0000000000599802
AUTHOR
Kanjiro Miyata
Aggregation behavior of cationic nanohydrogel particles in human blood serum.
For systemic siRNA delivery applications, well-defined drug carriers are required that guarantee stability for both carrier and cargo. Among various concepts progressing in market or final development, cationic nanohydrogel particles may serve as novel transport media especially designed for siRNA-in vivo experiments. In this work, the interaction of nanohydrogel particles with proteins and serum components was studied via dynamic light scattering in human blood serum as novel screening method prior to applications in vivo. The formation of larger aggregates mostly caused by charge interaction with albumin could be suppressed by nanogel loading with siRNA affording a neutral zeta potential …
Size-dependent knockdown potential of siRNA-loaded cationic nanohydrogel particles.
To overcome the poor pharmacokinetic conditions of short double-stranded RNA molecules in RNA interference therapies, cationic nanohydrogel particles can be considered as alternative safe and stable carriers for oligonucleotide delivery. For understanding key parameters during this process, two different types of well-defined cationic nanohydrogel particles were synthesized, which provided nearly identical physicochemical properties with regards to their material composition and resulting siRNA loading characteristics. Yet, according to the manufacturing process using amphiphilic reactive ester block copolymers of pentafluorophenyl methacrylate (PFPMA) and tri(ethylene glycol)methyl ether m…
Sekundärstrukturbildung als Triebkraft für die Selbstorganisation reaktiver Polypept(o)ide: Steuerung von Größe, Form und Funktion kernvernetzter Nanostrukturen
Prazise Kontrolle uber Morphologie und Funktion polymerer Nanostrukturen im Rahmen der Selbstorganisation stellt nach wie vor eine Herausforderung im Feld der Material- und biomedizinischen Wissenschaften dar, insbesondere wenn unabhangige Kontrolle uber einzelne Partikeleigenschaften erwunscht ist. Hier wird uber Sekundarstruktur-gesteuerte Selbstorganisation von Nanostrukturen basierend auf amphiphilen Blockcopolypept(o)iden berichtet und eine Strategie zur bio-reversiblen Einstellung der Kernpolaritat und –funktion unabhangig von der Partikelpraparation vorgestellt. Der Peptiden eigene Prozess der Sekundarstrukturbildung erlaubt so die Herstellung spharischer und wurmartiger kernvernetzt…
Secondary-Structure-Driven Self-Assembly of Reactive Polypept(o)ides: Controlling Size, Shape, and Function of Core Cross-Linked Nanostructures.
Achieving precise control over the morphology and function of polymeric nanostructures during self-assembly remains a challenge in materials as well as biomedical science, especially when independent control over particle properties is desired. Herein, we report on nanostructures derived from amphiphilic block copolypept(o)ides by secondary-structure-directed self-assembly, presenting a strategy to adjust core polarity and function separately from particle preparation in a bioreversible manner. The peptide-inherent process of secondary-structure formation allows for the synthesis of spherical and worm-like core-cross-linked architectures from the same block copolymer, introducing a simple y…