Enhancement of Tumor Cell Death by Combining gef Gene Mediated Therapy and New 1,4-Benzoxazepin-2,6-Dichloropurine Derivatives in Breast Cancer Cells
Metadatos
Afficher la notice complèteAuteur
Ramírez, Alberto; Conejo García, Ana; Griñán Lisón, Carmen; López Cara, Luisa Carlota; Jiménez, Gema; Campos Rosa, Joaquín María; Marchal Corrales, Juan Antonio; Boulaiz Tassi, HouriaEditorial
Frontiers in Pharmacology
Materia
gef gene 1,4-benzoxazepin-2,6-dichloropurine breast cancer combined therapy Gene therapy
Date
2018-07-26Referencia bibliográfica
Ramírez A, Conejo-García A, Griñán-Lisón C, López-Cara LC, Jiménez G, Campos JM, Marchal JA and Boulaiz H (2018) Enhancement of Tumor Cell Death by Combining gef Gene Mediated Therapy and New 1,4-Benzoxazepin-2,6-Dichloropurine Derivatives in Breast Cancer Cells. Front. Pharmacol. 9:798. doi: 10.3389/fphar.2018.00798
Patrocinador
European Commission (AC-G Marie Curie Programme MERG-CT-2005-030616); Fundación Mutua Madrileña by the proyect FMM-AP16683-2017; Consejería de Salud Junta de Andalucía (PI-0089-2017); Chair “Doctors Galera-Requena in cancer stem cell research"Résumé
New treatment modalities are urgently needed to better manage advanced breast cancer. Combination therapies are usually more effective than monotherapy. In this context, the use of cyclic and acyclic O, N-acetals derivative compounds in combination with the suicide gef gene shown a potent anti-tumor activity and represent a new generation of anticancer agents. Here, we evaluate the use of the gef gene to promote and increase the anti-tumor effect of cyclic and acyclic O, N-acetals purine derivatives and elucidate their mechanisms of action. Among all compounds tested, those with a nitro group and a cyclic pattern structures (FC-30b2, FC-29c, and bozepinib) are the most benefited from the gef gene effect. These compounds, in combination with gef gene, were able to abolish tumor cell proliferation with a minimal dose leading to more effective and less toxic chemotherapy. The effect of this combined therapy is triggered by apoptosis induction which can be found deregulated in the later stage of breast cancer. Moreover, the combined therapy leads to an increase of cell post-apoptotic secondary necrosis that is able to promote the immunogenicity of cancer cells leading to a successful treatment. This data suggests that this novel combination therapy represents a promising candidate for breast cancer treatment.