The role of Escherichia coli in the pathogenesis of the puerperal uterine infection of the cow is largely unknown. It is proposed that E. coli favors the persistence of Arcanobacterium pyogenes and gram-negative bacteria that are pivotal to the establishment of the infection. Here, we report the genomic and phenotypic characteristics of 72 E. coli isolates recovered from the uterus of dairy cows with normal puerperium (n = 12; 35 isolates) or clinical metritis (n = 18; 37 isolates), in an attempt to identify characteristics that are related to the establishment of uterine infection. We evaluated DNA fingerprints generated by repetitive element sequence-based PCR, phylogenetic grouping, the presence of 15 virulence factor genes, in vitro biofilm formation and its relationship to curli fimbriae expression, and cellulose production. We found a wide genetic diversity (40 clonal types), including types common to normal puerperium and clinical metritis cows (n = 6), as well as types specific to normal puerperium (n = 14) or clinical metritis (n = 20) cows. Isolates were assigned to phylogenetic groups B1 (58%), A (31%), and D (11%). Only 4 virulence factor genes were detected (hlyE, hlyA, iuc, and eaeA). In vitro biofilm formation was significantly affected by culture medium and incubation temperature. Curli fimbriae expression and cellulose production, although related to biofilm formation, were not required for it. None of the evaluated E. coli characteristics were significantly related to the establishment of the uterine infection. In conclusion, data presented in this paper indicate that E. coli isolates recovered from the uterus of puerperal cows present a wide genetic diversity, do not belong to a known pathogenic group, and have a low potential of virulence and persistence. This corroborates the putative role of the bacterium in the pathogenesis of the puerperal uterine infection of the cow.
The spatial and temporal variation of macroinvertebrate assemblages was studied in two Portuguese commercial rice agroecosystems under the effect of field management involving the application of pesticides and fertilizers. A faunal succession of organisms was observed on both fields. Grazers were the first to colonize the paddies after a dry period when pesticides were applied, followed by development into nymphs and by an increase in the abundance of the species after the application of fertilizers. At the end of the season when no pesticides or fertilizers were applied, the communities changed with the presence of adult predators as a result of an increase in prey. Insecticide application revealed specific taxa increase due to the lack of competition with the target organism. Macroinvertebrates tended to prefer infested field margins with aquatic, submerged vegetation, revealing a spatial distribution along the paddies. Two different sampling devices were used and proved necessary in documenting the macroinvertebrate communities (grab for benthic and hand-net for pelagic organisms).
a b s t r a c tThe potential terrestrial toxicity of three pesticides, azoxystrobin, chlorothalonil, and ethoprophos was evaluated using reproduction ecotoxicological tests with different non-target species: the collembolan Folsomia candida, the earthworm Eisenia andrei, and the enchytraeid Enchytraeus crypticus. All reproduction tests were performed with natural soil from a Mediterranean agricultural area (with no pesticide residues) in order to improve the relevance of laboratory data to field conditions. Controls were performed with natural and standard artificial soil (OECD 10% OM). The fungicide azoxystrobin showed the highest toxicity to earthworms (EC 50 = 42.0 mg a.i. kg −1 dw soil). Collembolans were the most sensitive taxa in terms of sublethal effects of chlorothalonil with an EC 50 of 31.1 mg a.i. kg −1 dw soil followed by the earthworms with an EC 50 of 40.9 mg a.i. kg −1 dw soil. The insecticide ethoprophos was the most toxic to collembolans affecting their reproduction with an EC 50 of 0.027 mg a.i. kg −1 dw soil. Enchytraeids were generally the least sensitive of the three species tested for long-term effects. Earthworms were not always the most sensitive species, emphasizing the need to increase the number of mandatory assays with key non-target organisms in the environmental risk assessment of pesticides.
Pro-inflammatory stimuli, such as endotoxins released by Gram-negative bacteria, are potent stimulators of prostaglandin (PG) synthesis. The aim of this study was to evaluate the gene transcription pattern of PG synthesis enzymes in normal (anestrous, n = 6 and diestrous, n = 8) and pyometra (n = 7) endometria of bitches. Uteri were collected during routine ovariohysterectomy, processed for histopathological evaluation and uterine contents cultured. Gene transcription of COX-1, COX-2, mPGES-1 and PGF-synthase (PGFS) were evaluated by relative real-time PCR and normalized with the ribosomal protein L27 (RPL27) housekeeping gene. Normal uteri had no histological abnormalities and were negative for bacteriology. All pyometra uteri were hyperplasic and Escherichia coli was the only isolated bacterium. Except for COX-1, gene transcription was significantly higher in pyometra than in normal endometria. No significant differences in gene transcription were observed between normal diestrous and anestrous endometria. COX-2 gene transcription was 19 and 69 times higher in pyometra than in diestrous and anestrous endometria (p < 0.001), while PGFS gene transcription had a 3- and 600-fold increase in pyometra endometria compared to normal diestrous and anestrous endometria (p < 0.001). Gene transcription of mPGES-1 was 9 times higher in pyometra than in normal uteri (p < 0.01). Based on these results, we suggest that pyometra-associated E. coli endotoxin release stimulates the up-regulation of COX-2 PGFS and mPGES-1 gene transcription in the endometrium.
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