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[Dendrosomal curcumin induced apoptosis by suppression of pluripotency genes in 5637 bladder cancer cells]
Modares Journal of Medical Sciences, Pathobiology. 2013; 16 (1): 23-39
de Fa | IMEMR | ID: emr-132910
Bibliothèque responsable: EMRO
The anti-cancer properties of curcumin, a poliphenol extract from the rhizome of curry, has been confirmed by many investigators. However, low levels of uptake, tissue distribution and rapid metabolism has limited its application as an anti-cancer drug. This study is aimed at increasing curcumin's water solubility due to a biodegradable, neutral and non-toxic micellar nano-carrier called dendrosome. This study intends to evaluate the role of dendrosomal-curcumin [DNC] in bladder cancer cell growth. We performed the MTT assay, flow cytometry and Annexin V-FLUOS [as an apoptosis detection kit] to evaluate cell death. The genetic mechanism of DNC-induced apoptosis was accomplished by a study of the relative expressions of OCT4A, OCT4B1, SOX-2 and Nanog using real-time PCR. DNC-induced cell death complied with a time and dose-dependent paradigm in the 5637 cell line. Cell cycle analysis revealed that the number of cells increased in pre-G1 and gradually decreased in G1 and S phases. This showed the inhibitory property of dendrosomal-curcumin on DNA synthesis. Data from real-time PCR determined that expressions of OCT4A, OCT4B1, SOX-2 and Nanog could be related to 5637 cancer cell growth. Dendrosomal-curcumin significantly suppressed mRNA expression of the above mentioned genes [p<0.01]. The data showed that DNC induced apoptosis by suppression of pluripotency genes in 5637 bladder cancer cells, which confirmed the useful characteristic of nano-drug in bladder cancer therapy.
Sujet(s)
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Indice: IMEMR Sujet Principal: Suppression génétique / Tumeurs de la vessie urinaire / Mort cellulaire / Apoptose / Gènes langue: Fa Texte intégral: Modares J. Med. Sci., Pathobiol. Année: 2013
Recherche sur Google
Indice: IMEMR Sujet Principal: Suppression génétique / Tumeurs de la vessie urinaire / Mort cellulaire / Apoptose / Gènes langue: Fa Texte intégral: Modares J. Med. Sci., Pathobiol. Année: 2013