1 research outputs found
Molecular Size, Shape, and Electric Charges: Essential for Perylene Bisimide-Based DNA Intercalator to Localize in Cell Nuclei and Inhibit Cancer Cell Growth
The molecular properties concerning
size, shape, and electric charges of the planar aromatic DNA intercalators
are still poorly understood. Herein, a series of water-soluble perylene
bisimide (PBI) derivatives containing a rigid and planar aromatic
nanoscaffold with different size, shape, and electric charges were
synthesized. Using histochemistry and cell viability assays on animal
tissues and cancer cells, we revealed the molecular properties required
for successful DNA intercalators to localize in cell nuclei and inhibit
cancer cells. Small molecular size and the strong polarity of hydrophilic
substituents are prerequisites for PBI-based DNA intercalators. A
large number of charges facilitate the nucleic accumulation of these
DNA intercalators, while fewer charges and planar aromatic nanoscaffold
more efficiently inhibit cancer cell growth