scholarly journals Peptidoglycan synthesis in Bacillus licheniformis. The inhibition of cross-linking by benzylpenicillin and cephaloridine in vivo accompanied by the formation of soluble peptidoglycan

1975 ◽  
Vol 146 (1) ◽  
pp. 253-267 ◽  
Author(s):  
Z Tynecka ◽  
J B Ward
Keyword(s):  
Cell Wall ◽  
Bacillus Licheniformis ◽  
Cross Linking ◽  
Cross Links ◽  
Increased Sensitivity ◽  
Cross Bridges ◽  
Chain Lengths ◽  
Soluble Material ◽  
Subsequent Addition

The synthesis of peptidoglycan by an autolysin-deficient β-lactamase-negative mutant of Bacillus licheniformis was studied in vivo in the absence of protein synthesis. Benzylpenicillin and cephaloridine inhibited the formation of cross-bridges between newly synthesized peptidoglycan and the pre-existing cell wall. This inhibition, detected by measurement of the incorporation of N-acetyl[14C]glucosamine into the glycan fraction of the cell wall, was reversed by treatment with β-lactamase and washing. Inhibition of D-alanine carboxypeptidase by benzylpenicillin was not reversed under similar conditions. Cells in which the initial penicillin inhibition of transpeptidation had been reversed showed an increased sensitivity to a subsequent addition of the antibiotic. Chemical analysis of peptidoglycan synthesized after reversal of penicillin inhibition revealed the presence of excess of alanine resulting from the continued inhibition of D-alanine carboxypeptidase. When the cell walls were digested to yield muropeptides so that the degree of cross-linking could be measured, the product after reversal of penicillin inhibition contained fewer cross-links than did the control preparation. Cultures treated with benzylpenicillin and cephaloridine continued to synthesize uncross-linked soluble peptidoglycan, which accumulated in the medium. This soluble material was all newly synthesized peptidoglycan and did not result from autolysis of the bacteria. The average chain lengths of the glycan synthesized in vivo and released as soluble peptidoglycan in the presence of both benzylpenicillin and cephaloridine were similar to those found previously in this organism.

scholarly journals Native cross-links in collagen fibrils induce resistance to human synovial collagenase

1979 ◽  
Vol 181 (3) ◽  
pp. 639-645 ◽  
Author(s):  
C A Vater ◽  
E D Harris ◽  
R C Siegel
Keyword(s):  
Lysyl Oxidase ◽  
Collagen Fibrils ◽  
Bone Collagen ◽  
Collagen Molecule ◽  
Cross Linking ◽  
Pathological Conditions ◽  
Insoluble Material ◽  
Induce Resistance ◽  
Cross Links

A model system consisting of highly purified lysyl oxidase and reconstituted lathyritic chick bone collagen fibrils was used to study the effect of collagen cross-linking on collagen degradation by mammalian collagenase. The results indicate that synthesis of approx. 0.1 Schiff-base cross-link per collagen molecule results in a 2–3-fold resistance to human synovial collagenase when compared with un-cross-linked controls or samples incubated in the presence of beta-aminopropionitrile to inhibit cross-linking. These results confirm previous studies utilizing artificially cross-linked collagens, or collagens isolated as insoluble material after cross-linking in vivo, and suggest that increased resistance to collagenase may be one of the earliest effects of cross-linking in vivo. The extent of intermolecular cross-linking among collagen fibrils may provide a mechanism for regulating the rate of collagen catabolism relative to synthesis in normal and pathological conditions.

scholarly journals Cross-linker system between neurofilaments, microtubules and membranous organelles in frog axons revealed by the quick-freeze, deep-etching method

1982 ◽  
Vol 94 (1) ◽  
pp. 129-142 ◽  
Author(s):  
N Hirokawa
Keyword(s):  
Chemical Extraction ◽  
Distilled Water ◽  
Deep Etching ◽  
Cross Links ◽  
Cross Linker ◽  
The Cross ◽  
Cross Bridges ◽  
20 Nm ◽  
Soluble Material ◽  
Soluble Components

The elaborate cross-connections among membranous organelles (MO), microtubules (MT), and neurofilaments (NF) were demonstrated in unifixed axons by the quick-freeze, deep-etch, and rotary-shadowing method. They were categorized into three groups: NF-associated cross-linker, MT-associated cross-bridges, and long cross-links in the subaxolemmal space. Other methods were also employed to make sure that the observed cross-connections in the unfixed axons were not a result of artifactual condensation or precipitation of soluble components or salt during deep-etching. Axolemma were permeablized either chemically (0.1% saponin) or physically (gentle homogenization), to allow egress of their soluble components from the axon; or else the axons were washed with distilled water after fixation. After physical rupture of the axolemma or saponin treatment, most of the MO remained intact. MT were stabilized by adding taxol in the incubation medium. Axons prepared by these methods contained many longitudinally oriented NF connected to each other by numerous fine cross-linkers (4-6 nm in diameter, 20-50 nm in length). Two specialized regions were apparent within the axons: one composed of fascicles of MT linked with each other by fine cross-bridges; the other was in the subaxolemmal space and consisted of actinlike filaments and a network of long cross-links (50-150 nm) which connected axolemma and actinlike filaments with NF and MT. F-actin was localized to the subaxolemmal space by the nitrobenzooxadiazol phallacidin method. MO were located mainly in these two specialized regions and were intimately associated with MT via fine short (10-20 nm in length) cross-bridges. Cross-links from NF to MO and MT were also common. All these cross-connections were observed after chemical extraction or physical rupture of the axon; however, these procedures removed granular materials which were attached to the filaments in the fresh unextracted axons. The cross-connections were also found in the axons washed with distilled water after fixation. I conclude that the cross- connections are real structures while the granular material is composed of soluble material, probably protein in nature.

scholarly journals Cross-linking modifications of HDL apoproteins by oxidized phospholipids: structural characterization, in vivo detection, and functional implications

2020 ◽  
Vol 295 (7) ◽  
pp. 1973-1984
Author(s):  
Detao Gao ◽  
Mohammad Z. Ashraf ◽  
Lifang Zhang ◽  
Niladri Kar ◽  
Tatiana V. Byzova ◽  
...  
Keyword(s):  
Density Lipoprotein ◽  
Cross Linking ◽  
Oxidized Phospholipids ◽  
Cross Link ◽  
In Vivo Detection ◽  
Lysine Residues ◽  
Cross Links ◽  
Human Atheroma

Apolipoprotein A-I (apoA-I) is cross-linked and dysfunctional in human atheroma. Although multiple mechanisms of apoA-I cross-linking have been demonstrated in vitro, the in vivo mechanisms of cross-linking are not well-established. We have recently demonstrated the highly selective and efficient modification of high-density lipoprotein (HDL) apoproteins by endogenous oxidized phospholipids (oxPLs), including γ-ketoalkenal phospholipids. In the current study, we report that γ-ketoalkenal phospholipids effectively cross-link apoproteins in HDL. We further demonstrate that cross-linking impairs the cholesterol efflux mediated by apoA-I or HDL3 in vitro and in vivo. Using LC-MS/MS analysis, we analyzed the pattern of apoprotein cross-linking in isolated human HDL either by synthetic γ-ketoalkenal phospholipids or by oxPLs generated during HDL oxidation in plasma by the physiologically relevant MPO-H2O2-NO2− system. We found that five histidine residues in helices 5–8 of apoA-I are preferably cross-linked by oxPLs, forming stable pyrrole adducts with lysine residues in the helices 3–4 of another apoA-I or in the central domain of apoA-II. We also identified cross-links of apoA-I and apoA-II with two minor HDL apoproteins, apoA-IV and apoE. We detected a similar pattern of apoprotein cross-linking in oxidized murine HDL. We further detected oxPL cross-link adducts of HDL apoproteins in plasma and aorta of hyperlipidemic LDLR−/− mice, including cross-link adducts of apoA-I His-165–apoA-I Lys-93, apoA-I His-154–apoA-I Lys-105, apoA-I His-154–apoA-IV Lys-149, and apoA-II Lys-30–apoE His-227. These findings suggest an important mechanism that contributes to the loss of HDL's atheroprotective function in vivo.

scholarly journals A new glycation product ‘norpronyl-lysine,’ and direct characterization of cross linking and other glycation adducts: NMR of model compounds and collagen

2014 ◽  
Vol 34 (2) ◽  
Author(s):  
Peter T. B. Bullock ◽  
David G. Reid ◽  
W. Ying Chow ◽  
Wendy P. W. Lau ◽  
Melinda J. Duer
Keyword(s):  
Model Systems ◽  
Cross Linking ◽  
Advanced Glycation ◽  
Model Compounds ◽  
Product Characterization ◽  
Glycation Product ◽  
Cross Links

NMR reveals numerous early and advanced glycation products, including a newly recognized ‘norpronyl-lysine,’ and cross links in solution, intact collagen and model systems. Solid state methods are directly applicable to in vitro and in vivo glycation pathway and product characterization.

Do Proline-rich Proteins Modulate a Transglutaminase Catalyzed Mechanism of Candidal Adhesion?

1993 ◽  
Vol 4 (3) ◽  
pp. 293-299 ◽  
Author(s):  
S.D. Bradway ◽  
M.J. Levine
Keyword(s):  
Molecular Weight ◽  
Cell Wall ◽  
High Molecular Weight ◽  
Surface Proteins ◽  
Cross Linking ◽  
Cell Wall Proteins ◽  
Epithelial Surface ◽  
High Molecular Weight Complex ◽  
Sds Page ◽  
Cross Links

Previously, we reported that a membrane-bound epithelial enzyme, transglutaminase (TGase), catalyzes the covalent cross-linking of acidic proline-rich proteins (APRPs) to surface proteins of buccal epithelial cells (BECs). The purpose of this study was twofold: (1) to provide evidence that TGase stabilizes C. albicans adhesion by covalently cross-linking C. albicans and BEC surface proteins and (2) to implicate PRPs in the modulation of this adhesive mechanism. The reactivity of candidal cell wall proteins with TGase was assessed in two separate experiments. Initially, following incubation with native BECs, the cross-linking of iodinated candidal cell wall proteins into high-molecular-weight complexes, as shown by SDS-PAGE/ autoradiography, was inhibited by the TGase inhibitor iodoacetamide. Additionally, [14C]putrescine in the presence of purified TGase, but not [14C]putrescine alone, was shown by SDS-PAGE/fluorography to be cross-linked into surface proteins of both morphogenetic forms (blastospore > hyphal forms) of C. albicans. In adherence assays, a component of both blastospore and hyphal form Candida/BEC adherence was shown to be resistant to detachment by heating adherent cells in 1% SDS at 100°C. However, pretreatment of BECs with iodoacetamide decreased SDS resistant adherence of both forms of C. albicans by =75%. When incubated with [125I]APRPs and purified TGase, both morphogenetic forms of C. albicans bound dramatically more APRP than controls without TGase. [125I]APRP binding in experimental, but not control, samples was resistant to repeated extraction (48 h) with 4% SDS/10% β-mercaptoethanol at 65°C, suggesting that [125I]APRPs were cross-linked to the Candida surface. SDS-PAGE/fluorography was used to verify that APRPs, in Lyticase digests of Candida cell walls, were cross-linked into a high-molecular-weight complex. These experiments suggest that epithelial TGase may stabilize Candida adherence by cross-linking Candida and BEC surface proteins. Additionally, because TGase cross-links APRPs to candidal and epithelial surface proteins, APRPs may interfere with TGase catalyzed mechanisms of adhesion. Supported by USPHS grants DE00185, DE07585, and OSU Seed grant.

scholarly journals The Cpx Envelope Stress Response Modifies Peptidoglycan Cross-Linking via the l,d-Transpeptidase LdtD and the Novel Protein YgaU

2014 ◽  
Vol 197 (3) ◽  
pp. 603-614 ◽  
Author(s):  
Margarita Bernal-Cabas ◽  
Juan Alfonso Ayala ◽  
Tracy L. Raivio
Keyword(s):  
Cell Wall ◽  
Stress Response ◽  
Protein Misfolding ◽  
Diaminopimelic Acid ◽  
Cross Linking ◽  
Content Type ◽  
Lytic Transglycosylase ◽  
Expression Of Genes ◽  
Envelope Stress ◽  
Cross Links

The Cpx envelope stress response mediates a complex adaptation to conditions that cause protein misfolding in the periplasm. A recent microarray study demonstrated that Cpx response activation led to changes in the expression of genes known, or predicted, to be involved in cell wall remodeling. We sought to characterize the changes that the cell wall undergoes during activation of the Cpx pathway inEscherichia coli. Luminescent reporters of gene expression confirmed that LdtD, a putativel,d-transpeptidase; YgaU, a protein of unknown function; and Slt, a lytic transglycosylase, are upregulated in response to Cpx-inducing conditions. Phosphorylated CpxR binds to the upstream regions of these genes, which contain putative CpxR binding sites, suggesting that regulation is direct. We show that the activation of the Cpx response causes an increase in the abundance of diaminopimelic acid (DAP)-DAP cross-links that involves LdtD and YgaU. Altogether, our data indicate that changes in peptidoglycan structure are part of the Cpx-mediated adaptation to envelope stress and indicate a role for the uncharacterized geneygaUin regulating cross-linking.

scholarly journals Cross-linking of membrane immunoglobulin D, in the absence of T cell help, kills mature B cells in vivo.

1995 ◽  
Vol 181 (2) ◽  
pp. 515-525 ◽  
Author(s):  
F D Finkelman ◽  
J M Holmes ◽  
O I Dukhanina ◽  
S C Morris
Keyword(s):  
Cell Death ◽  
T Cell ◽  
B Cells ◽  
B Cell ◽  
Cell Number ◽  
Cross Linking ◽  
Membrane Immunoglobulin ◽  
Cross Links ◽  
T Cell Help

In vivo experiments were performed to determine whether the cross-linking of membrane immunoglobulin (mIg) D on mature B cells, in the absence of T cell help, leads to B cell death. Mice were injected with either a monoclonal antibody (mAb) that cross-links mIgD effectively or a mAb that binds to mIgD avidly but cross-links it to a limited extent, and effects on B cell number and B cell Ia, mIgM, and mIgD expression were observed. In most experiments, mice were pretreated with anti-interleukin 7 mAb to prevent the generation of new bone marrow B cells, and with anti-CD4 mAb to prevent the generation of T cell help. In some experiments, mice also received anti-Fc gamma RII mAb to prevent cross-linking of mIgD with Fc gamma RII, and cobra venom factor to prevent possible mIg-complement receptor interactions and complement-mediated killing of B cells. The results of these studies demonstrate that (a) even limited cross-linking of mIgD on mature B cells can lead to B cell death; (b) increased cross-linking of mIgD leads to increased B cell death; (c) the loss of B cells is first detected 2 d after anti-IgD mAb injection and increases during the subsequent 3 d; (d) sustained modulation of mIgD may be necessary to cause B cell death; (e) mIgMdull but not mIgMbright B cells are lost in mice injected with anti-IgD mAbs; and (f) T cell help prevents or minimizes B cell death.

scholarly journals Phenolic cross-links: building and de-constructing the plant cell wall

2020 ◽  
Vol 37 (7) ◽  
pp. 919-961 ◽  
Author(s):  
Ewelina Mnich ◽  
Nanna Bjarnholt ◽  
Aymerick Eudes ◽  
Jesper Harholt ◽  
Claire Holland ◽  
...  
Keyword(s):  
Cell Wall ◽  
Plant Cell ◽  
Oxidative Coupling ◽  
Plant Cell Wall ◽  
Cross Linking ◽  
Cell Wall Polysaccharides ◽  
Cross Links

Phenolic cross-links and inter-unit linkages result from the oxidative coupling of hydroxycinnamates leading to lignin assembly and cross-linking with cell wall polysaccharides and extensin proteins.

scholarly journals Function of the N-Terminal Cap of the PAS Domain in Signaling by the Aerotaxis Receptor Aer

2006 ◽  
Vol 188 (6) ◽  
pp. 2154-2162 ◽  
Author(s):  
Kylie J. Watts ◽  
Kirsten Sommer ◽  
Sheena L. Fry ◽  
Mark S. Johnson ◽  
Barry L. Taylor
Keyword(s):  
Terminal Segment ◽  
Cross Linking ◽  
Pas Domain ◽  
Mutant Proteins ◽  
Dimer Interface ◽  
E Coli ◽  
Cross Links ◽  
Input Domain

ABSTRACT Aer, the Escherichia coli receptor for behavioral responses to oxygen (aerotaxis), energy, and redox potential, contains a PAS sensory-input domain. Within the PAS superfamily, the N-terminal segment (N-cap) is poorly conserved and its role is not well understood. We investigated the role of the N-cap (residues 1 to 19) in the Aer PAS domain by missense and truncation mutagenesis. Aer-PAS N-cap truncations and an Aer-M21P substitution resulted in low cellular levels of the mutant proteins, suggesting that the N-terminal region was important for stabilizing the structure of the PAS domain. The junction of the N-cap and PAS core was critical for signaling in Aer. Mutations and truncations in the sequence encoding residues 15 to 21 introduced a range of phenotypes, including defects in FAD binding, constant tumbling motility, and an inverse response in which E. coli cells migrated away from oxygen concentrations to which they are normally attracted. The proximity of two N-cap regions in an Aer dimer was assessed in vivo by oxidatively cross-linking serial cysteine substitutions. Cross-linking of several cysteine replacements at 23°C was attenuated at 10°C, indicating contact was not at a stable dimer interface but required lateral mobility. We observed large multimers of Aer when we combined cross-linking of N-cap residues with a cysteine replacement that cross-links exclusively at the Aer dimer interface. This suggests that the PAS N-cap faces outwards in a dimer and that PAS-PAS contacts can occur between adjacent dimers.

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