128 research outputs found

    Prediction of DtxR regulon: Identification of binding sites and operons controlled by Diphtheria toxin repressor in Corynebacterium diphtheriae

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    BACKGROUND: The diphtheria toxin repressor, DtxR, of Corynebacterium diphtheriae has been shown to be an iron-activated transcription regulator that controls not only the expression of diphtheria toxin but also of iron uptake genes. This study aims to identify putative binding sites and operons controlled by DtxR to understand the role of DtxR in patho-physiology of Corynebacterium diphtheriae. RESULT: Positional Shannon relative entropy method was used to build the DtxR-binding site recognition profile and the later was used to identify putative regulatory sites of DtxR within C. diphtheriae genome. In addition, DtxR-regulated operons were also identified taking into account the predicted DtxR regulatory sites and genome annotation. Few of the predicted motifs were experimentally validated by electrophoretic mobility shift assay. The analysis identifies motifs upstream to the novel iron-regulated genes that code for Formamidopyrimidine-DNA glycosylase (FpG), an enzyme involved in DNA-repair and starvation inducible DNA-binding protein (Dps) which is involved in iron storage and oxidative stress defense. In addition, we have found the DtxR motifs upstream to the genes that code for sortase which catalyzes anchoring of host-interacting proteins to the cell wall of pathogenic bacteria and the proteins of secretory system which could be involved in translocation of various iron-regulated virulence factors including diphtheria toxin. CONCLUSIONS: We have used an in silico approach to identify the putative binding sites and genes controlled by DtxR in Corynebacterium diphtheriae. Our analysis shows that DtxR could provide a molecular link between Fe(+2)-induced Fenton's reaction and protection of DNA from oxidative damage. DtxR-regulated Dps prevents lethal combination of Fe(+2 )and H(2)O(2 )and also protects DNA by nonspecific DNA-binding. In addition DtxR could play an important role in host interaction and virulence by regulating the levels of sortase, a potential vaccine candidate and proteins of secretory system

    Transcription of human resistin gene involves an interaction of Sp1 with peroxisome proliferator-activating receptor gamma (PPARγ)

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    Background: Resistin is a cysteine rich protein, mainly expressed and secreted by circulating human mononuclear cells. While several factors responsible for transcription of mouse resistin gene have been identified, not much is known about the factors responsible for the differential expression of human resistin. Methodology/Principal Finding: We show that the minimal promoter of human resistin lies within ~80 bp sequence upstream of the transcriptional start site (-240) whereas binding sites for cRel, CCAAT enhancer binding protein α (C/EBP-α), activating transcription factor 2 (ATF-2) and activator protein 1 (AP-1) transcription factors, important for induced expression, are present within sequences up to -619. Specificity Protein 1(Sp1) binding site (-276 to -295) is also present and an interaction of Sp1 with peroxisome proliferator activating receptor gamma (PPARγ) is necessary for constitutive expression in U937 cells. Indeed co-immunoprecipitation assay demonstrated a direct physical interaction of Sp1 with PPARγ in whole cell extracts of U937 cells. Phorbol myristate acetate (PMA) upregulated the expression of resistin mRNA in U937 cells by increasing the recruitment of Sp1, ATF-2 and PPARγ on the resistin gene promoter. Furthermore, PMA stimulation of U937 cells resulted in the disruption of Sp1 and PPARγ interaction. Chromatin immunoprecipitation (ChIP) assay confirmed the recruitment of transcription factors phospho ATF-2, Sp1, Sp3, PPARγ, chromatin modifier histone deacetylase 1 (HDAC1) and the acetylated form of histone H3 but not cRel, C/EBP-α and phospho c-Jun during resistin gene transcription. Conclusion: Our findings suggest a complex interplay of Sp1 and PPARγ along with other transcription factors that drives the expression of resistin in human monocytic U937 cells

    Characterization of naturally occurring and lamivudine-induced surface gene mutants of hepatitis B virus in patients with chronic hepatitis B in India

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    Background: Besides vaccine escape or immune escape hepatitis B virus (HBV) mutants, naturally occurring and drug-induced mutations have been reported in the surface gene (S-gene) of HBV. Aim: To investigate the frequency and profile of naturally occurring S-gene mutants and the influence of long-term lamivudine therapy in patients with chronic hepatitis B (CHB). Materials and Methods: 57 patients with histologically proven CHB, on lamivudine 100 mg/day for more than 24 months, were included. Viral DNA was extracted at baseline and from on-therapy serum samples. The region encoding the complete major hydrophilic region (MHR) and flanking regions (nucleotides 425-840) of major S-gene that overlapped with the viral polymerase was PCR amplified and sequenced. End-of-therapy response (ETR) was assessed. Results: Two (3.5%) patients had naturally occurring HBV mutants, sP127S and sS143L seen in the 'a' determinant of the S-gene. Following lamivudine therapy, 14 of 57 (24.5%) patients developed 16 types of S-gene mutations (sP120S, sA128V, sS143L, sW182St., sT189I, sV190A, sS193L, sI195M, sW196L, sW196St., sS207R, sI208T, sS210E, sF219S, sF220L and sC221G). Thirteen (81.2%) of these mutations emerged downstream to the MHR. Nine of 16 types of S-gene mutations observed with lamivudine therapy were also associated with the corresponding changes in the polymerase gene. Baseline viral DNA was significantly higher (2,093 vs. 336 pg/ml; p < 0.05) among patients developing S-gene mutants and the ETR in them was significantly lower [3 of 16 (18.8%) vs. 17 of 41 (41.5%); p < 0.05]. Conclusions: Naturally occurring S-gene mutations are uncommon and are restricted to the 'a' determinant region. Mutations develop in about a quarter of the patients on lamivudine therapy, mostly downstream to the MHR. They may contribute to non-response to the antiviral therapy

    The Co-Operonic PE25/PPE41 Protein Complex of Mycobacterium tuberculosis Elicits Increased Humoral and Cell Mediated Immune Response

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    BACKGROUND: Many of the PE/PPE proteins are either surface localized or secreted outside and are thought to be a source of antigenic variation in the host. The exact role of these proteins are still elusive. We previously reported that the PPE41 protein induces high B cell response in TB patients. The PE/PPE genes are not randomly distributed in the genome but are organized as operons and the operon containing PE25 and PPE41 genes co-transcribe and their products interact with each other. METHODOLOGY/PRINCIPAL FINDING: We now describe the antigenic properties of the PE25, PPE41 and PE25/PPE41 protein complex coded by a single operon. The PPE41 and PE25/PPE41 protein complex induces significant (p<0.0001) B cell response in sera derived from TB patients and in mouse model as compared to the PE25 protein. Further, mice immunized with the PE25/PPE41 complex and PPE41 proteins showed significant (p<0.00001) proliferation of splenocyte as compared to the mice immunized with the PE25 protein and saline. Flow cytometric analysis showed 15-22% enhancement of CD8+ and CD4+ T cell populations when immunized with the PPE41 or PE25/PPE41 complex as compared to a marginal increase (8-10%) in the mice immunized with the PE25 protein. The PPE41 and PE25/PPE41 complex can also induce higher levels of IFN-gamma, TNF-alpha and IL-2 cytokines. CONCLUSION: While this study documents the differential immunological response to the complex of PE and PPE vis-à-vis the individual proteins, it also highlights their potential as a candidate vaccine against tuberculosis

    Mutation spectrum of the CYP1B1 gene in Indian primary congenital glaucoma patients

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    Purpose: The human Cytochrome P450 gene CYP1B1 has been implicated in primary congenital glaucoma worldwide. The aim of this study was to understand the role of CYP1B1 mutations in causing primary congenital glaucoma in Indian populations. Methods: The study included 64 new and unrelated cases of primary congenital glaucoma from different ethnic groups of India. Direct sequencing screened the coding and the promoter regions of CYP1B1. Results: Sixteen pathogenic mutations were observed in 24 cases, of which 7 were novel. These included two frameshift mutations leading to deletions of 23 bp (g.3905del23bp) and 2 bp (g.7900-7901delCG) in exons II and III, respectively. Four novel missense mutations viz. A115P, M132R, Q144P, S239R were noted in exon II, and one in exon III (G466D), whose residue is a part of the "signature sequence" (NH2-FXXGXXXCXG-COOH) and is present in all heme binding cytochromes. Overall, CYP1B1 was involved in 37.50% (24/64) cases and homozygosity of the mutant allele was seen in 29.68% (19/64) and compound heterozygosity in 3.12% (2/64) of the cases, respectively. The frequency of CYP1B1 mutations was comparatively lower than Saudi Arabian, Slovakian Gypsys, and Turkish populations, largely due to genetic heterogeneity and ethnic diversities in Indian populations. Genotype-phenotype correlation indicated variable prognosis that could be due to the type of mutation, leading to alteration of CYP1B1 protein. Conclusions: This study provides a mutation spectrum of CYP1B1 causing primary congenital glaucoma in Indian populations that has implications in devising molecular diagnostics for rapid screening

    Molecular epidemiology of tuberculosis in Tasmania and genomic characterisation of its first known multi-drug resistant case

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    Background:The origin and spread of tuberculosis (TB) in Tasmania and the types of strains of Mycobacteriumtuberculosis complex (MTBC) present in the population are largely unknown.Objective:The aim of this study was to perform the first genomic analysis of MTBC isolates from Tasmaniato better understand the epidemiology of TB in the state.Methods:Whole-genome sequencing was performed on cultured isolates of MTBC collected from2014–2016. Single-locus variant analysis was applied to determine the phylogeny of the isolatesand the presence of drug-resistance mutations. The genomic data were then cross-referencedagainst public health surveillance records on each of the cases.Results:We determined that 83.3% of TB cases in Tasmania from 2014–2016 occurred in non-Australianborn individuals. Two possible TB clusters were identified based on single locus variantanalysis, one from November-December 2014 (n = 2), with the second from MayAugust2015 (n = 4). We report here the first known isolate of multi-drug resistant (MDR)M. tuberculosis in Tasmania from 2016 for which we established its drug resistance mutationsand potential overseas origin. In addition, we characterised a case of M. bovis TB in aTasmanian-born person who presented in 2014, approximately 40 years after the last confirmedcase in the state’s bovids.Conclusions:TB in Tasmania is predominantly of overseas origin with genotypically-unique drug-susceptibleisolates of M. tuberculosis. However, the state also exhibits features of TB that areobserved in other jurisdictions, namely, the clustering of cases, and drug resistance. Earlydetection of TB and contact tracing, particularly of overseas-born cases, coordinated withrapid laboratory drug-susceptibility testing and molecular typing, will be essential for Tasmaniato reach the World Health Organisation’s TB eradication goals for low-incidencesettings

    Mechanistic Insights into a Novel Exporter-Importer System of Mycobacterium tuberculosis Unravel Its Role in Trafficking of Iron

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    Elucidation of the basic mechanistic and biochemical principles underlying siderophore mediated iron uptake in mycobacteria is crucial for targeting this principal survival strategy vis-à-vis virulence determinants of the pathogen. Although, an understanding of siderophore biosynthesis is known, the mechanism of their secretion and uptake still remains elusive.Here, we demonstrate an interplay among three iron regulated Mycobacterium tuberculosis (M.tb) proteins, namely, Rv1348 (IrtA), Rv1349 (IrtB) and Rv2895c in export and import of M.tb siderophores across the membrane and the consequent iron uptake. IrtA, interestingly, has a fused N-terminal substrate binding domain (SBD), representing an atypical subset of ABC transporters, unlike IrtB that harbors only the permease and ATPase domain. SBD selectively binds to non-ferrated siderophores whereas Rv2895c exhibits relatively higher affinity towards ferrated siderophores. An interaction between the permease domain of IrtB and Rv2895c is evident from GST pull-down assay. In vitro liposome reconstitution experiments further demonstrate that IrtA is indeed a siderophore exporter and the two-component IrtB-Rv2895c system is an importer of ferrated siderophores. Knockout of msmeg_6554, the irtA homologue in Mycobacterium smegmatis, resulted in an impaired M.tb siderophore export that is restored upon complementation with M.tb irtA.Our data suggest the interplay of three proteins, namely IrtA, IrtB and Rv2895c in synergizing the balance of siderophores and thus iron inside the mycobacterial cell

    Concurrent Proinflammatory and Apoptotic Activity of a Helicobacter pylori Protein (HP986) Points to Its Role in Chronic Persistence

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    Helicobacter pylori induces cytokine mediated changes in gastroduodenal pathophysiology, wherein, the activated macrophages at the sub-mucosal space play a central role in mounting innate immune response against the antigens. The bacterium gains niche through persistent inflammation and local immune-suppression causing peptic ulcer disease or chronic gastritis; the latter being a significant risk factor for the development of gastric adenocarcinoma. What favors persistence of H. pylori in the gastric niches is not clearly understood. We report detailed characterization of a functionally unknown gene (HP986), which was detected in patient isolates associated with peptic ulcer and gastric carcinoma. Expression and purification of recombinant HP986 (rHP986) revealed a novel, ∼29 kDa protein in biologically active form which associates with significant levels of humoral immune responses in diseased individuals (p<0.001). Also, it induced significant levels of TNF-α and Interleukin-8 in cultured human macrophages concurrent to the translocation of nuclear transcription factor-κB (NF-κB). Further, the rHP986 induced apoptosis of cultured macrophages through a Fas mediated pathway. Dissection of the underlying signaling mechanism revealed that rHP986 induces both TNFR1 and Fas expression to lead to apoptosis. We further demonstrated interaction of HP986 with TNFR1 through computational and experimental approaches. Independent proinflammatory and apoptotic responses triggered by rHP986 as shown in this study point to its role, possibly as a survival strategy to gain niche through inflammation and to counter the activated macrophages to avoid clearance

    Molecular dissection of the human Y-chromosome

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    Human Y chromosome, earlier thought to be gene deficient, has attracted a great deal of attention owing to its supremacy in male sex determination and unique haplotype status in the genome. Studies on Y chromosome have shown the presence of different types of satellite DNA and several genes implicated with a variety of physical and physiological functions. The interaction of these repetitive DNA with genes in normal individuals and in patients with Y-chromosome-related genetic anomalies is still an unresolved issue and is actively being pursued. The fast changing scenario of the human genome project is likely to effect our overall understanding of the Y chromosome and Y-linked genetic anomalies in a big way. We provide a brief overview of the organization of Y chromosome with respect to several important loci encompassing both the arms and their likely involvement/modulation in genetic anomalies. The experimental approaches discussed here are envisaged to be of clinical relevance for the molecular diagnosis of the Y-linked disorders
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