PEGylated Triacontanol Substantially Enhanced the Pharmacokinetics of Triacontanol in Rats

Asymmetrically PEGylated and amphipathic heptamethine indocyanine dyes potentiate radiotherapy of renal cell carcinoma via mitochondrial targeting

Enhancing the sensitivity of radiotherapy (RT) towards renal cell carcinoma (RCC) remains a challenge because RCC is a radioresistant tumor. In this work, we design and report asymmetrically Polyethylene Glycol (PEG)ylated and amphipathic heptamethine indocyanine dyes for efficient radiosensitization of RCC treatment. They were synthesized by modifying different lengths of PEG chains as hydrophilic moieties on one N-alkyl chain of a mitochondria-targeting heptamethine indocyanine dye (IR-808), and a radiosensitizer 2-nitroimidazole (NM) as a hydrophobic moiety on another N-alkyl chain. The PEG modification significantly improved water solubility, decreased the intermolecular π-π large aggregates, thereby enhanced renal excretion. The asymmetrical and amphipathic modification enhanced the preferential accumulation in renal tumors through self-assembly into small-size nanoparticles in aqueous environment. Radiosensitization was further improved by preferential accumulation in renal tumor cells and their mitochondria as mitochondria play a crucial role in rapid cancer cell growth, metastasis, and RT resistance. Additionally, the modification also increased the abilities of fluorescence emission and photostability, which is meaningful for imaging-guided precise RCC RT. Therefore, our findings may present a theranostic radiosensitizer for renal tumor-targeted imaging and radiosensitization.

PEGylation of Chrysin Improves Its Water Solubility while Preserving the In Vitro Biological Activity

Chrysin is a natural flavonoid that despite having numerous biological properties, its therapeutic value is limited due to its very low solubility in aqueous media. In this work, chrysin was conjugated with methoxypolyethylene glycols (mPEGs) of different molecular weights (350, 500, 750, and 2000 g/mol), affording PEGylated chrysins with high yields and excellent purities. In all cases, an increase in the water solubility of the conjugates was observed, which was highest when 500 g/mol of mPEG was used in the PEGylation reaction. Furthermore, in aqueous solution, PEGylated chrysins formed aggregates of ellipsoid shape. Electrochemical studies showed that the redox properties were conserved after PEGylation. While in vitro antibacterial and antifungal studies probed that the intrinsic activity was conserved, in vitro antitumor activities against HepG2 (liver carcinoma cells) and PC3 (prostate cancer cell) showed that PEGylated chrysins retained the cytotoxic activity and the ability of induction of apoptosis for the evaluated human cancer cells.