Ashok K. Chopra

Aeromonas-associated diarrhea in children

In a 27-month prospective study, Aeromonas spp. were isolated from 7.3% of children with diarrhea and from 2.2% of controls. In 32 patients with diarrhea, ranging in age from 1 to 27 months old, Aeromonas spp. were the only potential bacterial enteropathogens isolated. Principal symptoms of Aeromonas-associated diarrhea were vomiting, fever and bloody stools. Diarrhea was often self-limiting and lasted for 10 days or less in 90% of patients. No secondary spread of diarrhea among close contacts was observed and no clear-cut seasonal patterns of Aeromonas isolation were found. Aeromonas caviae was the most frequently isolated species in fecal samples of patients (24 of 29 isolates) as well as controls (5 of 7 isolates). Cholera toxin cross-reactive cytotoxic enterotoxin was produced by a vast majority of Aeromonas isolates, as compared to a non-cholera toxin cross-reactive cytotonic enterotoxin. In addition no significant correlation was observed between severity of the diarrheal disease and different Aeromonas or the quantity of enterotoxins produced. In our geographic area Aeromonas spp., and A. caviae in particular, seem to be an important and frequent cause of diarrhea in young children.

Improved synthesis of Salmonella typhimurium enterotoxin using gene fusion expression systems

Salmonella enterotoxin (Stn) is a virulence factor in S. typhimurium strain Q1 that causes both fluid secretion in ligated intestinal loops of rabbits and elongation of Chinese hamster ovary (CHO) cells. High-level expression systems are needed to provide Stn in soluble form for detailed study of the biological activity of Stn. To maximize the synthesis and solubility of Stn, we systematically compared the production of native Stn synthesized with a T7 RNA polymerase/promoter system to that of two fusion proteins: glutathione S-transferase::Stn (Gst::Stn) and thioredoxin A::Stn (TrxA::Stn). The latter fusion protein expression systems resulted in a 64-fold increase in Gst::Stn and TrxA::Stn antigen concentration, as measured by specific anti-peptide antibodies in an enzyme-linked immunosorbent assay (ELISA). Most of the toxin derived using these vector systems was insoluble; however, the solubility of the TrxA::Stn antigen increased by at least 50-fold, with a concomitant increase in CHO cell elongation activity. In addition, stn gene expression was enhanced more than 50-fold by addition of 0.2-0.4 M NaCl to Luria-Bertani medium. The biological activity of Stn also was increased in the high-osmolarity medium. Consequently, the expression of stn may be regulated by DNA supercoiling.

Cloning and expression of putative cytotonic enterotoxin-encoding genes from Aeromonas hydrophila

A genomic library from a diarrheal isolate, SSU, of Aeromonas hydrophila was constructed in a cosmid vector, pHC79, and in bacteriophage lambda EMBL3. Cell lysates from various Escherichia coli clones containing the recombinant cosmid were examined for their ability to elongate Chinese hamster ovary (CHO) cells, which is a typical enterotoxic response. Based on restriction analysis, a 4.0-kb SalI DNA fragment from one of the clones that exhibited enterotoxic activity was subcloned into a bacteriophage T7 RNA polymerase/promoter hyperexpression system. The cell lysate from this E. coli [pSL24] clone caused CHO cells to elongate and revealed the presence of a major 35-kDa polypeptide by [35S]methionine labeling and sodium dodecyl sulfate (SDS)-polyacrylamide-gel electrophoresis (PAGE). The toxin was biologically heat labile, losing all activity within 20 min at 56 degrees C. In addition, another enterotoxin-producing clone, E. coli[pSBS32], was isolated from cosmid and lambda bacteriophage libraries. We localized this heat-stable (56 degrees C/20 min) enterotoxin to a 4.8-kb SalI-BamHI fragment. Both enterotoxins caused elevation of cyclic adenosine monophosphate (cAMP) in CHO cells. The DNA fragments encoding these enterotoxins did not hybridize with each other. However, a 4.8-kb SalI-BamHI DNA fragment encoding a heat-stable enterotoxin hybridized to a 3.5-kb BamHI DNA fragment of a plasmid, pHPC100, that contained a cytotonic enterotoxin-encoding gene isolated from A. trota. Our data suggest Aeromonas species produce different structural types of cytotonic enterotoxins that are functionally similar.

Expression and characterization of the cloned Salmonella typhimurium enterotoxin.

Earlier, our laboratory reported the cloning of a chromosomally encoded cholera toxin (CT)-like enterotoxin gene from Salmonella typhimurium Q1 into pBR322. Cell lysates from the plasmid clone pC1, containing a 4.8 kb EcoR1 DNA fragment from Salmonella, caused elongation of Chinese hamster ovary (CHO) cells and this biologic activity was neutralized by anti-CT. However, this cloned gene product did not elicit fluid secretion in the rabbit intestinal loop (RIL) model, because of poor expression. We report here, subcloning of a 4.8 kb EcoRI and a 2.7 kb HindIII/Eco Rl fragment into a high expression T7 RNA polymerase/promoter system. Cell lysates from these clones elicited fluid secretion in the RIL model, caused firm induration in rabbit skin and elongated CHO cells. These biological activities were neutralized by anti-CT. SDS-PAGE and subsequent fluorographic analysis of Escherichia coli, harboring recombinant plasmids in a T7 expression system, revealed the presence of two prominent 35S-labeled polypeptides of 25 and 12 kDa, which were immunoprecipitated with anti-CT. The enterotoxin appeared to be 125 kDa in size, based on chromatography on a P-300 column, had a pl of 6.6 to 6.8, and was heat-labile (60 degrees C/5 min). Unlike cloned CT and heat-labile enterotoxin (LT-l), which were localized in the periplasm, the Salmonella enterotoxin was cytoplasmic in nature.

Fatal septicemia and bullae caused by non-01 Vibrio cholerae

Bullous lesions associated with non-01 Vibrio cholerae developed in a patient with hepatic cirrhosis who had recently ingested raw oysters. He died of overwhelming sepsis despite 5 days of aggressive antibiotic therapy. Non-01 V. cholerae was isolated from blood, peritoneal fluid, and bullae. The organism produced a cytotoxic factor that destroyed Chinese hamster ovary cells. Although septicemia caused by non-01 V. cholerae is uncommon, cutaneous manifestations of this organism are even rarer. Our patient represents the first reported case of bullous lesions associated with non-01 V. cholerae septicemia.

Biological and immunological characterization of a cloned cholera toxin-like enterotoxin from Salmonella typhimurium☆

A chromosomal DNA fragment, encoding an enterotoxin gene of Salmonella typhimurium Q1, was cloned into bacteriophage EMBL3 and plasmid vector pBR322. The recombinant clones lambda B8 and pC1 were identified using a synthetic oligonucleotide probe made to the B subunit region of the cholera toxin gene (ctx). Cell lysates of Escherichia coli VCS257 [lambda B8] induced fluid secretion in rabbit intestinal loops, while lysates of E. coli DH5 alpha [pC1] failed to elicit an enterotoxic response in this model. Both lysates and partially purified preparations elongated Chinese hamster ovary (CHO) cells, elevated cellular cAMP and PGE2, and bound to ganglioside GM1. The biological activity associated with the cloned enterotoxin was neutralized by monospecific antiserum to cholera toxin (CT). Immunoblots of pC1 and lambda B8 lysates probed with anti-CT, exhibited a 30 kDa protein similar to that of pJM17, which carried the ctx gene. Under non-dissociating conditions, anti-CT immunoblots of the same lysates revealed two proteins, one corresponding in size to the holotoxin and the other to CT-A. When analysed by DNA-directed protein synthesis in vitro, both pC1 and lambda B8 DNA expressed two unique proteins (30 and 11 kDa) similar to that of pJM17.

Cloning and sequence analysis of hydrogenase regulatory genes (hydHG) from Salmonella typhimurium

The nucleotide sequence of the hydHG operon, comprised of chromosomal genes that regulate labile hydrogenase activity in Salmonella typhimurium, was compared with the reported hydHG sequence of Escherichia coli. Nucleotide sequence analysis of a 4.8 kb EcoRI fragment of Salmonella chromosomal DNA revealed that one of the open reading frames (ORF) encoded a protein of 441 amino acid residues. This large ORF was identified on a 2.7 kb Eco RI/HindIII fragment and coded for the complete hydG gene. The carboxy-terminus (626 bp) of the hydH gene also was present immediately upstream of hydG. Expression of the Salmonella hydG gene in a T7 promoter/polymerase system revealed the presence of a unique 45 kDa protein band. The incomplete hydH gene was not expressed. It is proposed that the labile hydrogenase activity in S. typhimurium may be regulated by the multiple component system.

Mechanism of action of a cytotonic enterotoxin produced by Aeromonas hydrophila

In this study, we describe the mechanism of action of a cytotonic enterotoxin produced by two isolates of Aeromonas hydrophila. Isolates SSU and Ah65 are of different origin and both are capable of producing either a cytotoxic enterotoxin or aerolysin. A cytotonic enterotoxin produced by diarrheal isolate SSU, which was purified and characterized in our laboratory, elevated intracellular cAMP and PgE2 levels in cultured Chinese hamster ovary (CHO) cells. Likewise, enterotoxic activity expressed by a cytotonic enterotoxin was detected in the culture filtrate of a fish isolate (Ah65) after cytotoxic activity was neutralized with homologous aerolysin monoclonal antibodies. This cytotonic enterotoxin also elevated intracellular cAMP and PgE2 levels in CHO cells, suggesting a cholera toxin-like mechanism of action for Aeromonas cytotonic enterotoxins.

Vertebrate brains contain a broadly active antiviral substance

Brain tissue extracts from vertebrates were examined for non-specific, broad-spectrum virus inhibitors, previously identified and characterized from other body tissues and fluids. An antiviral activity found in human, bovine, ovine, porcine, lapine, murine and piscine brain tissues shares some properties with a contact blocking-virus inhibitor, which was previously found only in cell culture supernatants. The inhibitor was active against (in order of sensitivity to inhibitor) Banzi, Sindbis, Bunyamwera, Newcastle disease, herpes simplex I, Semliki forest, polio I, mengo, vaccinia and vesicular stomatitis viruses. It is approximately 4000 kDa and possesses a complex structure containing protein, carbohydrate and lipid moieties. The inhibitor does not directly neutralize virus or induce an antiviral state in cells, but appears to act early in the replication cycle, most likely by preventing virus attachment to target cells. Its occurrence in concentrations sufficient to reduce virus yield in cell cultures at least 30-fold may indicate a role in limiting viral infections of the central nervous system.

Turnover of abnormal proteins in Bacillus megaterium and Saccharomyces cerevisiae: differences between in vivo and in vitro degradation

Degradation of abnormal proteins in Bacillus megaterium and Saccharomyces cerevisiae in vivo was compared with that in cell-free extracts. Protein degradation in vivo, when the cells were labelled with 14C-leucine during growth in the presence of ethionine, was affected by the concentration of the analogue used. Proteins synthesized in the presence of 0.2–1 mM ethionine were degraded most rapidly in both organisms. The proteolytic enzyme system of yeast degraded the analogue-containing proteins in vitro faster than the normal proteins. This holds also for proteins synthesized in the presence of 5 mM ethionine, whose degradation in vivo was impaired. The proteolytic system of B. megaterium, on the other hand, was unable in vitro to differentiate between normal and abnormal proteins. Denatured proteins underwent preferential degradation over normal and ethionine-containing proteins.