Ácidos hidroxicinámicos en producción animal: farmacocinética, farmacodinamia y sus efectos como promotor de crecimiento. Revisión

Use of natural source additives in animal production is increasingly important because they potentially promote growth in ways similar to synthetic compounds, such as anabolic hormones and antibiotics, but without risks to animal or consumer health or degrading meat quality. Encompassing a wide variety of compounds extracted from different plant parts, natural origin additives can be administered as essential oils, mixtures of compounds or isolated compounds to function as medicinal remedies or dietary supplements. Phenolic compounds are widely used and include hydroxycinnamic acids, present in a variety of vegetables, fruits and grains. These acids exhibit interesting bioactivities such as antioxidant, antimicrobial, prevention of cardiovascular diseases and immunomodulation. Use of hydroxycinnamic acids in animal production is currently limited but may hold promise in promoting growth. Before this can occur further research is needed on their pharmacokinetics and pharmacodynamics, posology, exposition period and effects, as well as their possible metabolic routes and biotransformation in animal organisms. This review covers inclusion of hydroxycinnamic acids in livestock diets, their pharmacokinetic properties and pharmacodynamics, and findings on their effects in promoting growth and improving meat quality.El uso de aditivos de origen natural en producción animal ha tomado gran importancia en el sector pecuario, debido a su potencial de promover el crecimiento de una forma similar a los compuestos sintéticos como hormonas y antibióticos, pero sin causar posibles daños a la salud del animal, del consumidor o detrimento en la calidad de la carne. En los aditivos de origen natural existe una amplia variedad de compuestos, que son extraídos de distintas partes de las plantas, donde se toman ciertos aceites esenciales, mezclas de compuestos o compuestos aislados para utilizarse como remedios medicinales o suplementos alimenticios. Dentro de estos extractos, se encuentran los ácidos hidroxicinámicos, presentes en una gran variedad de vegetales, frutas y granos; los cuales presentan interesantes propiedades bioactivas como son, antioxidantes, antimicrobianos, preventivos de enfermedades cardiovasculares e inmunomoduladores. El uso de este tipo de aditivos en producción animal aún es limitado, pero se sugiere que su inclusión puede ser favorable como una estrategia para promover el crecimiento; sin embargo, dos aspectos importantes a estudiarse en los ácidos hidroxicinámicos es su farmacocinética y farmacodinamia, y a partir de allí establecer las condiciones de dosis, períodos de uso y efectos, además las posibles rutas y biotransformaciones que pueden ocurrir en el organismo animal. Esta revisión discute sobre la inclusión de ácidos hidroxicinámicos en dietas de animales de engorda, propiedades farmacocinéticas y farmacodinamias, y los hallazgos como promotores de crecimiento y sus efectos en la calidad de la carne

Inhibition of the CYP Enzymatic System Responsible of Heterocyclic Amines Bioactivation by an <i>Asclepias subulata</i> Extract

Asclepias subulata plant extract has previously demonstrated antiproliferative activity and antimutagenicity against heterocyclic aromatic amines (HAAs) commonly found in cooked meat. The objective of this work was to evaluate the in vitro ability of an ethanolic extract from the medicinal plant Asclepias subulata extract (ASE), non-heated and heated (180 °C), to inhibit the activity of CYP1A1 and CYP1A2, which are largely responsible for HAAs bioactivation. Ethoxyresorufin and methoxyresorufin O-dealkylation assays were performed in rat liver microsomes exposed to ASE (0.002–960 µg/mL). ASE exerted an inhibitory effect in a dose-dependent manner. The half inhibitory concentration (IC50) for unheated ASE was 353.6 µg/mL and 75.9 µg/mL for heated ASE in EROD assay. An IC40 value of 288.4 ± 5.8 µg/mL was calculated for non-heated ASE in MROD assay. However, after heat treatment, the IC50 value was 232.1 ± 7.4 µg/mL. Molecular docking of corotoxigenin-3-O-glucopyranoside, one of the main components of ASE, with CYP1A1/2 structure, was performed. Results show that the interaction of corotoxigenin-3-O-glucopyranoside with CYP1A1/2s’ α-helices, which are related with the active site and the heme cofactor, may explain the plant extract’s inhibitory properties. Results showed that ASE inhibits CYP1A enzymatic subfamily and may potentially act as a chemopreventive agent by inhibiting bioactivation of promutagenic dietary HAAs

Antagonistic Activity of Bacteriocin-like Inhibitory Substances from <i>Enterococcus lactis</i> Isolated from the Surface of Jalapeno Pepper against Foodborne Pathogens

Lactic acid bacteria (LAB) can produce peptides known as bacteriocins with antagonistic activity against foodborne pathogens. The potential of LAB isolated from the surface of jalapeno peppers to produce bacteriocins with antagonistic activity against Listeria monocytogenes, Staphylococcus aureus, Escherichia coli O157:H7, and Salmonella Typhimurium was evaluated. Previously isolated LAB strains were reactivated, and their cell-free supernatants (CFSs) were evaluated. Out of 390 reactivated strains, 60 produced bacteriocin-like inhibitory substances (BLIS) since their antagonistic activity was lost after proteases addition. Subsequently, 16 BLIS showed heat resistance (HR-BLIS), retaining their bioactivity after heat treatment (121 °C for 15 min). By 16S rRNA gene sequencing and antibiotic susceptibility tests, LAB strains producing HR-BLIS were identified as Enterococcus lactis. Four HR-BLIS exhibited a minimum inhibitory concentration (MIC) of 80 mg/mL against L. monocytogenes. MIC and minimum bactericidal concentration (MBC) of HR-BLIS-67 for S. aureus (MIC = 80 mg/mL; MBC = 320 mg/mL), S. Typhimurium (MIC = 150 mg/mL; MBC = 250 mg/mL), and E. coli O157:H7 (MIC = 250 mg/mL; MBC = 400 mg/mL) were determined. LAB isolated from the surface of jalapeno pepper produced HR-BLIS (possibly enterocin) that exhibited broad-spectrum antagonistic activity against foodborne pathogens; therefore, they are a promising source of natural antimicrobials to ensure food safety