ABSTRACT
Cancer cells modify lipid metabolism to proliferate, Passiflora edulis ( P. edulis ) fruit juice (ZuFru) has antitumor activity, but whether a mechanism is through modulation of cell lipids is unknown. T o establish if ZuFru modifies cholesterol and triglycerides in SW480 and SW620. ZuFru composition was studied by phytochemical march; antiproliferative activity by sulforhodamine B, cholesterol , and triglycerides by Folch method. Z ufru contains anthocyanins, flavonoids, alkaloids , and tannins. Cell lines showed differences in their growth rate ( p =0.049). At 39.6 µg/m L of ZuFru, cell viability was decreased: SW480 (45.6%) and SW620 (45.1%). In SW480, cholesterol (44.6%) and triglycerides (46.5%) decreased; In SW620, cholesterol decreased 14.8% and triglycerides increased 7%, with significant differences for both lines. A ntiproliferative activity of ZuFru could be associated with the inhibition of intracellular biosynthesis of cholesterol and triglycerides in SW480. Action mechanisms need to be further investigated.
Las células cancerosas modifican el metabolismo lipídico para proliferar; el zumo de fruta (ZuFru) de Passiflora edulis ( P. edulis ) tiene activida d antitumoral, sin embargo, se desconoce si se involucran los lípidos celulares. E stablecer si ZuFru modifica colesterol y triglicéridos en células SW480 y SW620. C omposición del ZuFru, actividad antiproliferativa, colesterol y triglicéridos. Se encontraro n antocianinas, flavonoides, alcaloides y taninos. Las líneas celulares mostraron diferencias en su tasa de crecimiento ( p =0 . 049); ZuFru 39,6 µg/ml se disminuyó la viabilidad celular; SW480 (45,6%) y SW620 (45,1%); en SW480 colesterol (44,6%) y triglicérid os (46,5%) en SW620, colesterol (14,8%) y los triglicéridos aumentaron 7%, con diferencias significativas para ambas líneas. La actividad antiproliferativa del ZuFru podría estar asociada a la inhibición de la biosíntesis intracelular de colesterol y de tr iglicéridos en SW480, pero no en SW620. Estos mecanismos de acción deben ser fuertemente investigados.
Subject(s)
Anticarcinogenic Agents , Passiflora , Passifloraceae/metabolism , Triglycerides/physiology , Plant Extracts/pharmacology , Cholesterol/physiology , FruitABSTRACT
Cancer is the leading cause of death among individuals due to its poor prognosis. Various therapeutics treatments are available in form radiation therapy, chemotherapy, or immunotherapy but major point of concern is the treatment of cancer resistant cell lines. Homozygous loss of the p53 gene is virtually present in every type of cancer. Mutation in DNA binding domain of p53 leads to formation of mutant forms having altered amino acid sequence which lacks DNA binding activity. Berberine is chemo-sensitizing isoquinoline quaternary alkaloid molecule obtained from Berberis vulgaris. Berberine has the capability to suppress the growth of broad range of tumors. It exhibits pharmacological, biochemical and anticancer properties which can potentiate the activities of the existing therapeutics available in a way that it can re-sensitize the cancer resistant clones. Berberine has an immanent potential to bind with DNA and can communicate with several cellular targets, further it also shows hormetic effect which refers to biphasic dose response curve in order to determine dose dependent stimulatory and inhibitory effect. Mode of action involved is yet not well understood but mechanistic pathway involved are autophagy, up-regulation of tumor-suppressor gene (p53) and epigenetic alterations in the viral DNA. In this review, versatility of berberine can be utilized ideally or in combination with chemotherapeutics drugs to potentiate chemo sensitization of the resistant cancer cell line. Further, cancer cell specific receptor targeting can also be employed in combination with berberine for therapeutic treatment of metastasizing cancer cells.