International Journal of Pharmacology1811-77751812-5700Asian Network for Scientific Information10.3923/ijp.2021.606.610Xanthoparmelia tasmanica and Flavopunctelia flaventior]]>Caramantin SorianoMaria de PilarMartino-CruzDiana JudithCuyubambaElena Alicia Condor--PalomoOlaf De LeonValdezEzequiel Viveros-82021178Background and Objective: Lichens are widely used in the traditional medicine of various cultures, highlighting the systematic use of these by pre-Columbian cultures of South America. In this context, the present study intended to describe the antimicrobial activity against Gram-positive and Gram-negative bacteria in addition to in vitro enzymatic inhibition by extracts from the Peruvian lichens Xanthoparmelia tasmanica and Flavopunctelia flaventior.Materials and Methods:The antibacterial activity was evaluated by the broth microdilution method to determinate the Minimum Inhibitory Concentrations (MIC) against Staphylococcus aureus, Enterococcus faecalis, Listeria monocytogenes, Bacillus cereus, Micrococcus luteus, Escherichia coli, Salmonella typhimurium and Pseudomonas aeruginosa as well as their inhibitory effect on α-glucosidase and α-amylase. Results: The extracts induced a powerful biocidal effect against Gram-positive bacteria, the most susceptible bacterial strain was Micrococcus luteus (MIC = 6.25 μg mL1). The extract of F. flaventior showed the highest effect on the inhibition of the α-glucosidase and α-amylase with an IC50 of 0.34±0.09 and 0.57±0.17 mg mL1, respectively, the amylase inhibition was better than that produced by acarbose (0.97±0.08 mg mL1). Conclusion: Current results demonstrated the potent antibacterial activity of lichen in extracts from X. tasmanica and F. flaventior, besides, inhibit carbohydrate digestive enzymes. These properties may be utilized to treat postprandial hyperglycemia and regulate glycemia in diabetic patients.]]>Spribille, T., V. Tuovinen, P. Resl, D. Vanderpool and H. Wolinski et al.,2016353488492Allen, J.L., R.T. McMullin, E.A. Tripp and J.C. Lendemer,20192831033138Molnar, K. and E. Farkas,201065157173Thadhani, V.M. and V. Karunaratne,20172017Solárová, Z., A. Liskova, M. Samec, P. Kubatka, D. Büsselberg and P. Solár,20202020Cocchietto, M., N. Skert, P. Nimis and G. Sava,200289137146Zugic, A., V. Tadic and S. Savic,20202020Alós, J.I.,201533692699Giedraitiene, A., A. Vitkauskiene, R. Naginiene and A. Pavilonis,20112011Solomon, S.L. and K.B. Oliver,201489939941CMuller, K.,200156916Ranković, B. and M. Mišić,2008Cladonia furcata, Ochrolechia androgyna, Parmelia caperata and Parmelia conspresa.]]>2008Cho, N.H., J.E. Shaw, S. Karuranga, Y. Huang, J.D. da Rocha Fernandes, A.W. Ohlrogge and B. Malanda,2018138271281Saeedi, P., I. Petersohn, P. Salpea, B. Malanda and S. Karuranga et al.,2019th edition.]]>2019Raskin, P.R., P.A. Hollander, A. Lewin, R.A. Gabbay, B. Bode and A.J. Garber,2007185662Asano, N.,20031393R104Tundis, R., M.R. Loizzo and F. Menichini,201010315331Kekuda, T.R.P., D. Lavanya and R. Pooja,20199665676Vinayaka, K.S., S. Karthik, K.C. Nandini and P.T.R. Kekuda,20135225228Verma, N., B.C. Behera and B.O. Sharma,201240721Rodríguez, Rodríguez, E.F., A.M.R. Ordaya, E.A. Izquierdo, L.P. Velásquez, S.L. González, and R.A. Tocas,201724497522Viveros-Valdez, E., C. Rivas-Morales, A. Oranday-Cardenas, M.J. Verde-Star and P. Carranza-Rosales,2011Hedeoma drummondii against opportunistic pathogens.]]>14305307Garcia-Davis, S., M. Munoz-Ochoa, C. Rivas-Morales and E. Viveros-Valdez,2018Suberites aurantiacus.]]>18152157Gómez-Serranillos, M.P., C. Fernández-Moriano, E. González-Burgos, P.K. Divakar and A. Crespo,201445901759047Zhang, G., T.C. Meredith and D. Kahne,201316779785Candan, M., M. Yılmaz, T. Tay, M. Kıvança and H. Türk,200661319323Rodríguez, O.E.A, W.A.B. Andrade, F.E.L. Díaz and B. Moncada,2015134764Karunaratne, V., V.M. Thadhani, S.N. Khan and M.I. Choudhary,2014Cladonia species from Sri Lanka.]]>429598