1 research outputs found
Biodegradable Micellar HPMA-Based Polymer–Drug Conjugates with Betulinic Acid for Passive Tumor Targeting
Here, we present the synthesis, physicochemical,
and preliminary
biological characterization of micellar polymer-betulinic acid (BA)
conjugates based on <i>N</i>-(2-hydroxypropyl)methacrylamide
(HPMA) copolymer carriers, enabling the controlled release of cytotoxic
BA derivatives in solid tumors or tumor cells. Various HPMA copolymer
conjugates differing in the structure of the spacer between the drug
and the carrier were synthesized, all designed for pH-triggered drug
release in tumor tissue or tumor cells. The high molecular weight
of the micellar conjugates should improve the uptake of the drug in
solid tumors due to the Enhanced permeability and retention (EPR)
effect. Nevertheless, only the conjugate containing BA with methylated
carboxyl groups enabled pH-dependent controlled release in vitro.
Moreover, drug release led to the disassembly of the micellar structure,
which facilitated elimination of the water-soluble HPMA copolymer
carrier from the body by renal filtration. The methylated BA derivative
and its polymer conjugate exhibited high cytostatic activity against
DLD-1, HT-29, and HeLa carcinoma cell lines and enhanced tumor accumulation
in HT-29 xenograft in mice