ABSTRACT
Objective To prepare polymersomes (PSs) by block copolymers,evaluate their membrane structural stability,investigate the H+ transmembrane permeability of PSs and the impact of 1,4-dioxane and establish a foundation for drug encapsulation within polymersomes. Methods PSs were self-assembled by a block copolymer, PEG-PLGA, in a solvent solution. The pH-sensitive fluorescence probe HPTS was employed to examine the H+ transmembrane properties of PSs and compare them with PSs prepared using PBD-b-PEO, PS-b-PEO, and liposomes. The effect of varying concentrations of 1,4-dioxane on PSs’ membrane permeability properties was also investigated. Results The fluorescence excitation spectra of HPTS exhibited pH dependency, which showed a linear correlation between extravesicular H+ concentration and t1/2. Significant differences were observed in the membrane permeability capabilities of PSs with different membrane wall thicknesses. Compared to liposomes, the H+ transmembrane coefficients for the three types of PSs were reduced by 2.39×104, 3.38×104, and 5.48×108 times, respectively. 1,4-dioxane was found to modulate the permeability of PSs’ membranes, which displayed a concentration-dependent relationship. Conclusion PSs exhibited significantly lower membrane permeability compared to liposomes, indicating superior stability. 1,4-dioxane was identified as a modulator of PSs’ permeability, which offered potential for drug loading and release within PSs.
ABSTRACT
Objective To prepare and optimize the formulation of Albumin nanoparticles loading PROTAC molecule and observe the inhibition effect of nanoparticles on the proliferation and NAD+ metabolism of glioma cells. Methods Albumin nanoparticles loading NPT-B2 were prepared and characterized with a thermal driving method, and the prescription was optimized. An HPLC method was established to determine the content of NPT-B2. The proliferation inhibition of NPT-B2 and B2-BSA-NPs on U251 cells were investigated by the CCK8 method, and the degradation effects of NPT-B2 and B2-BSA-NPs on NAMPT in glioma cells were investigated by western blotting. Results The HPLC method was stable, with good linearity, precision, and recovery rate. The nanoparticles had a particle size of about 55.48 nm, a potential of about −12.9 mV, an encapsulation rate of about 94.74%, and a drug loading amount of about 8.61%. The IC50 of NPT-B2 on glioma cells was 61.16 nmol/L, which had a degradation effect on NAMPT. The IC50 of B2-BSA-NPs on glioma was 41.21 nmol/L, which had a very significant degradation effect on NAMPT. Conclusion Albumin nanoparticles loading PROTAC molecules were constructed. The prescription was optimized to improve the drug encapsulation rate, and the low water solubility of PROTAC molecule was improved, which had a significant inhibitory effect on the proliferation and NAD+ energy metabolism of glioma cells.