Antibacterial activity of supernatants of Lactoccocus lactis, Lactobacillus rhamnosus, Pediococcus pentosaceus and curcumin against Aeromonas hydrophila. In vitro study.

Secretions of beneficial intestinal bacteria can inhibit the growth and biofilm formation of a wide range of microorganisms. Curcumin has shown broad spectrum antioxidant, anti-inflammatory, and antimicrobial potential. It is important to evaluate the influence of these secretions with bioactive peptides, in combination with curcumin, to limit growth and inhibit biofilm formation of pathogenic bacteria of importance in aquaculture. In the present study, the supernatants of Lactoccocus lactis NZ9000, Lactobacillus rhamnosus GG and Pediococcus pentosaceus NCDO 990, and curcumin (0,1,10,25 and 50 µM) were used to evaluate their efficacy in growth, inhibition biofilm and membrane permeability of Aeromonas hydrophila CAIM 347 (A. hydrophila). The supernatants of probiotics and curcumin 1,10 and 25 µM exerted similar effects in reducing the growth of A. hydrophila at 12 h of interaction. The supernatants of the probiotics and curcumin 25 and 50 µM exerted similar effects in reducing the biofilm of A. hydrophila. There is a significant increase in the membrane permeability of A. hydrophila in interaction with 50 µM curcumin at two hours of incubation and with the supernatants separately in the same period. Different modes of action of curcumin and bacteriocins separately were demonstrated as effective substitutes for antibiotics in containing A. hydrophila and avoiding the application of antibiotics. The techniques implemented in this study provide evidence that there is no synergy between treatments at the selected concentrations and times.

Gonadotropin-Releasing Hormone Receptor Expression in Human Spinal Cord.

The expression of the gonadotrophin-releasing hormone receptor expression on pituitary gonadotrophs in humans is well characterized. In nervous system they have also been found in hippocampi and cerebral cortex. However, gonadotrophin-releasing hormone receptor expression in human spinal cord has not been reported. This study was to analyze the gonadotrophin-releasing hormone receptor expression in human spinal cord by immunohistochemistry, mRNAs by reverse transcriptase polymerase chain reaction, cDNA cloning and Western blot. The results show immunoreactive material to gonadotrophin-releasing hormone receptor in motoneurons of the spinal cord. Further, the study revealed that spinal cord expressed the gonadotrophin-releasing hormone receptor mRNA. The amplicon sequence corresponds to 100% of identity to GenBank. In Western blot, a band of 37 kDa were found in extracts of spinal cord and placenta as a control. In conclusion, human spinal cord expresses gonadotrophin-releasing hormone receptor analyzed through immunohistochemistry, the expression of its mRNA, cloning its cDNA and Western blot analysis. The presence of gonadotrophin-releasing hormone receptor in the spinal cord suggests the possibility of an extrapituitary functional role independent of reproductive system.