Keya Chaudhuri scite author profile

Three outer membrane proteins with molecular masses of 40, 38, and 27 kDa of the hypertoxinogenic strain 569B of Vibrio cholerae have been purified to homogeneity. The synthesis of all the three proteins is regulated by the osmolarity of the growth medium. The pore-forming ability of the 40-kDa protein, OmpT, and the 38-kDa protein, OmpU, has been demonstrated by using liposomes, in which these proteins were embedded. The 27-kDa protein, OmpX, though osmoregulated, is not a porin. OmpU constitutes 30% of the total outer membrane protein when grown in the presence of 1.0% NaCl in the growth medium and 60% in the absence of NaCl. OmpU is an acidic protein and is a homotrimer of 38-kDa monomeric units. Its secondary structure contains predominantly a beta-sheet, and three to four Ca2+ ions are associated with each monomeric unit. Removal of Ca2+ irreversibly disrupts the structure and pore-forming ability of the protein. The pore size of OmpU is 1.6 nm, and the specific activity of the OmpU channel is two- to threefold higher than that of Escherichia coli porin OmpF, synthesis of which resembles that of OmpU with respect to the osmolarity of the growth medium. The pore size of OmpT, which is analogous to OmpC of E. coli, is smaller than that of OmpU. Southern blot hybridization of V. cholerae genomic DNA digested with several restriction endonucleases with nick-translated E. coli ompF as the probe revealed no nucleotide sequence homology between the ompU and ompF genes. OmpU is also not antigenically related to OmpF. Anti-OmpF antiserum, however, cross-reacted with the 45-kDa V. cholerae outer membrane protein, OmpS, the synthesis of which is regulated by the presence of maltose in the growth medium. OmpU hemagglutinated with rabbit and human blood. This toxR-regulated protein is one of the possible virulence determinants in V. cholerae (V. L. Miller and J. J. Mekalanos, J. Bacteriol. 170:2575-2583, 1988).

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Association of cholera toxin with Vibrio cholerae outer membrane vesicles which are internalized by human intestinal epithelial cells

Chatterjee¹,

Chaudhuri²

2011

147

111

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a b s t r a c tCholera toxin (CT) is the major virulence factor of pathogenic Vibrio cholerae. The present study demonstrates that a fraction of CT is associated with the outer membrane vesicles (OMVs) released by V. cholerae. Atomic force microscopy (AFM) and also transmission electron microscopy (TEM) of purified OMVs from toxigenic V. cholerae O395 revealed spherical shaped vesicles of size range 20-200 nm. Immunoblotting of purified OMVs with polyclonal anti-CT antibody and GM1-ganglioside dependent ELISA suggest that CT is associated with OMVs. CHO cell assay indicated that OMV associated CT is physiologically active. OMVs labeled with fluorescent dye interacted with intestinal epithelial cells via the CT-receptor and were internalized increasing the cAMP level. Thus OMVs may represent an important vehicle in delivering CT to epithelial cells.

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Genetic landscape of the people of India: a canvas for disease gene exploration

Brahmachari¹,

Majumder²,

Mukerji³

et al. 2008

J Genet

257

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Analyses of frequency profiles of markers on disease or drug-response related genes in diverse populations are important for the dissection of common diseases. We report the results of analyses of data on 405 SNPs from 75 such genes and a 5.2 Mb chromosome, 22 genomic region in 1871 individuals from diverse 55 endogamous Indian populations. These include 32 large (>10 million individuals) and 23 isolated populations, representing a large fraction of the people of India. We observe high levels of genetic divergence between groups of populations that cluster largely on the basis of ethnicity and language. Indian populations not only overlap with the diversity of HapMap populations, but also contain population groups that are genetically distinct. These data and results are useful for addressing stratification and study design issues in complex traits especially for heterogeneous populations.

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The anti-bacterial action of diclofenac shown by inhibition of DNA synthesis

Dastidar

Ganguly

Chaudhuri

et al. 2000

International Journal of Antimicrobial Agents

136

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Vibrio cholerae O395 Outer Membrane Vesicles Modulate Intestinal Epithelial Cells in a NOD1 Protein-dependent Manner and Induce Dendritic Cell-mediated Th2/Th17 Cell Responses

Chatterjee¹,

Chaudhuri

2013

Journal of Biological Chemistry

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Background: Vibrio cholerae, the etiologic agent of cholera, secretes outer membrane vesicles (OMVs) that are internalized into host cells. Results: OMVs activate an inflammatory response in intestinal epithelial cells (ECs) via a NOD1-dependent pathway that activates dendritic cells (DCs) and promotes T cell polarization toward Th2/Th17 responses. Conclusion: OMVs stimulate EC-DC cross-talk in generating an inflammatory response. Significance: Findings are important for the development of efficient vaccine strategies with OMVs.

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Keya Chaudhuri

Porins of Vibrio cholerae: purification and characterization of OmpU

Association of cholera toxin with Vibrio cholerae outer membrane vesicles which are internalized by human intestinal epithelial cells

Genetic landscape of the people of India: a canvas for disease gene exploration

The anti-bacterial action of diclofenac shown by inhibition of DNA synthesis

Vibrio cholerae O395 Outer Membrane Vesicles Modulate Intestinal Epithelial Cells in a NOD1 Protein-dependent Manner and Induce Dendritic Cell-mediated Th2/Th17 Cell Responses

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