Genistein and tyrphostin 47 stimulate CFTR-mediated Cl- secretion in T84 cell monolayers.

The involvement of tyrosine phosphorylation in the regulation of epithelial cell Cl- secretion is unknown. Therefore, the purpose of these studies was to determine if tyrosine kinase activation was involved in the regulation of Cl- secretion, using the tyrosine kinase inhibitors, genistein and tyrphostin 47, and human intestinal epithelial cells (T84 cells) as an intestinal Cl- secretory model. Genistein rapidly but reversibly stimulated sustained apical Cl- secretion in monolayers of T84 cells without increasing intracellular cyclic nucleotides or Ca2+ levels. Tyrphostin 47 also stimulated Cl- secretion in T84 monolayers, although it was short-lived. Transfection experiments in 3T3 fibroblasts and IEC-6 intestinal cells utilizing wild-type cystic fibrosis transmembrane conductance regulator (CFTR) showed that genistein and tyrphostin 47 stimulated 125I efflux only in CFTR-transfected cells and not in CFTR-negative cells. Thus genistein- and tyrphostin 47-stimulated Cl- secretion involved CFTR. Genistein also acted synergistically with the Ca(2+)- and protein kinase C-dependent acetylcholine analogue, carbachol, to stimulate Cl- secretion in T84 monolayers. However, the Cl- secretory response to saturating concentrations of the adenosine 3',5'-cyclic monophosphate (cAMP) agonist, forskolin, or the guanosine 3',5'-cyclic monophosphate (cGMP) agonist, Escherichia coli heat-stable enterotoxin, was not further enhanced by genistein. Although the mechanism of activation of Cl- secretion is unclear, these data suggest that tyrosine kinase activity limits basal Cl- secretion in T84 cells and that inhibition of T84 cell tyrosine kinase(s) stimulates apical membrane Cl- secretion, most likely through activation of the CFTR-Cl- channel. Moreover, genistein does not itself act through cAMP or cGMP elevation but appears to share a common Cl- secretory pathway with cyclic nucleotide-dependent agonists, whereas it augments the secretory responses to a Ca(2+)- and protein kinase C-dependent agonist.

Detection of animal and human group B rotaviruses in fecal specimens by polymerase chain reaction.

A combined reverse transcriptase reaction-polymerase chain reaction (RT-PCR) was developed to achieve the sensitive detection of group B rotaviruses (GBR). Sequences derived from genomic segment 3 of the IDIR (intestinal disease of infant rats) strain of GBR permitted the detection of greater than or equal to 0.08 pg of purified IDIR genomic RNA (4,000 genome copies). Primers complementary to the terminal sequences of gene 11 of GBR strain ADRV (adult diarrhea rotavirus) allowed for the detection of as little as 0.008 pg of purified ADRV genomic RNA. Detection of heterologous strains of GBR was also observed with these primer pairs. IDIR gene 3 primers recognized greater than or equal to 8 pg of RNA from bovine GBR obtained from a variety of geographic locations. RNA from IDIR, but not bovine GBR, strains was detected by means of RT-PCR with ADRV gene 11 primers. Neither set of GBR primers was reactive in RT-PCR with fecal specimens containing group A rotaviruses or fecal specimens from uninfected controls. This RT-PCR assay permits the sensitive and specific detection of a variety of GBR in fecal specimens.

Detection of group B rotavirus in fecal specimens by dot hybridization with a cloned cDNA probe.

Cloned cDNA copies were synthesized from the genomic RNA of the IDIR strain of group B rotavirus (GBR) isolated in Baltimore, Md. These clones were screened for hybridization with heterologous GBR to identify cDNA for use in dot hybridization experiments. In multiple screening experiments, cDNA clones derived from gene segment 3 provided the most intense hybridization signals. 32P-labeled probes were produced from one of the gene 3 clones, and these were employed in dot hybridization assays. Purified preparations of bovine GBR were detected in concentrations of greater than or equal to 0.5 ng, and GBR was detected in fecal specimens obtained from five of six infected calves. Four of six human fecal specimens containing the Baltimore strain of GBR were also positive in the hybridization assay, while GBR was identified in only one of the six specimens by means of immunoelectron microscopy. A fecal specimen obtained from a patient infected with the adult diarrhea rotavirus strain of GBR was also positive in the dot hybridization assay. Fecal specimens from uninfected humans, calves, and rats, as well as specimens containing group A rotaviruses, did not hybridize with the cloned cDNA probe.