocated across the plasma membrane but could not be incorporated into the outer membrane. It is concluded that at least one rather small area of the polypeptide is of crucial importance for the assembly of OmpA into the outer membrane.

Published

1988

41. Internal deletions in the gene for an Escherichia coli outer membrane protein define an area possibly important for recognition of the outer membrane by this polypeptide.

Author

Klose, M, Schwarz, H, MacIntyre, S, Freudl, R, Eschbach, M L, and Henning, U

Abstract

A series of overlapping deletions has been constructed in the ompA gene which encodes the 325-residue Escherichia coli outer membrane protein OmpA. Immunoelectron microscopy showed that the OmpA fragments were either located in the periplasmic space or were associated with the outer membrane. Apparently an area between residues 154 and 180 is required for this association; all proteins missing this area were found to be periplasmic. The nature of this association remained unknown; no membrane-protected tryptic fragments could be identified for any of these polypeptides. Hybrid genes were constructed encoding parts of the periplasmic maltose binding protein and an area of the ompA gene coding for residues 154-274. The corresponding proteins were not localized to the outer membrane but remained attached to the outer face of the plasma membrane, possibly because the normal mechanism of release from this membrane was impaired. In the OmpA protein the conspicuous sequence Ala180-Pro-Ala-Pro-Ala-Pro-Ala-Pro187 exists. Frameshift mutants were constructed to eliminate this sequence. There was no effect on the incorporation of the mutant proteins into the outer membrane. Thus, this “hinge” region is not involved in sorting. A proposal suggesting the existence of a sorting signal common to several outer membrane proteins (Benson, S. A., Bremer, E., and Silhavy, T. J. (1984) Proc. Natl. Acad. Sci. U. S. A. 81, 3830-3834) was subsequently rejected (Bosch, D., Leunissen, J., Verbakel, J., de Jong, M., van Erp, H., and Tommassen, J. (1986) J. Mol. Biol. 189, 449-455; Freudl, R., Schwarz, H., Klose, M., Movva, N. R., and Henning, U. (1985) EMBO J. 4, 3593-3598). Although it is not known whether or not the outer membrane association observed represents a step in the normal sorting mechanism, it is concluded that it remains an open question whether or not a sorting signal, as proposed originally, exists in outer membrane proteins.

Published

1988

42. Degrees of relatedness of T‐even type E. coli phages using different or the same receptors and topology of serologically cross‐reacting sites.

Author

Schwarz, H., Riede, I., Sonntag, I., and Henning, U.

Abstract

The relatedness of a series of T‐even like phages which use the Escherichia coli outer membrane protein OmpA as a receptor, and the classical phages T2, T4 and T6 has been investigated. Immunoelectron microscopy and the pattern of phage resistance in bacterial mutants revealed that: (i) phages of this morphology do not necessarily cross‐react serologically; (ii) phages using different receptors may bind heterologous IgG everywhere except to the tip (comprising approximately 10% of one fiber polypeptide) of the long tail fibers; (iii) cross‐reacting OmpA‐specific phages may bind heterologous IgG only to the tip of these fibers: (iv) OmpA‐specific phages not cross‐reacting at the tip of the tail fibers use different receptor sites on the protein. Absence of cross‐reactivity appears to reflect high degrees of dissimilarity. A DNA probe consisting of genes encoding the two most distal tail fiber proteins of T4 detected homologies only in DNA from phages serologically cross‐reacting at this fiber. Even under conditions of low stringency, allowing the formation of stable hybrids with almost 30% base mismatch, no such homologies could be found in serologically unrelated phages. Thus, in the collection of phages examined, there are sets of very similar and very dissimilar tail fiber genes and even of such gene segments.

Published

1983

43. The receptor specificity of bacteriophages can be determined by a tail fiber modifying protein.

Author

Riede, I., Degen, M., and Henning, U.

Abstract

T‐Even type bacteriophages recognize their cellular receptors with the distal ends of their long tail fibers. The distal part of these fibers consists of a dimer of gene product (gp) 37. The assembly of this gp to a functional dimer requires the action of two other proteins, gp57 and gp38. Genes (g) 38 have been cloned from five T‐even type phages which use the Escherichia coli outer membrane protein OmpA as a receptor. The phages used differ in their ability to infect a series of ompA mutants producing altered OmpA proteins, i.e., each phage has a specific host range for these mutants. The cloned genes 38 complemented g38 amber mutants of phage T2, which uses the outer membrane protein OmpF as a receptor. The complemented phages had become phenotypically OmpA‐dependent and, with one exception, OmpF‐independent, but regained the host range of T2 upon growth in a host lacking the cloned g38. The host range of the complemented phages, as determined on the ompA mutants, was identical to, similar to, or different from that of the phage, from which the cloned g38 originated. The results presented show that gp38 from one phage can phenotypically ‘imprint’, in a finely‐tuned manner, a host range onto gp37 of another phage with a different host specificity. In view of the extreme diversity of host ranges observed, it is suggested that gp38 of T2 and of the OmpA‐specific phages may remain attached to gp37 in the phage particle and in cooperation with gp37 determine the host range.

Published

1985

44. The signal sequence suffices to direct export of outer membrane protein OmpA of Escherichia coli K-12

Author

Freudl, R, Schwarz, H, Degen, M, and Henning, U

Abstract

We studied whether information required for export is present within the mature form of the Escherichia coli 325-residue outer membrane protein OmpA. We had previously analyzed overlapping internal deletions in the ompA gene, and the results allowed us to conclude that if such information exists it must be present repeatedly within the membrane part of the protein encompassing amino acid residues 1 to 177 (R. Freudl, H. Schwarz, M. Klose, N. R. Movva, and U. Henning, EMBO J. 4:3593-3598, 1985). A deletion which removed the codons for amino acid residues 1 to 229 of the OmpA protein was constructed. In this construct the signal sequence was fused to the periplasmic part of the protein. The resulting protein, designated Pro-OmpA delta 1-229, was processed, and the mature 95-residue protein accumulated in the periplasm. Hence, information required for export does not exist within the OmpA protein.

Published

1987

45. New locus (ttr) in Escherichia coli K-12 affecting sensitivity to bacteriophage T2 and growth on oleate as the sole carbon source

Author

Morona, R and Henning, U

Abstract

The nature of resistance to phage T2 in Escherichia coli K-12 was investigated by analyzing a known phage T2-resistant mutant and by isolating new T2-resistant mutants. It was found that mutational alterations at two loci, ompF (encoding the outer membrane protein OmpF) and ttr (T-two resistance), are needed to give full resistance to phage T2. A ttr::Tn10 mutation was isolated and was mapped between aroC and dsdA, where the fadL gene (required for long-chain fatty acid transport) is located. The receptor affected by ttr was the major receptor used by phage T2 and was located in the outer membrane. Phage T2 was thus able to use two outer membrane proteins as receptors. All strains having a ttr::Tn10 allele and most of the independently isolated phage T2-resistant mutants were unable to grow on oleate as the sole carbon and energy source, i.e., they had the phenotype of fadL mutants. The gene fadL is known to encode an inner membrane protein. The most likely explanation is that fadL and ttr are in an operon and that ttr encodes an outer membrane protein which functions in translocating long-chain fatty acids across the outer membrane and also as a receptor for phage T2.

Published

1986

46. Bacteriophage receptor area of outer membrane protein OmpA of Escherichia coli K-12

Author

Morona, R, Krämer, C, and Henning, U

Abstract

A number of T-even-like bacteriophages use the outer membrane protein OmpA of Escherichia coli as a receptor. We had previously analyzed a series of ompA mutants which are resistant to such phages and which still produce the OmpA protein (R. Morona, M. Klose, and U. Henning, J. Bacteriol. 159:570-578, 1984). Mutational alterations were found near or at residues 70, 110 and 154. Based on these and other results a model was proposed showing the amino-terminal half of the 325-residue protein crossing the outer membrane repeatedly and being cell surface exposed near residues 25, 70, 110, and 154. We characterized, by DNA sequence analysis, an additional 14 independently isolated phage-resistant ompA mutants which still synthesize the protein. Six of the mutants had alterations identical to the ones described before. The other eight mutants possessed seven new alterations: Ile-24----Asn, Gly-28----Val, deletion of Glu-68, Gly-70----Cys, Ser-108----Phe, Ser-108----Pro, and Gly-154----Asp (two isolates). Only the latter alteration resulted in a conjugation-deficient phenotype. The substitutions at Ile-24 and Gly-28 confirmed the expectation that this area of the protein also participates in its phage receptor region. It is unlikely that still other such sites of the protein are involved in the binding of phage, and it appears that the phage receptor area of the protein has now been characterized completely.

Published

1985

47. Presence of DNA, encoding parts of bacteriophage tail fiber genes, in the chromosome of Escherichia coli K-12

Author

Riede, I, Eschbach, M L, and Henning, U

Abstract

The classical T-even bacteriophages recognize host cells with their long tail fibers. Gene products 35, 36, and 37 constitute the distal moiety of these fibers. The free ends of the tail fibers, which are formed by the CO2H terminus of gene product 37, possess the host range determinants. It was found that 4 out of 10 different strains of Escherichia coli K-12 contained regions of chromosomal DNA which hybridized with a probe consisting of genes 35, 36, and 37 of the T-even phage K3. From one strain this homologous DNA, which was associated with an EcoRI fragment of about 5 kilobases, was cloned into plasmid pUC8. Two independently recovered hybrid plasmids had undergone a peculiar rearrangement which resulted in the loss of about 3 kilobases of cloned DNA and a duplication of both the vector and the remaining chromosomal DNA. The mechanisms causing this duplication-deletion may be related to that of transposases. The cloned DNA was capable of recombination with phage T4 gene 36 and a phage T2 gene 37 amber mutant. DNA sequencing revealed the existence of regions of identity between the cloned DNA and genes 36 and 37 of phage T2. In addition, after growth of a derivative of phage K3 on a strain harboring T2 DNA, it was found that this phage contained the same parts of the T2 tail fiber genes which had been recovered from the bacterial chromosome. There appears to be little doubt that the phage had picked up this DNA from the host. The possibility is considered that a repertoire of parts of genes 36 and 37 of various T-even-type phages is present in their hosts, allowing the former to change their host ranges.

Published

1985

48. Host range mutants of bacteriophage Ox2 can use two different outer membrane proteins of Escherichia coli K-12 as receptors

Author

Morona, R and Henning, U

Abstract

The Escherichia coli K-12 outer membrane protein OmpA functions as the receptor for bacteriophage Ox2. We isolated a host range mutant of this phage which was able to grow on an Ox2-resistant ompA mutant producing an altered OmpA protein. From this mutant, Ox2h5, a second-step host range mutant was recovered which formed turbid plaques on a strain completely lacking the OmpA protein. From one of these mutants, Ox2h10, a third-step host range mutant, Ox2h12, was isolated which formed clear plaques on a strain missing the OmpA protein. Ox2h10 and Ox2h12 apparently were able to use both outer membrane proteins OmpA and OmpC as receptors. Whereas there two proteins are very different with respect to primary structures and functions, the OmpC protein is very closely related to another outer membrane protein, OmpF, which was not recognized by Ox2h10 or Ox2h12. An examination of the OmpC amino acid sequence, in the regions where it differs from that of OmpF, revealed that one region shares considerable homology with a region of the OmpA protein which most likely is required for phage Ox2 receptor activity.

Published

1984

49. Escherichia coli K-12 outer membrane protein (OmpA) as a bacteriophage receptor: analysis of mutant genes expressing altered proteins

Author

Morona, R, Klose, M, and Henning, U

Abstract

The outer membrane protein OmpA of Escherichia coli K-12 serves as a receptor for a number of T-even-like phages. We have isolated a series of ompA mutants which are resistant to such phages but which still produce the OmpA protein. None of the mutants was able to either irreversibly or reversibly bind the phage with which they had been selected. Also, the OmpA protein is required for the action of colicins K and L and for the stabilization of mating aggregates in conjugation. Conjugal proficiency was unaltered in all cases. Various degrees of colicin resistance was found; however, the resistance pattern did not correlate with the phage resistance pattern. DNA sequence analyses revealed that, in the mutants, the 325-residue OmpA protein had suffered the following alterations: Gly-65----Asp, Gly-65----Arg, Glu-68----Gly, Glu-68----Lys (two isolates), Gly-70----Asp (four isolates), Gly-70----Val, Ala-Asp-Thr-Lys-107----Ala-Lys (caused by a 6-base-pair deletion), Val-110----Asp, and Gly-154----Ser. These mutants exhibited a complex pattern of resistance-sensitivity to 14 different OmpA-specific phages, suggesting that they recognize different areas of the protein. In addition to the three clusters of mutational alterations around residues 68, 110, and 154, a site around residue 25 has been predicted to be involved in conjugation and in binding of a phage and a bacteriocin (R. Freudl, and S. T. Cole, Eur. J. Biochem, 134:497-502, 1983; G. Braun and S. T. Cole, Mol. Gen. Genet, in press). These four areas are regularly spaced, being about 40 residues apart from each other. A model is suggested in which the OmpA polypeptide repeatedly traverses the outer membrane in cross-beta structure, exposing the four areas to the outside.

Published

1984

50. Dihydrofolate reductase (mouse) and beta-galactosidase (Escherichia coli) can be translocated across the plasma membrane of E. coli.

Author

Freudl, R, Schwarz, H, Kramps, S, Hindennach, I, and Henning, U

Abstract

Hybrid genes were constructed. One, ompA153-dfr, encoded the precursor of the 325 residue Escherichia coli outer membrane protein OmpA up to residue 153 which was fused to the complete 186-residue dihydrofolate reductase of the mouse. The other, ompA219-lacZ, coded for the same precursor up to residue 219 which was fused to 1017 COOH-terminal residues of the 1023-residue subunit of the beta-galactosidase of E. coli. Full expression of the ompA153-dfr gene caused accumulation of its precursor and of that of the chromosomally encoded OmpA protein. When the amount of product was reduced, no pro-OmpA and very little pro-hybrid protein accumulated. The precursor was processed and the mature protein was fully accessible to trypsin in permeabilized cells. Expression of the ompA219-lacZ gene led to the presence of the hybrid protein at only 20-30% of the amount expected. About 20% of it appeared to be incorporated in the outer membrane. All of the hybrid was quantitatively accessible to trypsin in permeabilized cells. When the hybrid gene was overexpressed, the protein was found associated with the plasma membrane in the cytosol. It is concluded that both beta-galactosidase and dihydrofolate reductase could quantitatively traverse the plasma membrane, provided the amounts synthesized were sufficiently small.

Published

1988