Your search keyword '"Tanshi Mehrotra"' showing total 2 results

1. Region-specific genomic signatures of multidrug-resistant Helicobacter pylori isolated from East and South India

Author

Shakti Kumar, Tanshi Mehrotra, Daizee Talukdar, Jyoti Verma, Bipul Chandra Karmakar, Sangita Paul, Sujit Chaudhuri, Agila Kumari Pragasam, Susmita Bakshi, Shashi Kumari, Meenal Chawla, Ayushi Purohit, Sonali Porey Karmakar, Ankur Mutreja, Sayantan Banerjee, Animesh Ray, Thandavarayan Ramamurthy, Asish K Mukhopadyay, and Bhabatosh Das

Subjects

Helicobacter pylori, Virulence Factors, Amoxicillin, Furazolidone, Genomics, Microbial Sensitivity Tests, General Medicine, Polymorphism, Single Nucleotide, Anti-Bacterial Agents, Helicobacter Infections, Anti-Infective Agents, Clarithromycin, Metronidazole, Drug Resistance, Bacterial, Genetics, Humans, Phylogeny

Abstract

Helicobacter pylori is a ubiquitous bacterium and contributes significantly to the burden of chronic gastritis, peptic ulcers, and gastric cancer across the world. Adaptive phenotypes and virulence factors in H. pylori are heterogeneous and dynamic. However, limited information is available about the molecular nature of antimicrobial resistance phenotypes and virulence factors of H. pylori strains circulating in India. In the present study, we analyzed the whole genome sequences of 143 H. pylori strains, of which 32 are isolated from two different regions (eastern and southern) of India. Genomic repertoires of individual strains show distinct region-specific signatures. We observed lower resistance phenotypes and genotypes in the East Indian (Kolkata) H. pylori isolates against amoxicillin and furazolidone antibiotics, whereas higher resistance phenotypes to metronidazole and clarithromycin. Also, at molecular level, a greater number of AMR genes were observed in the east Indian H. pylori isolates as compared to the southern Indian isolates. From our findings, we suggest that metronidazole and clarithromycin antibiotics should be used judicially in the eastern India. However, no horizontally acquired antimicrobial resistance gene was observed in the current H. pylori strains. The comparative genome analysis shows that the number of genes involved in virulence, disease and resistance of H. pylori isolated from two different regions of India is significantly different. Single-nucleotide polymorphisms (SNPs) based phylogenetic analysis distinguished H. pylori strains into different clades according to their geographical locations. Conditionally beneficial functions including antibiotic resistance phenotypes that are linked with faster evolution rates in the Indian isolates.

Published

2022

2. Antimicrobial resistance and virulence in Helicobacter pylori: Genomic insights

Author

Sonali Porey Karmakar, Sneha Mary Alexander, T Barani Devi, Shakti Kumar, Tanshi Mehrotra, Animesh Ray, Santanu Chattopadhyay, G. Balakrish Nair, Akansha Kothidar, Daizee Talukdar, R J Retnakumar, Jyoti Verma, Shashi Kumari, Krishnadas Devadas, Ankur Mutreja, and Bhabatosh Das

Subjects

Genetics, biology, Helicobacter pylori, Virulence, Point mutation, Genomics, biology.organism_classification, Pathogenicity island, Genome, DNA sequencing, Anti-Bacterial Agents, Helicobacter Infections, Antibiotic resistance, Drug Resistance, Bacterial, Humans, Mobile genetic elements

Abstract

Microbes evolve rapidly by modifying their genome through mutations or acquisition of genetic elements. Antimicrobial resistance in Helicobacter pylori is increasingly prevalent in India. However, limited information is available about the genome of resistant H. pylori isolated from India. Our pan- and core-genome based analyses of 54 Indian H. pylori strains revealed plasticity of its genome. H. pylori is highly heterogenous both in terms of the genomic content and DNA sequence homology of ARGs and virulence factors. We observed that the H. pylori strains are clustered according to their geographical locations. The presence of point mutations in the ARGs and absence of acquired genetic elements linked with ARGs suggest target modifications are the primary mechanism of its antibiotic resistance. The findings of the present study would help in better understanding the emergence of drug-resistant H. pylori and controlling gastric disorders by advancing clinical guidance on selected treatment regimens.

Published

2021