Characterization of the cspB gene encoding PS2, an ordered surface-layer protein in Corynebacterium glutamicum

PS2 is one of two major proteins detected in the culture media of various Corynebacterium glutamicum strains. The coding and promoter regions of the cspB gene encoding PS2 were cloned in lambda gt11 using polyclonal antibodies raised against PS2 for screening. Expression of the cspB gene in Escherichia coli led to the production of a major anti-PS2 labelled peptide of 63 000 Da, corresponding presumably to the mature form of PS2. It was detected in the cytoplasm, periplasm and surrounding medium of E. coli. Three other slower migrating bands of 65000, 68 000 and 72 000 Da were detected. The largest one probably corresponds to the precursor form of PS2 in E. coli. Analysis of the nucleotide sequence revealed an open reading frame (ORF) of 1533 nucleotides. The deduced 510-amino-acid polypeptide had a calculated molecular mass of 55 426 Da. According to the predicted amino acid sequence, PS2 is synthesized with a W-terminal segment of 30-amino-acid residues reminiscent of eukaryotic and prokaryotic signal pep-tides, and a hydrophobic domain of 21 residues near the C-terminus. Although no significant homologies were found with other proteins, it appears that some characteristics and the amino acid composition of PS2 share several common features with surface-layer proteins. The cspB gene was then disrupted in C. glutamicum by gene replacement. Freeze-etching electron microscopy performed on the wild-type strain indicated that the cell wall of C. glutamicum is covered with an ordered surface of proteins (surface layer, S-layer) which is in very close contact with other cell-wall components. These structures are absent from the cspB-disrupted strain but are present after reintroduction of the cspB gene on a plasmid into this mutant. Thus we demonstrate that the Slayer protein is the product of the cspB gene.     

The estimation of nitrate and nitrite in saliva and urine

A method for the estimation of nitrate and nitrite is described in which nitrate is converted to nitrite by Klebsiella pneumoniae (UNF 9232) and nitrite is estimated by the Griess reaction before and after incubation. The method is suitable for the estimation of 1–25 nmol of each ion in body fluids, many samples can be handled simultaneously, and special apparatus is not required.     

Knowledge and Adherence to Medications among Palestinian Geriatrics Living with Chronic Diseases in the West Bank and East Jerusalem

Background

Adequate patient knowledge about medications is essential for appropriate drug taking behavior and patient adherence. This study aims to assess and quantify the level of knowledge and adherence to medications among Palestinian geriatrics living with chronic diseases and to investigate possible associated socio-demographic characteristics.

Methods and Findings

We conducted a cross-sectional study during June 2013 and January 2014 among Palestinian geriatrics ≥60 years old living with chronic disease in the West Bank and East Jerusalem. A stratified random sample was selected and a questionnaire-assisted interview was applied for data collection. T-test was applied for bivariate analyzing and one-way ANOVA test was applied for multivariate analyses.

Results

A total of 1192 Palestinian geriatrics were studied. The average age was 70.3 (SD=8.58) years and ranged from 60-110 years. The sample comprised 659 (55.3%) females and 533 (44.7%) males. The global knowledge and global adherence scores were (67.57%) and (89.29%), respectively. Adequate levels of knowledge were 71.4%, and of adherence 75%, which were recorded for 705 (59.1%) and 1088 (91.3%) participants, respectively. Significant higher levels of global knowledge and global adherence were recorded for males, and for participants who hold a Bachelor’s degree, those who live on their own, and did physical activity for more than 40 hours/week (p-value <0.05). Furthermore, workers, participants with a higher monthly income, and non-smokers have a higher knowledge level with (p-value <0.05). We found positive correlation between participants’ global adherence and global knowledge (r=0.487 and p-value <0.001). Negative correlation was found between participants’ global knowledge and adherence with age (r= -0.236, p-value <0.001 and r= -0.211 and p-value <0.001, respectively. Negative correlation between global knowledge and the number of drugs taken (r= -0.130, p-value <0.001) was predicted.

Conclusion

We concluded that patients with a higher level of knowledge are more adherent to their medications and that better understanding of socio-demographic factors has a clear influence on the level of knowledge and adherence to medications and thus contributes to the development of guidelines for treatment and may consequently lead to favourable clinical outcomes and savings of health care costs.     

Comparative Evaluation of MRSA Nasal Colonization Epidemiology in the Urban and Rural Secondary School Community of Kurdistan,Iraq

BackgroundTo study the nasal carriage rate of Staphylococcus aureus (S. aureus) (including methicillin-resistant strains) in secondary school community of the urban and rural districts of the Kurdistan region of Iraq, a cross-sectional population based survey was carried out in the city Duhok and rural areas of Amedya, Akre and Zakho.MethodsNasal swabs were obtained from nostrils of 509 students aged 14-23 years. Resistance to methicillin was assessed by Kirby-Bauer disk diffusion and agar dilution assay. Vancomycin sensitivity was also tested on Muller-Hinton agar.ResultsIt was found that the frequency of overall S. aureus nasal carriage (SANC) was 17.75% (90/509, CI₉₅, 14.58–21.42%). In urban areas, the carriage rate was 20.59% (49/239, CI₉₅, 15.64–26.29%), whereas it was 15.24% (41/270, CI₉₅, 11.17–20.10%) in rural districts. The frequency of methicillin-resistant S. aureus (MRSA) among the isolated strains was found to be 2.04% (1/49) and 21.95% (9/41) in urban and rural areas respectively. It was found that in urban residents, the odd ratio (OR) of acquiring SANC was 1.44 (CI₉₅, 0.91-2.27%) and risk ratio (RR) was at least 1.35 (CI₉₅, 0.92-1.96%) while OR decreased to 0.12 (CI₉₅, 0.01-0.96%) for MRSA carriage. Hence, the S. aureus carriage rate was higher in urban districts compared to rural areas while more MRSA were found in rural areas compared to urban districts. All studied strains were sensitive to vancomycin.ConclusionThis study provided baseline information for S. aureus nasal colonization in the region. Also, it showed that living in rural areas increased the odds of MRSA colonization. More attention should be paid to control MRSA colonization in rural communities.     

Biochemical disclosure of the mycolate outer membrane of Corynebacterium glutamicum

Corynebacterineae is a specific suborder of Gram-positive bacteria that includes Mycobacterium tuberculosis and Corynebacterium glutamicum. The cell wall of these bacteria is composed of a heteropolymer of peptidoglycan (PG) linked to arabinogalactan (AG), which in turn is covalently associated with an atypical outer membrane, here called mycomembrane (M). The latter structure has been visualized by cryo-electron microscopy of vitreous sections, but its biochemical composition is still poorly defined, thereby hampering the elucidation of its physiological function. In this report, we show for the first time that the mycomembrane-linked heteropolymer of PG and AG (M-AG-PG) of C. glutamicum can be physically separated from the inner membrane on a flotation density gradient. Analysis of purified M-AG-PG showed that the lipids that composed the mycomembrane consisted almost exclusively of mycolic acid derivatives, with only a tiny amount, if any, of phospholipids and lipomannans, which were found with the characteristic lipoarabinomannans in the plasma membrane. Proteins associated with or inserted in the mycomembrane were extracted from M-AG-PG with lauryl-dimethylamine-oxide (LDAO), loaded on an SDS-PAGE gel, and analyzed by tandem mass spectrometry or by Western blotting. Sixty-eight different proteins were identified, 19 of which were also found in mycomembrane fragments released by the terminal-arabinosyl-transferase-defective ΔAftB strain. Almost all of them are predicted to contain a signal sequence and to adopt the characteristic β-barrel structure of Gram-negative outer membrane proteins. These presumed mycomembrane proteins include the already-known pore-forming proteins (PorA and PorB), 5 mycoloyltransferases (cMytA, cMytB, cMytC, cMytD, and cMytF), several lipoproteins, and unknown proteins typified by a putative C-terminal hydrophobic anchor.     

Imbalance in seminal fluid MIF indicates male infertility

Macrophage migration inhibitory factor (MIF) is a ubiquitous cytokine that functions in reproduction and plays an important role in sperm maturation and motility. Here we reveal a correlation between MIF levels in human seminal fluid and fertility status. We identify an abnormal biphasic profile of MIF in the seminal fluid of patients with impaired sperm parameters. Our findings may be of interest for the development of a diagnostic method for fertility status.     

Preparative enzymatic synthesis of polyprenyl-pyrophosphoryl-N-acetylglucosamine, an essential lipid intermediate for the biosynthesis of various bacterial cell envelope polymers

The WecA transferase is an integral membrane protein and a member of the polyprenyl phosphate N-acetylhexosamine-1-phosphate transferase superfamily. It initiates the biosynthesis of various bacterial cell envelope components such as the lipopolysaccharide O-antigen. We report on the first large-scale enzymatic synthesis, purification, and characterization of the undecaprenyl-pyrophosphoryl-N-acetylglucosamine product of the WecA transferase. This is an essential lipid intermediate for the biosynthesis of various bacterial cell envelope components. Its availability in a pure form will allow the biochemical and structural characterization of the various enzymes requiring it as a substrate for the synthesis of cell wall polymers.     

A Deficiency in Arabinogalactan Biosynthesis Affects Corynebacterium glutamicum Mycolate Outer Membrane Stability

Corynebacterineae is a specific suborder of Gram-positive bacteria that includes Mycobacterium tuberculosis and Corynebacterium glutamicum. The ultrastructure of the cell envelope is very atypical. It is composed of a heteropolymer of peptidoglycan and arabinogalactan (AG) covalently associated to an outer membrane. Five arabinosyltransferases are involved in the biosynthesis of AG in C. glutamicum. AftB catalyzes the transfer of Araf (arabinofuranosyl) onto the arabinan domain of the arabinogalactan to form terminal β(1 → 2)-linked Araf residues. Here we show that ΔaftB cells lack half of the arabinogalactan mycoloylation sites but are still able to assemble an outer membrane. In addition, we show that a ΔaftB mutant grown on a rich medium has a perturbed cell envelope and sheds a significant amount of membrane fragments in the external culture medium. These fragments contain mono- and dimycolate of trehalose and PorA/H, the major porin of C. glutamicum, but lack conventional phospholipids that typify the plasma membrane, suggesting that they are derived from the atypical mycolate outer membrane of the cell envelope. This is the first report of outer membrane destabilization in the Corynebacterineae, and it suggests that a strong interaction between the mycolate outer membrane and the underlying polymer is essential for cell envelope integrity. The presence of outer membrane-derived fragments (OMFs) in the external medium of the ΔaftB mutant is also a very promising tool for outer membrane characterization. Indeed, fingerprint analysis of major OMF-associated proteins has already led to the identification of 3 associated mycoloyltransferases and an unknown protein with a C-terminal hydrophobic anchoring domain reminiscent of that found for the S-layer protein PS2 of C. glutamicum.Corynebacterineae is a specific suborder of Gram-positive bacteria that includes medically and economically important species, such as Mycobacterium tuberculosis, Mycobacterium leprae, and Corynebacterium glutamicum. The ultrastructure of cell envelopes in the Corynebacterineae has been intensively studied during recent decades and has revealed a completely unexpected scheme. Indeed, they are composed of a heteropolymer of peptidoglycan and arabinogalactan (AG) covalently associated to an outer membrane. This outer membrane is made up of mycolic acids that either esterify trehalose (free mycolates) or are terminal Araf residues of AG skeleton (bound mycolates) (38-40). The disclosure of this very atypical structure initially came from functional studies in which pore-forming proteins were identified in almost all members of the Corynebacterineae (41, 62), pointing out the presence of an unexpected additional hydrophobic barrier in the cell envelope of these Gram-positive bacteria. Its presence was recently clearly visualized by cryo-electron microscopy of vitreous sections (CEMOVIS) (29, 67), but the exact physiological properties of this barrier are poorly documented because only a few integral outer membrane proteins (OMPs) are yet characterized. In mycobacteria, two examples of integral OMPs are well documented: OmpA of M. tuberculosis and MspA of Mycobacterium smegmatis. MspA is a major porin involved in mycolate outer membrane permeability (58, 64) and has a very specific structure based on a β-barrel core reminiscent of that found in Gram-negative porins (25). In C. glutamicum, four different porins of very low molecular mass (PorA [36, 42], PorH [30], and PorB and PorC [18]) have been identified. Very recently it was shown that a heterooligomeric structure composed of PorA and PorH is needed to form the major cell wall channel of C. glutamicum (6). Although these proteins have been extensively characterized in vitro, their physiological importance remains elusive. Surprisingly, preliminary structural studies of PorB suggested that it could be organized in an α-helical structure, in contrast to all the “canonical” porins, and thus could represent a new class of outer membrane proteins (66).Because Gram-negative outer membrane proteins and MspA from M. smegmatis are organized in β-barrel structures, two studies aimed to identify M. tuberculosis OMPs by a bioinformatic approach using β-barrel prediction algorithms (43, 57). Although very attractive, this approach has several limitations. Indeed, these algorithms generally produce a high number of false-positive proteins and are not able to predict amphipathic α-helical structures such as those expected for PorB. Nevertheless, this approach led to the identification of a new channel-forming outer membrane protein of M. tuberculosis, Rv1698, which is conserved among all members of the Corynebacterineae (55). This protein increases the susceptibility of bacteria to hydrophilic antibiotics and increases the rate of glucose uptake. Its structure has not yet been characterized.Isolation of the outer membrane of mycobacteria or corynebacteria using standard biochemical methods is difficult due to the covalent links between mycolic acids and the underlying heteropolymer hampering the identification of new OMPs. In order to overcome this problem, an alternative approach could come from outer membrane-derived vesicles (OMVs), whose release in the medium is a conserved mechanism among Gram-negative bacteria and has been observed in many environments (34). Increased OMV release has been reported for mutants lacking either components of the Tol-Pal system (8, 63) or Lpp, the major lipoprotein involved in noncovalent interactions between the outer membrane and the peptidoglycan (8, 14, 15, 22, 31). This suggested that OMV production in Gram-negative bacteria is controlled through specific domains that promote outer membrane protein-peptidoglycan and outer membrane protein-inner membrane interactions (22). OMVs from Gram-negative bacteria are composed of lipopolysaccharide (LPS), phospholipids, and outer membrane proteins but lack inner membrane proteins. In some cases, elementary units of peptidoglycan and periplasmic proteins are also recovered in these vesicles (35, 37).C. glutamicum is the prototype of amino acid producers and has been widely used in biotechnology for several decades. More recently it was also shown to be a very attractive model for depicting cell wall biosynthesis of the Corynebacterineae (45). Indeed, an extensive library of mutants involved in the different steps of mycolic acid and arabinogalactan synthesis is available for C. glutamicum but not for mycobacteria, where these components are strictly essential for viability. In this work, we wanted to screen different C. glutamicum cell wall mutants for their ability to release outer membrane-derived vesicles in the external medium. More particularly, we focused on mutants with altered covalent linkage between the mycolate outer membrane and the arabinogalactan. Accordingly, we constructed an arabinosyltransferase mutant unable to catalyze the transfer of Araf onto the arabinan domain of AG to form terminal β(1 → 2)-linked Araf residues. This abnormal AG structure results in both a decrease in mycoloylation sites on arabinogalactan and a concomitant appearance of outer membrane-derived fragments in the external medium.     

Photoaffinity cross-linking of acyl carrier protein to Escherichia coli membranes.

Acyl Carrier Protein (ACP) is a small acidic protein which interacts with the various enzymes implicated in the biosynthesis of fatty acids in E. coli. It also interacts with the inner membrane proteins implicated in the biosynthesis of phospholipids. Samples of radioactive ACP were prepared with high specific activities and bearing photoactivable aryl azide derivatives. Two photoactivable reagents were used: para azido phenacyl bromide (pAPA) which reacts with the SH of the ACP prosthetic group and the N-hydroxysuccinimide ester of 4-azido salicylic acid (NHS-ASA) which reacts with the amino groups of the protein. Various methods were used to demonstrate that ACP could be cross-linked specifically to an inner membrane protein of E. coli, most probably to the glycerol-3-phosphate acyl transferase (GPAT). This covalent link should provide a powerful tool for further analysis of the structure of GPAT and its role in phospholipid biosynthesis. These photoactivable aryl azide derivatives of ACP could also be very useful for studying the interaction of ACP with the soluble enzymes implicated in fatty acid biosynthesis.