How Does the Study MD of pH-Dependent Exposure of Nanoparticles Affect Cellular Uptake of Anticancer Drugs?

Abstract: The lack of knowledge about the uptake of NPs by biological cells poses a significant problem for drug delivery. For this reason, designing an appropriate model is the main challenge for modelers. To address this problem, molecular modeling studies that can describe the mechanism of cellular uptake of drug-loaded nanoparticles have been conducted in recent decades. In this context, we developed three different models for the amphipathic nature of drug-loaded nanoparticles (MTX-SS-γ-PGA), whose cellular uptake … Show more

“…Extracellular pH distribution in human tumors is maintained in the range of 6.4–7.0, although highly acidic tumors with a pH of 5.6 are also reported [ 16 ]. Various strategies have been employed to target the slightly acidic pH of tumors, such as pH-sensitive polymers [ 17 , 18 ], pH-triggered ionized materials, and pH-triggered drug release mechanisms [ [19] , [20] , [21] ], however, the problem of strictly selective nanomaterials delivery remains unresolved.…”

Albumin incorporation into recognising layer of HER2-specific magnetic nanoparticles as a tool for optimal targeting of the acidic tumor microenvironment

“…Extracellular pH distribution in human tumors is maintained in the range of 6.4–7.0, although highly acidic tumors with a pH of 5.6 are also reported [ 16 ]. Various strategies have been employed to target the slightly acidic pH of tumors, such as pH-sensitive polymers [ 17 , 18 ], pH-triggered ionized materials, and pH-triggered drug release mechanisms [ [19] , [20] , [21] ], however, the problem of strictly selective nanomaterials delivery remains unresolved.…”

Albumin incorporation into recognising layer of HER2-specific magnetic nanoparticles as a tool for optimal targeting of the acidic tumor microenvironment

Room-temperature hydrogen bonding and high-temperature rearrangement towards high-performance flame-retardant aliphatic polyamide