{"id":1714,"date":"2022-07-05T11:56:35","date_gmt":"2022-07-05T14:56:35","guid":{"rendered":"https:\/\/cib.udp.cl\/?post_type=publicacion&p=1714"},"modified":"2023-07-05T19:21:45","modified_gmt":"2023-07-05T22:21:45","slug":"the-essential-oils-from-laureliopsis-philippiana-posses-potential-antioxidant-antimicrobial-antitumoral-activity-and-chemical-composition","status":"publish","type":"publicacion","link":"https:\/\/cib.udp.cl\/en\/publicacion\/the-essential-oils-from-laureliopsis-philippiana-posses-potential-antioxidant-antimicrobial-antitumoral-activity-and-chemical-composition\/","title":{"rendered":"The essential oils from\u00a0Laureliopsis philippiana\u00a0posses potential: antioxidant, antimicrobial, antitumoral activity and chemical composition."},"content":{"rendered":"

Chilean\u00a0Laureliopsis philippiana<\/em>\u00a0has been used in traditional medicine by the Mapuche and their ancestors. To evaluate its pharmacological activity,\u00a0Laureliopsis philippiana<\/em>\u00a0leaf essential oil extract (LP_EO) was chemically and biologically characterized in the present study.\u00a0In vitro<\/em>\u00a0antioxidant<\/a>\u00a0potential was analyzed, and\u00a0antitumor activity<\/a>\u00a0was evaluated in non-tumor and tumor cell culture lines.\u00a0Caenorhabditis elegans<\/em>\u00a0was used as a model for evaluating toxicity, and the chemical\u00a0composition<\/a>\u00a0of the essential oil was analyzed using gas chromatography\u2013mass spectrometry. The oil contains six major\u00a0monoterpenes<\/a>: eucalyptol (27.7\u00a0%),\u00a0linalool<\/a>\u00a0(27.6\u00a0%), isozaphrol (19.5\u00a0%), isohomogenol (12.6\u00a0%), \u03b1-terpineol (7.7\u00a0%), and eudesmol (4.8\u00a0%). Based on quantum mechanical calculations,\u00a0isosafrole<\/a>\u00a0and isohomogenol conferred\u00a0in vitro<\/em>\u00a0antioxidant and antimicrobial activity to LP_EO. In addition, LP_EO showed antimicrobial activity against clinical\u00a0Helicobacter pylori<\/em>\u00a0isolates (MIC 64 and\u00a0MBC<\/a>\u00a0>\u00a0128\u00a0\u03bcg\u00b7mL\u22121<\/sup>),\u00a0Staphylococcus<\/em>\u00a0aureus (MIC 32 and MBC\u00a0>\u00a064\u00a0\u03bcg\u00b7mL\u22121<\/sup>),\u00a0Escherichia coli<\/em>\u00a0(MIC 8 and MBC 16\u00a0\u03bcg\u00b7mL\u22121<\/sup>) and\u00a0Candida albicans<\/em>\u00a0(MIC 64 and\u00a0>\u00a0128\u00a0\u03bcg\u00b7mL\u22121<\/sup>). LP_EO could selectively inhibit the proliferation of epithelial tumor cell lines but showed low toxicity against\u00a0Caenorhabditis elegans<\/em>\u00a0(0.39 to 1.56\u00a0\u03bcg\u00b7mL\u22121<\/sup>). Therefore, LP_EO may be used as a source of bioactive compounds in novel pharmacological treatments for veterinary and human application, cosmetics, or sanitation.<\/p>\n","protected":false},"featured_media":0,"template":"","class_list":["post-1714","publicacion","type-publicacion","status-publish","hentry","revista-arabian-journal-of-chemistry"],"acf":[],"_links":{"self":[{"href":"https:\/\/cib.udp.cl\/en\/wp-json\/wp\/v2\/publicacion\/1714","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/cib.udp.cl\/en\/wp-json\/wp\/v2\/publicacion"}],"about":[{"href":"https:\/\/cib.udp.cl\/en\/wp-json\/wp\/v2\/types\/publicacion"}],"wp:attachment":[{"href":"https:\/\/cib.udp.cl\/en\/wp-json\/wp\/v2\/media?parent=1714"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}