[COX-2 and HO-1 are involved in the delayed preconditioning elicited by bradykinin in rat hearts].

Objective: To investigate whether cyclooxygenase-2 (COX-2) and heme oxygenase-1 (HO-1) are involved in the bradykinin-induced delayed protection.

Methods: Cardiac contractility, lactate dehydrogenase (LDH) and infarct area were analyzed in isolated rat hearts undergoing ischemia-reperfusion injury induced by Langendorff method.

Result: Conscious rats received bradykinin (40 microg/kg), and the isolated hearts were subjected to 30 min of regional ischemia and 120 min of reperfusion 24 h later.

Analysis of nucleotide sequences and multimeric forms of a novel satellite RNA associated with beet black scorch virus.

The full-length sequence of a satellite RNA (sat-RNA) of Beet black scorch virus isolate X (BBSV-X) was determined. This agent is 615 nucleotides long and lacks extensive sequence homology with its helper virus or with other reported viruses. Purified virus particles contained abundant single-stranded plus-sense monomers and smaller amounts of dimers.

N-methyl-N'-nitro-N-nitrosoguanidine sensitivity, mutator phenotype and sequence specificity of spontaneous mutagenesis in FEN-1-deficient cells.

Intact pZ189 DNA was allowed to replicate in FL-FEN-1(-) cell line that was established in this laboratory in which the expression of FEN-1 gene was blocked by dexamethasone-inducible expression of antisense RNA to FEN-1. E. coli MBM7070 was transfected with the replicated plasmid, and those with mutations in the supF gene were identified.

Establishment of Cell Line with the FEN-1 Gene Blocked by Its Antisense.

FEN-1 is a structure-specific endo/exonuclease, which is involved in the process of both DNA duplication and DNA repair. In this work a mammalian expression vector expressing antisense FEN-1 gene fragment pMAMneoAmp(-)FNB(-) was constructed, after cloning the NcoI-BamHI fragment of FEN-1 gene into the mammalian expression vector pMAMneoAmp(-) in antisense orientation. After FL cell was transfected with pMAMneoAmp(-)FNB(-) and selected by G418, the FL-FEN-1(-) cell line, in which the FEN-1 gene expression was blocked, was established.

The Influence of FEN-1 Gene on Cell Cycle and Genetic Stability.

FEN-1 is essential in the cell replication, repair and in the maintenance of cellular genetic stability. In this report, it was verfied that FEN-1 antisense mRNA fragment was expressed in the cell line FL-FEN-1(-),constructed in our lab, blocking FEN-1 gene expression. It was found by the flow cytometer analysis that the cell cycle of FL-FEN-1(-) cells was delayed in the S-phase DNA synthesis process and arrested in G(1) phase.