Pharmacological and Chemical Study to Identify Wound-Healing Active Compounds in Ageratina pichinchensis

Abstract The aerial parts of Ageratina pichinchensis are used in Mexican traditional medicine for the treatment of skin wounds. Recently, it was demonstrated that the aqueous extract of this plant reduced the time required to cicatrize a wound induced in the rat. The same extract showed a capability to induce overgrowth in normal fetal lung cells (MRC-5). The objective of the present study was isolating and identifying the active compounds in A. pichinchensis that are capable of inducing cellular overgrowth, as well as performing a preliminary evaluation of their anti-inflammatory and toxic effects. By means of bioguided chemical separation of an aqueous extract of A. pichinchensis, the most active compound capable of inducing cellular overgrowth was identified as 7-O-(β-D-glucopyranosyl)-galactin. In vivo inflammation induced with carrageenan in mice was significantly reduced by the aqueous extract of A. pichinchensis, reaching a decrease of up to 60.6 %. Acute (2 g/kg) and subchronic (1 g/kg for 28 days) oral administration of the aqueous extract of this plant did not affect hepatic function (through alanine aminotransferase and aspartate aminotransferase activity evaluation), while no alterations of the histologic samples of liver and kidney were evidenced.

[1]  J. Tortoriello,et al.  Exploratory study on the effectiveness of a standardized extract from Ageratina pichinchensis in patients with chronic venous leg ulcers. , 2012, Planta medica.

[2]  J. Gertsch,et al.  Botanical drugs, synergy, and network pharmacology: forth and back to intelligent mixtures. , 2011, Planta medica.

[3]  J. Tortoriello,et al.  Effect on the wound healing process and in vitro cell proliferation by the medicinal Mexican plant Ageratina pichinchensis. , 2011, Planta medica.

[4]  L. V. Williams,et al.  Tissue repair and the dynamics of the extracellular matrix. , 2004, The international journal of biochemistry & cell biology.

[5]  M. Ríos,et al.  Antifungal activities of nine traditional Mexican medicinal plants. , 2003, Journal of ethnopharmacology.

[6]  C. Masuet-Aumatell,et al.  Sleep apnea-hypopnea syndrome: risk factors in children and adolescents; a systematic review , 2001 .

[7]  H. Kikuzaki,et al.  Identification, quantitative determination, and antioxidative activities of chlorogenic acid isomers in prune (Prunus domestica L. ). , 2000, Journal of agricultural and food chemistry.

[8]  J. Rankin Biological mediators of acute inflammation. , 2004, AACN clinical issues.

[9]  Chun-yang,et al.  A New Flavonol Diglycoside from Pyrrosia petiolosa , 2003 .

[10]  J. Douros,et al.  Current status of the NCI plant and animal product program. , 1982, Journal of natural products.

[11]  T. Mabry,et al.  The flavonoids of tetragonotheca (compositae) , 1978 .