Gururaja P. Pazhani scite author profile

Under stress conditions, many species of bacteria enter into starvation mode of metabolism or a physiologically viable but non-culturable (VBNC) state. Several human pathogenic bacteria have been reported to enter into the VBNC state under these conditions. The pathogenic VBNC bacteria cannot be grown using conventional culture media, although they continue to retain their viability and express their virulence. Though there have been debates on the VBNC concept in the past, several molecular studies have shown that not only can the VBNC state be induced under in vitro conditions but also that resuscitation from this state is possible under appropriate conditions. The most notable advance in resuscitating VBNC bacteria is the discovery of resuscitation-promoting factor (Rpf), which is a bacterial cytokines found in both Gram-positive and Gram-negative organisms. VBNC state is a survival strategy adopted by the bacteria, which has important implication in several fields, including environmental monitoring, food technology, and infectious disease management; and hence it is important to investigate the association of bacterial pathogens under VBNC state and the water/foodborne outbreaks. In this review, we describe various aspects of VBNC bacteria, which include their proteomic and genetic profiles under the VBNC state, conditions of resuscitation, methods of detection, antibiotic resistance, and observations on Rpf.

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Development and Evaluation of a PCR Assay for Tracking the Emergence and Dissemination of Haitian Variant ctxB in Vibrio cholerae O1 Strains Isolated from Kolkata, India

Naha

et al. 2012

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A PCR-based assay was developed to discriminate the classical, El Tor, and Haitian types of ctxB alleles. Our retrospective study using this newly developed PCR showed that Haitian ctxB first appeared in Kolkata C holera still continues to be an important cause of human infection, especially in developing countries that lack access to safe drinking water and proper sanitation. The recent devastating cholera outbreak in Haiti (13), for the first time in almost a century, placed this ancient disease at the forefront of the global public health agenda. In May 2011, the World Health Assembly recognized the reemergence of cholera as a significant global public health problem and called for the implementation of an integrated and comprehensive global approach to cholera control (17). This dreadful diarrheal disease is caused by the Gram-negative toxigenic bacterium Vibrio cholerae (7). To date, more than 200 serogroups of V. cholerae are known, but only serogroups O1 and O139 cause epidemic and pandemic cholera (7, 16). To date, the world has experienced seven pandemics of cholera. Among these, the first six were caused by the classical biotype strains, whereas the ongoing seventh pandemic has been caused by the El Tor biotype (16). In recent years, the emergence and dissemination of novel pathogenic variants of V. cholerae O1 throughout many Asian and African countries (1,2,3,5,9,10,11,14,15) indicated a cryptic change in cholera epidemiology. Our recent study showed that the El Tor variant strains of V. cholerae O1 have replaced the prototype El Tor biotype strains in Kolkata, India, since 1995 (15). This report, together with the recent massive cholera outbreak in Haiti, caused by V. cholerae organisms with a mutation in the 58th nucleotide of ctxB (3), motivated us to investigate the emergence and dissemination of this new variant of V. cholerae O1 biotype El Tor strains, if any, in Kolkata.In this study, we have developed a double-mismatch-amplification mutation assay (DMAMA) to accurately discriminate the classical, El Tor, and Haitian type ctxB alleles through a rapid and simple PCR-based assay. A total of 142 V. cholerae O1 strains were included in this study. These strains were selected from the repository of the National Institute of Cholera and Enteric Diseases, Kolkata, India, covering different months of each year from 2004 to 2011. V. cholerae O1 strains O395 (serotype Ogawa), N16961 (serotype Inaba), and EL-1786 (Ogawa, El Tor) were used as standard strains for the classical, El Tor, and Haitian type, respectively.Development of the DMAMA-PCR. All 142 tested strains, along with the control strains, were grown in Luria-Bertani broth (Becton Dickinson, Sparks, MD) for 18 h and then streaked on Luria agar (LA) plates. In this study, we focused on ctxB in V. cholerae O1 strains to confirm the strains carrying Haitian, classical, and El Tor alleles in a simple PCR-based assay. Current methods for differentiating the biotype-specific cholera toxin B (CTB) subunit of V. cholerae O1 necessitate MAMA-PCR with ...

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Vibrio fluvialis: an emerging human pathogen

et al. 2014

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Vibrio fluvialis is a pathogen commonly found in coastal environs. Considering recent increase in numbers of diarrheal outbreaks and sporadic extraintestinal cases, V. fluvialis has been considered as an emerging pathogen. Though this pathogen can be easily isolated by existing culture methods, its identification is still a challenging problem due to close phenotypic resemblance either with Vibrio cholerae or Aeromonas spp. However, using molecular tools, it is easy to identify V. fluvialis from clinical and different environmental samples. Many putative virulence factors have been reported, but its mechanisms of pathogenesis and survival fitness in the environment are yet to be explored. This chapter covers some of the major discoveries that have been made to understand the importance of V. fluvialis.

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Global phylogeography and evolutionary history of Shigella dysenteriae type 1

Njamkepo¹,

Fawal²,

Tran-Dien³

et al. 2016

Nat Microbiol

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Together with plague, smallpox and typhus, epidemics of dysentery have been a major scourge of human populations for centuries(1). A previous genomic study concluded that Shigella dysenteriae type 1 (Sd1), the epidemic dysentery bacillus, emerged and spread worldwide after the First World War, with no clear pattern of transmission(2). This is not consistent with the massive cyclic dysentery epidemics reported in Europe during the eighteenth and nineteenth centuries(1,3,4) and the first isolation of Sd1 in Japan in 1897(5). Here, we report a whole-genome analysis of 331 Sd1 isolates from around the world, collected between 1915 and 2011, providing us with unprecedented insight into the historical spread of this pathogen. We show here that Sd1 has existed since at least the eighteenth century and that it swept the globe at the end of the nineteenth century, diversifying into distinct lineages associated with the First World War, Second World War and various conflicts or natural disasters across Africa, Asia and Central America. We also provide a unique historical perspective on the evolution of antibiotic resistance over a 100-year period, beginning decades before the antibiotic era, and identify a prevalent multiple antibiotic-resistant lineage in South Asia that was transmitted in several waves to Africa, where it caused severe outbreaks of disease.

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Vibrio choleraeNon-O1, Non-O139 Serogroups and Cholera-like Diarrhea, Kolkata, India

Dutta¹,

Chowdhury²,

Pazhani³

et al. 2013

Emerg. Infect. Dis.

101

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