Evaluation of the Therapeutic Potential of Traditionally-Used Natural Plant Extracts to Inhibit Proliferation of a HeLa Cell Cancer Line and Replication of Human Respiratory Syncytial Virus (hRSV)
Author:
Brill Ellie N.1, Link Natalie G.1, Jackson Morgan R.1, Alvi Alea F.1, Moehlenkamp Jacob N.1, Beard Morgan B.1, Simons Adam R.1, Carson Linden C.1, Li Ray1, Judd Breckin T.1, Brasseale Max N.1, Berkman Emily P.1, Park Riley K.1ORCID, Cordova-Hernandez Sedna1, Hoff Rebecca Y.1, Yager Caroline E.1, Modelski Meredith C.1, Nenadovich Milica1ORCID, Sisodia Dhruvi1, Reames Clayton J.1, Geranios Andreas G.1, Berthrong Sean T.1, Wilson Anne M.2ORCID, Tietje Ashlee H.1ORCID, Stobart Christopher C.13ORCID
Affiliation:
1. Department of Biological Sciences, Butler University, 4600 Sunset Ave., Indianapolis, IN 46208, USA 2. Department of Chemistry and Biochemistry, Butler University, 4600 Sunset Ave., Indianapolis, IN 46208, USA 3. Interdisciplinary Program in Public Health, Butler University, 4600 Sunset Ave., Indianapolis, IN 46208, USA
Abstract
Traditional approaches employing natural plant products to treat a wide array of ailments have been documented and described for thousands of years. However, there remains limited scientific study of the therapeutic potential or effectiveness of ethnobotanical applications. Increases in the incidence of cancer and emerging infectious diseases demonstrate a growing need for advances in the development of therapeutic options. In this study, we evaluate the therapeutic potential of aqueous extracts prepared from four plants, purple aster (Symphyotrichum novae-angliae (L.) Nemsom), common sage (Salvia lyrata (L.)), northern spicebush (Lindera benzoin (L.) Blume), and lamb’s ear (Stachys byzantina (K.) Koch)) traditionally used in Native American medicine in Indiana, USA. Using a combination of cytotoxicity assays, immunofluorescence microscopy, and antiviral assays, we found that sage and spicebush extracts exhibit cytotoxic and antiproliferative effects on HeLa cell proliferation and that sage, spicebush, and aster extracts were capable of significantly inhibiting human respiratory syncytial virus (hRSV), a major respiratory pathogen of infants and the elderly. Chemical analysis of the four extracts identified four major compounds which were subsequently evaluated to identify the responsible constituents in the extracts. While none of the identified compounds were shown to induce significant impacts on HeLa cell proliferation, two of the compounds, (1S)-(-)-Borneol and 5-(hydroxymethyl)-furfural, identified in sage and spicebush, respectively, were shown to have antiviral activities. Our data suggest that several of the extracts tested exhibited either anti-proliferative or antiviral activity supporting future further analysis.
Funder
a Butler University Holcomb Awards Committee the Department of Biological Sciences and the Department of Chemistry and Biochemistry at Butler University
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