Gallic Acid-Triethylene Glycol Aptadendrimers Synthesis, Biophysical Characterization and Cellular Evaluation

International audienceHerein, we describe the synthesis of an aptadendrimer by covalent bioconjugation of a gallic acid–triethylene glycol (GATG) dendrimer with the G-quadruplex (G4) AT11 aptamer (a modified version of AS1411) at the surface. We evaluated the loading and interaction of an acridine orange ligand, termed C8, that acts as an anticancer drug and binder/stabilizer of the G4 structure of AT11. Dynamic light scattering experiments demonstrated that the aptadendrimer was approximately 3.1 nm in diameter. Both steady-state and time-resolved fluorescence anisotropy evidenced the interaction between the aptadendrimer and C8. Additionally, we demonstrated that the iodine atom of the C8 ligand acts as an effective intramolecular quencher in solution, while upon complexation with the aptadendrimer, it adopts a more extended conformation. Docking studies support this conclusion. Release experiments show a delivery of C8 after 4 h. The aptadendrimers tend to localize in the cytoplasm of various cell lines studied as demonstrated by confocal microscopy. The internalization of the aptadendrimers is not nucleolin-mediated or by passive diffusion, but via endocytosis. MTT studies with prostate cancer cells and non-malignant cells evidenced high cytotoxicity mainly due to the C8 ligand. The rapid internalization of the aptadendrimers and the fluorescence properties make them attractive for the development of potential nanocarriers

Atlas municipal de mortalidade por cancro em Portugal e Espanha (2003–2012), AMOCAPE

El 'Atlas of Cancer Mortality in Portugal and Spain 2003–2012', muestra la distribución espacial de la mortalidad municipal por distintos tipos cáncer para el periodo 2003-2012. Ha sido desarrollado por la Unidad de Epidemiología del Cáncer y Ambiental del Centro Nacional de Epidemiología del ISCIII, que forma parte del CIBERESP, y por el Departamento de Epidemiología del Instituto Nacional De Saúde Doutor Ricardo Jorge de Portugal. El estudio de la distribución geográfica del riesgo de fallecer por cáncer es una de las herramientas que se usan en epidemiología para generar hipótesis sobre la posible implicación de factores ambientales en el origen de los tumores.This project is partially supported by research grant from the Spanish Health Research Fund (FIS) of the National Institute of Health Carlos III (ISCIII), Spain (Project PI17CIII/00040: “Spatial distribution of municipal cancer mortality in Spain (SICAMSA)” (“Distribución Espacial de la Mortalidad municipal por CÁncer en ESpaña (DEMOCAES)”).Introduction. Methods. Results: Oesophagus (ICD-10 C15) Stomach (ICD-10 C16) Colorectal (ICD-10 C18–C21) Pancreas (ICD-10 C25) Larynx (ICD-10 C32) Lung (ICD-10 C33–C34) Female Breast (ICD-10 C50) Prostate (ICD-10 C61) Bladder (ICD-10 C67) Leukaemia (ICD-10 C91–C95) References. Annexes: Annex I and Annex IIN