Protein Containing the GGDEF Domain Affects Motility and Biofilm Formation in Vibrio cholerae and is Negatively Regulated by Fur and HapR

Objective This study aimed to investigate whether the VCA0560 gene acts as an active diguanylate cyclase(DGC)in Vibrio cholerae and how its transcription is regulated by Fur and Hap R.Methods The roles of VCA0560 was investigated by utilizing various phenotypic assays,including colony morphological characterization,crystal violet staining,Cyclic di-GMP(c-di-GMP)quantification,and swimming motility assay.The regulation of the VCA0560 gene by Fur and Hap R was analyzed by luminescence assay,electrophoretic mobility shift assay,and DNase I footprinting.Results VCA0560 gene mutation did not affect biofilm formation,motility,and c-di-GMP synthesis in V.cholerae,and its overexpression remarkably enhanced biofilm formation and intracellular c-di-GMP level but reduced motility capacity.The transcription of the VCA0560 gene was directly repressed by Fur and the master quorum sensing regulator Hap R.Conclusion Overexpressed VCA0560 functions as an active DGC in V.cholerae,and its transcription is repressed by Fur and Hap R.

Plasticity of Regulation of Mannitol Phosphotransferase System Operon by CRP-cAMP Complex in Vibrio cholerae

Objective The complex of the cyclic AMP receptor protein （CRP） and cAMP is an important transcriptional regulator of numerous genes in prokaryotes. The transport of mannitol through the phosphotransferase systems （PTS） is regulated by the CRP-cAMP complex. The aim of the study is to investigate how the CRP-cAMP complex acting on the mannitol PTS operon mtl of the Vibrio cholerae El Tot biotype. Methods The crp mutant strain was generated by homologous recombination to assess the need of CRP to activate the mannitol PTS operon of V. choleroe El Tor. Electrophoretic mobility shift assays （EMSA） and the reporter plasmid pBBRlux were used to confirm the role that the CRP-cAMP complex playing on the mannitol PTS operon intl. Results In this study, we confirmed that CRP is strictly needed for the activation of the mtl operon. We further experimentally identified five CRP binding sites within the promoter region upstream of the mannitol PTS operon mtl of the Vibrio cholerae El Tor biotype and found that these sites display different affinities for CRP and provide different contributions to the activation of the operon. Conclusion The five binding sites collectively confer the strong activation of mannitol transfer by CRP in V. choleroe, indicating an elaborate and subtle CRP activation mechanism.

Specific Detection of Toxigenic Vibrio cholerae Based on in situ PCR in Combination With Flow Cytometry

Objective To develop an in situ PCR in combination with flow cytometry （ISPCR-FCM） for monitoring cholera toxin positive Vibrio cholerae. Methods In running this method, 4% paraformaldehyde was used to fix the Vibrio cholerae cells and 1 mg/mL lysozyme for 20 min to permeabilize the cells. Before the PCR thermal cycling, 2.5% glycerol was added into the PCR reaction mixture in order to protect the integrality of the cells. Results A length of 1037bp DNA sequence was amplified, which is specific for the cholera toxin gene （ctxAB gene）. Cells subjected to ISPCR showed the presences of ctxAB gene both in epifluorescence microscopy and in flow cytometric analysis. The specificity and sensitivity of the method were investigated. The sensitivity was relatively low （10^5 cells/mL）, while the specificity was high. Conclusion We have successfully developed a new technique for detection of toxigenic Vibrio cholerae strains. Further study is needed to enhance its sensitivities. ISPCR-FCM shows a great promise in monitoring specific bacteria and their physiological states in environmental samples.

Structural Variation of the Superintegron in the Toxigenic Vibrio cholerae O1 El Tor

Objective To understand the genetic structures and variations of the superintegron （Sl） in Vibrio cholerae isolated in the seventh cholera pandemic. Methods Polymerase chain reaction scanning and fragment sequencing were used. Sixty toxigenic V. cholerae O1 El Tor strains isolated between 1961 and 2008 were analyzed. Results Some variations were found, including insertions, replacements, and deletions. Most of the deletions were probably the result of recombination between V. cholerae repeat sequences. The majority of the variations clustered together. The Sis of the strains isolated in the 1960s and 1970s showed more diversity, whereas SI cassette variations in strains isolated in the 1990s and after were lower, with -24 kb signature sequence deletion. This indicates the predominant Sl in the host during the epidemic in the 1990s and after. The insertion cassettes suggested the mobilization from the Sls of other V. cholerae serogroups and Vibrio mimicus. Conclusion The study revealed that structural variations of Sis were obvious in the strains isolated in epidemics in different decades, whereas the divergence was based on syntenic structure of Sis in these El Tot strains. Also, the continuing cassette flows in the Sis of the host strains during the seventh cholera pandemics were displayed.

Acquisition and dissemination mechanisms of CTXΦ in Vibrio cholerae : New paradigm for dif residents

Vibrio cholerae(V. cholerae) genome is equipped with a number of integrative mobile genetic element(IMGE) like prophages, plasmids, transposons or genomic islands, which provides fitness factors that help the pathogen to survive in changing environmental conditions. Metagenomic analyses of clinical and environmental V. cholerae isolates revealed that dimer resolution sites(dif) harbor several structurally and functionally distinct IMGEs. All IMGEs present in the dif region exploit chromosomally encoded tyrosine recombinases, Xer C and Xer D, for integration. Integration takes place due to site-specific recombination between two specific DNA sequences; chromosomal sequence is called att B and IMGEs sequence is called att P. Different IMGEs present in the att P region have different attP structure but all of them are recognized by Xer C and Xer D enzymes and mediate either reversible or irreversible integration. Cholera toxin phage(CTXΦ), a lysogenic filamentous phage carrying the cholera toxin genes ctx AB, deserves special attention because it provides V. cholerae the crucial toxin and is always present in the dif region of all epidemic cholera isolates. Therefore, understanding the mechanisms of integration and dissemination of CTXΦ, genetic and ecological factors which support CTXΦ integration as well as production of virion from chromosomally integrated phage genome and interactions of CTXΦ with other genetic elements present in the genomes of V. cholerae is important for learning more about the biology of cholera pathogen.

Comparative proteomic analysis of Vibrio cholerae O139, O22, O155 and El Tor biotype epidemic strains

The purposes of this study are to compare the proteome of Vibrio cholerae O139 strains with that of O22, O155 and El Tot biotype epidemic strains, and to identifv whether O139 strains have a close relation with the latter. Proteins of two V. cholerae serogroup O139 strains, two El Tor biotype epidemic strains, one O22 strain, and one O155 strain were separated by two-dimensional gel electrophoresis （2-DE） ; the silver stained 2-DE gels were scanned with （ligital lmageScanner and analyzed with lmageMaster 2D Elite 3.10 software. Similarities of protein maps between these strains were analyzed. The two O139 strains had 86% proteins in common; the two El Tor biotype epidemie strains showed 84% proteins in common; O139 strains shared 67 % , 47 % and 45 % proteins with El Tor biotype epidemic strains, O22 and O 155 strains respectively. Although the proteome of O 139 strains have close similarity to that of El Tor biotype epidemic strains, great disparities exist. O139 strains may not originate from El Tor biotype directly, and a transition strain may exist.

Toxin(s), Other Than Cholera Toxin, Produced by Environmental Non O1 Non O139 Vibrio cholerae

A total of 39 Vibrio cholerae non O1 non O139 strains were isolated from surface waters of different parts of Dhaka City, Bangladesh. All these strains showed lack of ctx or zot gene, as demonstrated by the PCR analysis. Eighteen representative strains were tested for enterotoxin production using a rabbit ileal loop model, of which live cells of 8 strains and culture filtrates of 6 strains produced fluid accumulation in ileal loops. However, none of them produced heat stable toxin （ST）, as detected by suckling mouse assay. On the other hand, 15% of isolates produced cytotoxin as detected by the Chinese Hamster Ovary （CHO） cell assay. Fifty times concentrated culture filtrates of the representative strains did not give any precipitin band against the anti-cholera toxin, suggesting the strains produced an enterotoxin, which is antigenically different from known cholera toxin （CT）. Eighty percent of the total isolates were found to be positive for heat labile haemolysin detected by tube method, whereas, 39% were found positive by the Christie-Atkins-Munch-Petersen （CAMP） method. However, 87% of the isolates were positive for haemagglutinin/protease and all of the strains were positive for mannose-sensitive-haemagglutinin assay.

Oligomerization of Vibrio cholerae Hemolysin Induces CXCR3 Upregulation and Activation of B-1a Cell

The hemolysin oligomer promotes the proliferation of B-1a cells and the expression of CD25, which is indicative of cell activation, on B-1a cells. The upregulation of CD86 induced by the oligomer showed its selective bias for the B7-2 member of B7 family while the monomer failed to induce these effects. The oligomer induced the expression of CXCR3, associated with B cell activation, while the monomer induced the expression of CXCL4, a powerful angiostatic chemokine. In conclusion, we found that B-1a cells responded to the apoptogenic monomer by expressing CXCL4, whereas oligomerization of the immunogen induced CXCR3 to shift the response towards activation.

A new look at the mechanism of cholera endemicity caused by Vibrio cholerae biotype eltor

Objective Cholera caused by Vibrio cholerae biotype eltor (EVC) is an endemic disease, subsiding in winter and reappearing in spring and summer Investigating the state of EVC during the intermittent time is of crucial importance in controlling this disease Methods Different factors mimicking the internal and external environmental conditions of the host, including human and fish bile, bacterial phages and antibiotics were used experimentally to induce variation in EVC EVC variants were isolated from the stool of diarrhea patients and river water in old endemic areas during the winter The variants obtained were tested with gene probe hybridization, DNA restriction enzyme mapping, immunoenzyme staining and animal passaging Results Due to the loss of cell walls, 3 kinds of EVC variants were obtained during induction: the L form variant, with a complete loss of cell walls; the nonagglutinating variants, with the loss of surface O antigen; the phage resistant variants, with the loss of phage receptors Similar variants were found in field isolation This variation was proved to be phenotypic, with no change in genetic material: it was reversible and appeared in a seasonal pattern, which coincided with the endemicity of this disease Passage in animal enhanced this reversion In compensation for the loss of cell walls, cell membranes were greatly thickened, increasing the ability of the variants to survive during the unfavorable winter conditions Conclusions EVC varied in a seasonal pattern, coincident with the endemicity of this disease The compensatory thickening of the cell membranes protects the EVC variants to survive the winter

On or Off:Life-Changing Decisions Made by Vibrio cholerae Under Stress

Vibrio cholerae,the causative agent of the infectious disease,cholera,is commonly found in brackish waters and infects human hosts via the fecal-oral route.V.cholerae is a master of stress resistance as V.cholerae’s dynamic lifestyle across different physical environments constantly exposes it to diverse stressful circumstances.Specifically,V.cholerae has dedicated genetic regulatory networks to sense different environmental cues and respond to these signals.With frequent outbreaks costing a tremendous amount of lives and increased global water temperatures providing more suitable aquatic habitats for V.cholerae,cholera pandemics remain a probable catastrophic threat to humanity.Understanding how V.cholerae copes with different environmental stresses broadens our repertoire of measures against infectious diseases and expands our general knowledge of prokaryotic stress responses.In this review,we summarize the regulatory mechanisms of how V.cholerae fights against stresses in vivo and in vitro.

一株克氏原螯虾病原——霍乱弧菌的分离鉴定

从尾扇边缘溃烂的克氏原螯虾中分离到一株优势菌LK-18,并对该菌株进行种属鉴定和致病性分析。通过菌落形态观察、16S rRNA测序、血清型分析及基因特性鉴定对细菌的类别进行初步判断,并采用浸泡感染、肌肉注射和腹腔注射等方式进行人工感染实验对细菌的致病性进行评估。经16S rRNA测序分析和4个管家基因(atp A、pyr H、rec A、gyr B)串联分析,该菌株最终被鉴定并命名为VibriocholeraeLK-18。V. choleraeLK-18经PCR鉴定不属于O1和O139血清型,但含hly毒力基因和几丁质分解相关的几丁质酶(chitinase,Chi)基因。人工感染实验虽未能重现烂尾症状,但从克氏原螯虾烂尾组织中分离的V. choleraeLK-18具有致病性,能够引起克氏原螯虾的死亡。研究结果表明霍乱弧菌LK-18是一种致病菌,不仅扩大了非O1/O139群霍乱弧菌的感染宿主范围,同时预警霍乱弧菌有导致克氏原螯虾养殖业暴发疾病的可能,因此要提前做好该疾病的预防工作,从而避免霍乱弧菌感染带来的损失。

RING-OPENING COPOLYMERIZATION OF DL-LACTIDE AND POLY(ETHYLENE GLYCOL) INITIATED BY LANTHANUM ACETATE AND APPLICATION OF THE COPOLYMER AS MATRIX OF MICROSPHERES CONTAINING VIBRIO CHOLERA ANTIGENS

Poly-dl-lactide-poly(ethylene glycol) (PELA) triblock copolymers were synthesized with lanthanum acetate as the initiator. PELA microspheres with entrapped Vibrio Cholera antigen and outer membrane protein (OMP) were prepared by a double emulsion W/O/W based on solvent extraction methods. The obtained microspheres showed smooth and spherical surface and their size varied between 0.5 and 5.0 mu m, which are suitable for oral targeting delivery system. The distribution tests in rabbits and mice through scanning electronic micrography and fluorescence microscope indicated that microspheres have successfully reached the immunization-related tissues, such as the liver, spleen and intestinal peyer's patches, following oral administration. The PELA microspheres were also evaluated as an efficient antigen delivery system by enhancing a higher protective ratio against live Vibrios Cholera.

Isolation and Identification of Ectromelia Virus from Suspected Mice

Choleragenoid was obtained in pure form by ultra-filteration and fractionation on cationexchange resin-phospho-cellulose column. The choleragenoid was highly pure as judged by the electrophoresis of isoelectric focusing,immunization and SDS-gel electrophoresis.The results of test are thesame as that of the standard choleragenoid.

A mathematical model of cholera in a periodic environment with control actions

In this paper,we studied the impact of sensitization and sanitation as possible control actions to curtail the spread of cholera epidemic within a human community.Firstly,we combined a model of Vibrio Cholerae with a gencric SIRS cholera model.Classical control strategies in terms of the sensitization of population and sanitation are integrated through the impulsive differential equations.Then we presented the theoretical analysis of the model.More precisely,we computed the disease free equilibrium.We derive the basic reproduction number R0 which determines the extinction and the persistence of the infection.We show that the trivial disease-free equilibrium is globally asymptotically stable whenever.R0≤1,while when R0>1,the trivial disease-free equilibrium is unstable and there exists a unique endemic equilibrium point which is globally asymptotically stable.Theoretical results are supported by numerical simulations,which further suggest that the control of cholera should consider both sensitization and san itation,with a strong focus on the latter.

Prediction and control of cholera outbreak:Study case of

This paper deals with the problem of the prediction and control of cholera outbreak using real data of Cameroon.We first develop and analyze a deterministic model with seasonality for the cholera,the novelty of which lies in the incorporation of undetected cases.We present the basic properties of the model and compute two explicit threshold parametersR_(0)and R_(0).that bound the effective reproduction number,from below and above,that is R_(0)≤R_(0)≤R_(0).We prove that cholera tends to disappear whenR_(0)≤1,while when R_(0)>1,cholera persists uniformly within the population.After,assuming that the cholera transmission rates and the proportions of newly symptomatic are unknown,we develop the EnKf approach to estimate unmeasurable state variables and these unknown parameters using real data of cholera from 2014 to 2022 in Cameroon.We use this result to estimate the upper and lower bound of the effective reproduction number and reconstructed active asymptomatic and symptomatic cholera cases in Cameroon,and give a short-term forecasts of cholera in Cameroon until 2024.Numerical simulations show that(i)the transmission rate from free Vibrio cholerae in the environment is more important than the human transmission and begin to be high few week after May and in October,(ii)90%of newly cholera infected cases that present the symptoms of cholera are not diagnosed and(iii)60.36%of asymptomatic are detected at 14%and 86%of them recover naturally.The future trends reveals that an outbreak appeared from July to November 2023 with the number of cases reported monthly peaked in October 2023.An impulsive control strategy is incorporated in the model with the aim to avoid or prevent the cholera outbreak.In the first year of monitoring,we observed a reduction of more than 75%of incidences and the disappearance of the peaks when no control are available in Cameroon.A second monitoring of control led to a further reduction of around 60%of incidences the following year,showing how impulse control could be an effective means of eradicating cholera.