Antiproliferative Activity and GC−MS Analysis from the Leaves Extract of Different Cultivars Carica Papaya
by Saowanee Maungchanburi, Prakit Chaithada, Suthida Rattanaburi, Sakchaibordee Pinsrithong, Pritsana Raungrut, Sirirak Mukem and Uraiwan Phetkul
Journal
ASEAN Journal of Scientific and Technological Reports (AJSTR)
Volume
27
Issue
6 (November – December 2024)
Publisher
Thaksin University
ISSN
2773-8752 (Online)
Abstract
Papaya is the fruit of the Carica papaya plant.Several secondary metabolites from the Caricagenus have been reported to exhibit interesting biological activities.Its leaves are normally considered discarded.The research aimed to examine the antiproliferativeand antioxidanteffects of Carica papayaleaves from four different cultivars-Cocoa, Holland, Khaek Dam, and Red Ladyand evaluate the chemical composition of the extracts through GC−MS analysis. The MTT assay evaluated the antiproliferative activity of all extracts.Red Lady exhibited higher effectiveness against MCF-7, SW620, and Vero cell lines comparedto Khaek Dam, with IC50values of 90.88 ± 0.39, 258.45 ± 2.16, and 301.73 ± 0.73 μg/mL, respectively.Cocoa and Holland extracts showed no cytotoxic effects on the mentioned cell lines. Antioxidant activity, measured through DPPH radical scavenging assays, revealed that Red Lady had the highest antioxidant capacity (IC50163.87 μg/mL), followed by Khaek Dam, Cocoa, and Holland. As a result, the GC−MS analysis concentrated on the extractsof Lady and Khaek Dam. The chromatograms revealed that the extracts from Red Lady displayed 23 components, while those from Khaek Dam contained 22. The primary metabolite produced in Khaek Dam were n-hexadecanoic acid (17.53%), 1-heptadecanecarboxylicacid (6.86%), and loliolide (5.58%),while in Red Lady 9-octadecenamide(20.82%), n-hexadecanoicacid (8.26%), palmitoleamide (5.43%)were produced. This indicates a difference in the chemical composition between the two cultivars. It is clear from this study that the chosen species included a range of potent phytochemicalswith antiproliferative characteristics.