Insights on the genetic features of endometrial pathogenic Escherichia coli strains from pyometra in companion animals: Improving the knowledge about pathogenesis.

Endometrial pathogenic E. coli (EnPEC) isolates are involved in endometrial infections in animals and humans. Besides the high aggressiveness of the endometrial infections, the EnPEC virulence profile and pathogenesis are still little known. In this study, we have sequenced and analyzed an EnPEC strain from canine pyometra (E. coli_LBV005/17), following a molecular characterization of the virulence profile and phylogenetic evolution of an EnPEC collection from canines and felines (45 strains). Most of the strains belonged to phylo-group B2, and display a high virulence profile. In particular we highlight the classification of the E. coli_LBV005/17 as sequence type 131 (ST131), in addition to other five strains, as observed by gyrB phylogenetic analysis. Also, the phylogenetic position of EnPEC strains from pyometra in companion animals suggests that their origins are from both extraintestinal and commensal E. coli strains. Accordingly to Principal Coordinates Analysis (PCoA) and phylogenetic analysis we can propose that EnPEC strains have neither the same genetic profile, nor a unique common ancestral. In summary, the present work characterize an EnPEC genome from bitch pyometra and the genetic profile of 45 EnPEC strains from companion animals pyometra, being the commonest virulence pattern: fimA, papC, hlyA, hlyE, cnf1, entB, iroN, irp1, bssS, bssR, and hmsP. These data improving the background knowledge of this E. coli pathotype related to pyometra in companion animals and may support new methods to prevent the disease evolution.

Anaerobic treatment of domestic sewage: established technologies and perspectives.

The use of anaerobic reactors for domestic sewage treatment has increased significantly since the UASB configuration started to be efficiently applied for this purpose in the beginning of the 1980s. Nowadays, hundreds of UASB reactors, or similar anaerobic units, are used in domestic sewage treatment systems, particularly in developing countries. These units have been operated at ambient temperature, normally higher than 20 degrees C, at hydraulic detention time in the range of 6 to 10 hours, and organic loading rates lower than 3.0 kg COD.m(-3).d(-1). They have presented COD removal efficiencies in the range of 65% to 80%. Besides, new configurations have been developed and assayed in research centres, aiming to amplify the range of application and to improve process performance. At the same time, research is being conducted on the post-treatment of anaerobic effluents attempting to offer alternatives to the existing conventional systems. It takes into consideration not only sanitation and environmental protection, but also considers resources conservation at lower construction and running costs as the main supporting concepts for further development. This text presents some aspects of the consolidated technologies and suggests on further developments in the conception of domestic sewage treatment systems having the anaerobic process as their core.