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From Structure to Function: The Promise of PAMAM Dendrimers in Biomedical Applications

Said Alamos-Musre, Daniel Beltrán-Chacana, Juan Moyano, Valeria Márquez‐Miranda, Yorley Duarte, Sebastián Miranda‐Rojas, Yusser Olguín, Juan A. Fuentes, Danilo González-Nilo, Carolina Otero

2025Pharmaceutics30 citationsDOIOpen Access PDF

Abstract

PAMAM dendrimers are distinguished by their capacity for functionalization, which enhances the properties of the compounds they transport, rendering them highly versatile nanoparticles with extensive applications in the biomedical domain, including drug, vaccine, and gene delivery. These dendrimers can be internalized into cells through various endocytic mechanisms, such as passive diffusion, clathrin-mediated endocytosis, and caveolae-mediated endocytosis, allowing them to traverse the cytoplasm and reach intracellular targets, such as the mitochondria or nucleus. Despite the significant challenge posed by the cytotoxicity of these nanoparticles, which is contingent upon the dendrimer size, surface charge, and generation, numerous strategies have been documented to modify the dendrimer surface using polyethylene glycol and other chemical groups to temporarily mitigate their cytotoxic effects. The potential of PAMAM dendrimers in cancer therapy and other biomedical applications is substantial, owing to their ability to enhance bioavailability, pharmacokinetics, and pharmacodynamics of active ingredients within the body. This underscores the necessity for further investigation into the optimization of internalization pathways and cytotoxicity of these nanoparticles. This review offers a comprehensive synthesis of the current literature on the diverse cellular internalization pathways of PAMAM dendrimers and their cargo molecules, emphasizing the mechanisms of entry, intracellular trafficking, and factors influencing these processes.

Topics & Concepts

DendrimerEndocytosisInternalizationEndocytic cycleDrug deliveryCytotoxicityNanotechnologyChemistryClathrinIntracellularCell biologyBiophysicsMaterials scienceBiochemistryCellBiologyIn vitroDendrimers and Hyperbranched PolymersRNA Interference and Gene DeliveryAdvanced biosensing and bioanalysis techniques