Charged and Hydrophobic Surfaces on the A Chain of Shiga-Like Toxin 1 Recognize the C-Terminal Domain of Ribosomal Stalk Proteins

Shiga-like toxins are ribosome-inactivating proteins (RIP) produced by pathogenic E. coli strains that are responsible for hemorrhagic colitis and hemolytic uremic syndrome. The catalytic A1 chain of Shiga-like toxin 1 (SLT-1), a representative RIP, first docks onto a conserved peptide SD[D/E]DMGFGLFD located at the C-terminus of all three eukaryotic ribosomal stalk proteins and halts protein synthesis through the depurination of an adenine base in the sarcin-ricin loop of 28S rRNA. Here, we report that the A1 chain of SLT-1 rapidly binds to and dissociates from the C-terminal peptide with a monomeric dissociation constant of 13 µM. An alanine scan performed on the conserved peptide revealed that the SLT-1 A1 chain interacts with the anionic tripeptide DDD and the hydrophobic tetrapeptide motif FGLF within its sequence. Based on these 2 peptide motifs, SLT-1 A1 variants were generated that displayed decreased affinities for the stalk protein C-terminus and also correlated with reduced ribosome-inactivating activities in relation to the wild-type A1 chain. The toxin-peptide interaction and subsequent toxicity were shown to be mediated by cationic and hydrophobic docking surfaces on the SLT-1 catalytic domain. These docking surfaces are located on the opposite face of the catalytic cleft and suggest that the docking of the A1 chain to SDDDMGFGLFD may reorient its catalytic domain to face its RNA substrate. More importantly, both the delineated A1 chain ribosomal docking surfaces and the ribosomal peptide itself represent a target and a scaffold, respectively, for the design of generic inhibitors to block the action of RIPs

Should rehabilitated hedgehogs be released in winter? A comparison of survival, nest use and weight change in wild and rescued animals

The rehabilitation of sick or injured wildlife and their subsequent release back into the wild is considered important, not only for the welfare of the individual animal but also for the conservation and management of endangered and threatened wildlife. The European hedgehog Erinaceus europaeus has declined by 25% in Britain over the last decade and is the most common mammal admitted to wildlife rehabilitation centres in Britain, with a large proportion of individuals admitted to gain body weight overwinter prior to release in the spring. Consequently, many thousands of hedgehogs are housed overwinter which incurs significant costs for rehabilitation centres, and has potentially animal welfare issues, such as, stress in captivity, reintroduction stress, increased mortality risk and impaired or altered behaviour. To determine if releasing rehabilitated hedgehogs during autumn and winter had an effect on their survival, body weight or nesting behaviour, we compared these factors between 34 rehabilitated hedgehogs with 23 wild hedgehogs across five sites in England over four different winters. Overwinter survival was high for both wild and rehabilitated hedgehogs, with a significant decrease in survival across both groups when hedgehogs became active post hibernation in spring. We found no differences in the survival rates up to 150 days post release, in weight change, or nest use between wild- and winter-released rehabilitated hedgehogs. Our results suggest that under the correct conditions, rehabilitated hedgehogs can be released successfully during winter, therefore avoiding or reducing time in captivity

The Erwinia chrysanthemi pecT gene regulates pectinase gene expression.

A new type of Erwinia chrysanthemi mutant displaying a derepressed synthesis of pectate lyase was isolated. The gene mutated in these strains, pecT, encodes a 316-amino-acid protein with a size of 34,761 Da that belongs to the LysR family of transcriptional activators and presents 61% identity with the E. coli protein LrhA. PecT represses the expression of pectate lyase genes pelC, pelD, pelE, pelL, and kdgC, activates pelB, and has no effect on the expression of pelA or the pectin methylesterase genes pemA and pemB. PecT activiates its own expression. The mechanism by which PecT regulates pectate lyase synthesis is independent of that of the two characterized regulators of pectate lyase genes, KdgR and PecS. In contrast to most of the members of the LysR family, pecT is not transcribed in a direction opposite that of a gene that it regulates. pecT mutants are mucoid when grown on minimal medium plates and flocculate when grown in liquid minimal medium, unless leucine or alanine is added to the medium. Thus, pecT may regulate other functions in the bacterium

The potential health and revenue effects of a tax on sugar sweetened beverages in Zambia

The global burden of non-communicable diseases (NCDs) has been rising. A key risk factor for NCDs is obesity, which has been partly linked to consumption of sugar sweetened beverages (SSBs). A tax on SSBs is an attractive control measure to curb the rising trend in NCDs, as it has the potential to reduce consumption of SSBs. However, studies on the potential effects of SSB taxes have been concentrated in high-income countries with limited studies in low-income and middle-income countries. Using data from the 2015 Zambia Living Conditions Monitoring Survey (LCMS) data, the 2017 Zambia NCD STEPS Survey, and key parameters from the literature, we simulated the effect of a 25% SSB tax in Zambia on energy intake and the corresponding change in body mass index (BMI), obesity prevalence, deaths averted, life years gained and revenues generated using a mathematical model developed using Microsoft Excel. We conducted Monte Carlo simulations to construct 95% confidence bands and sensitivity analyses to account for uncertainties in key parameters. We found that a 25% SSB would avert 2526 deaths, though these results were not statistically significant overall. However, when broken down by gender, the tax was found to significantly avert 1133 deaths in women (95% CI 353 to 1970). The tax was found to potentially generate an additional US$5.46 million (95% CI 4.66 to 6.14) in revenue annually. We conclude that an SSB tax in Zambia has the potential to significantly decrease the amount of disability-adjusted life years lost to lifestyle-related diseases in women, highlighting important health equity outcomes. Women have higher baseline BMI and therefore are at higher risk for NCDs. In addition, an SSB tax will provide government with additional revenue which if earmarked for health could contribute to healthcare financing in Zambia

Autoantibodies directed against the ribosomal P proteins are not only directed against a common epitope of the P0, P1 and P2 proteins.

International audienceThe autoantibodies (aAbs) directed against the ribosomal P proteins (RPP aAbs) are known to react mainly against epitopes localized within the common C-terminal sequence of the three acidic ribosomal P proteins, P0, P1 and P2. In order to investigate the opportunity to select short recombinant peptides of this common C-terminal sequence to detect the RPP-aAbs, the location of the epitopes recognized by ribosomal proteins (RP) aAb(+)sera of systemic lupus erythematosus patients (SLE) was investigated. Immunoblotting and ELISA techniques using extracted or recombinant, entire or cleaved RPP showed that 55% of the RP aAbs were directed against the three ribosomal P0, P1, and P2 proteins. The epitopes recognized by the RPP aAbs are located not only within the C-terminal sequence common to the three proteins but also within the N-terminal sequence of the P2 or P1 protein. The other RP aAbs sera (45%) did not react with all three proteins but with some of them, and showed the following pattern: P0(+)P1(+); P1(+); P2(+); P0(+)and P1(+). They recognized epitopes located in the region of the C-terminal sequence of the protein but not common to the three proteins. In addition two out of the six monoclonal Abs produced by immunization of mice using the P1 protein did not react with the peptide N-65 or N-71 of the P2 protein or with the C-terminal sequence of the three proteins. In conclusion, this study showed that the RPP aAb in SLE patients are not only directed against epitopes within the C-terminal sequence shared by the three acidic ribosomal P proteins. In view of these data it seems necessary to be cautious in using only a C-terminal peptide of ribosomal P proteins in tests performed to detect RPP aAb in human sera.The autoantibodies (aAbs) directed against the ribosomal P proteins (RPP aAbs) are known to react mainly against epitopes localized within the common C-terminal sequence of the three acidic ribosomal P proteins, P0, P1 and P2. In order to investigate the opportunity to select short recombinant peptides of this common C-terminal sequence to detect the RPP-aAbs, the location of the epitopes recognized by ribosomal proteins (RP) aAb(+)sera of systemic lupus erythematosus patients (SLE) was investigated. Immunoblotting and ELISA techniques using extracted or recombinant, entire or cleaved RPP showed that 55% of the RP aAbs were directed against the three ribosomal P0, P1, and P2 proteins. The epitopes recognized by the RPP aAbs are located not only within the C-terminal sequence common to the three proteins but also within the N-terminal sequence of the P2 or P1 protein. The other RP aAbs sera (45%) did not react with all three proteins but with some of them, and showed the following pattern: P0(+)P1(+); P1(+); P2(+); P0(+)and P1(+). They recognized epitopes located in the region of the C-terminal sequence of the protein but not common to the three proteins. In addition two out of the six monoclonal Abs produced by immunization of mice using the P1 protein did not react with the peptide N-65 or N-71 of the P2 protein or with the C-terminal sequence of the three proteins. In conclusion, this study showed that the RPP aAb in SLE patients are not only directed against epitopes within the C-terminal sequence shared by the three acidic ribosomal P proteins. In view of these data it seems necessary to be cautious in using only a C-terminal peptide of ribosomal P proteins in tests performed to detect RPP aAb in human sera

Integration of two essential virulence modulating signals at the Erwinia chrysanthemi pel gene promoters: a role for Fis in the growth-phase regulation.

International audienceProduction of the essential virulence factors, called pectate lyases (Pels), in the phytopathogenic bacterium Erwinia chrysanthemi is controlled by a complex regulation system and responds to various stimuli, such as the presence of pectin or plant extracts, growth phase, temperature and iron concentration. The presence of pectin and growth phase are the most important signals identified. Eight regulators modulating the expression of the pel genes (encoding Pels) have been characterized. These regulators are organized in a network allowing a sequential functioning of the regulators during infection. Although many studies have been carried out, the mechanisms of control of Pel production by growth phase have not yet been elucidated. Here we report that a fis mutant of E. chrysanthemi showed a strong increase in transcription of the pel genes during exponential growth whereas induction of expression in the parental strain occurred at the end of exponential growth. This reveals that Fis acts to prevent an efficient transcription of pel genes at the beginning of exponential growth and also provides evidence of the involvement of Fis in the growth-phase regulation of the pel genes. By using in vitro DNA-protein interactions and transcription experiments, we find that Fis directly represses the pel gene expression at the transcription initiation step. In addition, we show that Fis acts in concert with KdgR, the main repressor responding to the presence of pectin compounds, to shut down the pel gene transcription. Finally, we find that active Fis is required for the efficient translocation of the Pels in growth medium. Together, these data indicate that Fis tightly controls the availability of Pels during pathogenesis by acting on both their production and their translocation in the external medium

The GacA global regulator is required for the appropriate expression of Erwinia chrysanthemi 3937 pathogenicity genes during plant infection

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