2 research outputs found
pH-Induced Charge-Reversal Amphiphile with Cancer Cell-Selective Membrane-Disrupting Activity
A charge-reversal
amphiphile exhibiting charge conversion from negative to positive
induced by pH is reported. It selectively kills cancer cells through
cell membrane disruption. This amphiphile comprising an alkyl chain
and anionic headgroup of acid-labile β-carboxylic amide (C16N-DCA)
was prepared. In the microenvironment of normal cells with pH 7.4,
the negatively charged C16N-DCA exhibited considerably reduced cytotoxicity.
However, in the acidic microenvironment of cancer cells with pH 6.5–6.8,
the headgroup charge of C16N-DCA changed from negative to positive
under hydrolysis of the acid-labile amide group. As a result, the
generated cationic amphiphile displayed significant killing of cancer
cells by disrupting their cell membranes. Such pH-selective cell killing
bioactivity represents a new route of chemotherapy for anticancer
strategies
Supramolecular Vesicles Based on Complex of Trp-Modified Pillar[5]arene and Galactose Derivative for Synergistic and Targeted Drug Delivery
Supramolecular Vesicles Based on Complex of Trp-Modified
Pillar[5]arene and Galactose Derivative for Synergistic and Targeted
Drug Deliver