TY - JOUR
T1 - Deciphering the possible role of ctxb7 allele on higher production of cholera toxin by haitian variant vibrio cholerae o1
AU - Naha, Arindam
AU - Mandal, Rahul Shubhra
AU - Samanta, Prosenjit
AU - Saha, Rudra Narayan
AU - Shaw, Sreeja
AU - Ghosh, Amit
AU - Chatterjee, Nabendu Sekhar
AU - Dutta, Pujarini
AU - Okamoto, Keinosuke
AU - Dutta, Shanta
AU - Mukhopadhyayid, Asish Kumar
N1 - Funding Information:
This study was supported in part by the Indian Council of Medical Research (ICMR), Government of India, (grant: IM/AKM/11-12/03, URL: https://www.icmr.nic.in/); Japan Initiative for Global Research Network on Infectious Diseases (J-GRID) of the Japan Agency for Medical Research and Development (AMED) (grant: JP18fm0108002, URL: https://www.amed.go.jp/ en/); and National Institute of Infectious Diseases, Japan (NIID-I) (grant: NIID-I-AKM, URL: https:// www.niid.go.jp/niid/en/). AKM received all the above mentioned funds. AG received JC Bose Chair Professorship of The National Academy of Sciences, India (no. NAS/2057/3/2015-16, URL: http://www.nasi.org.in/). AN received the ICMR fellowship (no. ICMR-SRF No. 80/890/2014-ECD-I, URL: https://www.icmr.nic.in/). PS and SS received the CSIR fellowships (no. 09/482(0060)/2014-EMR-I and 09/482(0071)/2019-EMR-I, respectively, URL: http://www.csirhrdg.res.in/). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Part of this has been presented at the international conferences ?14th Asian Conference on Diarrheal Diseases and Nutrition (ASCODD)? and ?Microbiology in the New Millennium: from Molecules to Communities?. We thank Dr. James Kaper (Professor, University of Maryland, School of Medicine), Prof. Scott Butler (University of Rochester Medical Center), Dr. Steve Calderwood (Division of Infectious Disease, Massachusetts General Hospital) and Prof. James Patrick Ryan, (University of Tennessee) for their heartiest support and highly valued guidelines.
Publisher Copyright:
© 2020 Naha et al.
PY - 2020/4
Y1 - 2020/4
N2 - Cholera continues to be an important public health concern in developing countries where proper hygiene and sanitation are compromised. This severe diarrheal disease is caused by the Gram-negative pathogen Vibrio cholerae belonging to serogroups O1 and O139. Cholera toxin (CT) is the prime virulence factor and is directly responsible for the disease mani-festation. The ctxB gene encodes cholera toxin B subunit (CTB) whereas the A subunit (CTA) is the product of ctxA gene. Enzymatic action of CT depends on binding of B penta-mers to the lipid-based receptor ganglioside GM1. In recent years, emergence of V. cholerae Haitian variant strains with ctxB7 allele and their rapid spread throughout the globe has been linked to various cholera outbreaks in Africa and Asia. These strains produce classical type (WT) CTB except for an additional mutation in the signal sequence region where an asparagine (N) residue replaces a histidine (H) at the 20th amino acid position (H20N) of CTB precursor (pre-CTB). Here we report that Haitian variant V. cholerae O1 strains isolated in Kolkata produced higher amount of CT compared to contemporary O1 El Tor variant strains under in vitro virulence inducing conditions. We observed that the ctxB7 allele, itself plays a pivotal role in higher CT production. Based on our in silico analysis, we hypothesized that higher accumulation of toxin subunits from ctxB7 allele might be attributed to the structural alteration at the CTB signal peptide region of pre-H20N CTB. Overall, this study provides plausible explanation regarding the hypertoxigenic phenotype of the Haitian variant strains which have spread globally, possibly through positive selection for increased patho-genic traits.
AB - Cholera continues to be an important public health concern in developing countries where proper hygiene and sanitation are compromised. This severe diarrheal disease is caused by the Gram-negative pathogen Vibrio cholerae belonging to serogroups O1 and O139. Cholera toxin (CT) is the prime virulence factor and is directly responsible for the disease mani-festation. The ctxB gene encodes cholera toxin B subunit (CTB) whereas the A subunit (CTA) is the product of ctxA gene. Enzymatic action of CT depends on binding of B penta-mers to the lipid-based receptor ganglioside GM1. In recent years, emergence of V. cholerae Haitian variant strains with ctxB7 allele and their rapid spread throughout the globe has been linked to various cholera outbreaks in Africa and Asia. These strains produce classical type (WT) CTB except for an additional mutation in the signal sequence region where an asparagine (N) residue replaces a histidine (H) at the 20th amino acid position (H20N) of CTB precursor (pre-CTB). Here we report that Haitian variant V. cholerae O1 strains isolated in Kolkata produced higher amount of CT compared to contemporary O1 El Tor variant strains under in vitro virulence inducing conditions. We observed that the ctxB7 allele, itself plays a pivotal role in higher CT production. Based on our in silico analysis, we hypothesized that higher accumulation of toxin subunits from ctxB7 allele might be attributed to the structural alteration at the CTB signal peptide region of pre-H20N CTB. Overall, this study provides plausible explanation regarding the hypertoxigenic phenotype of the Haitian variant strains which have spread globally, possibly through positive selection for increased patho-genic traits.
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U2 - 10.1371/journal.pntd.0008128
DO - 10.1371/journal.pntd.0008128
M3 - Article
C2 - 32236098
AN - SCOPUS:85082790984
SN - 1935-2727
VL - 14
SP - 1
EP - 24
JO - PLoS Neglected Tropical Diseases
JF - PLoS Neglected Tropical Diseases
IS - 4
M1 - e0008128
ER -
