Water-soluble pillar[5]arene sulfo-derivatives self-assemble into biocompatible nanosystems to stabilize therapeutic proteins

Dmitriy N Shurpik; Yulia I Aleksandrova; Olga A Mostovaya; Viktoriya A Nazmutdinova; Pavel V Zelenikhin; Evgenia V Subakaeva; Timur A Mukhametzyanov; Peter J Cragg; Ivan I Stoikov

doi:10.1016/j.bioorg.2021.105415

Water-soluble pillar[5]arene sulfo-derivatives self-assemble into biocompatible nanosystems to stabilize therapeutic proteins

Bioorg Chem. 2021 Dec:117:105415. doi: 10.1016/j.bioorg.2021.105415. Epub 2021 Oct 11.

Authors

Dmitriy N Shurpik¹, Yulia I Aleksandrova², Olga A Mostovaya², Viktoriya A Nazmutdinova², Pavel V Zelenikhin³, Evgenia V Subakaeva³, Timur A Mukhametzyanov², Peter J Cragg⁴, Ivan I Stoikov⁵

Affiliations

¹ Kazan Federal University, A.M. Butlerov Chemistry Institute, 420008 Kremlevskaya, 18, Kazan, Russian Federation. Electronic address: dnshurpik@mail.ru.
² Kazan Federal University, A.M. Butlerov Chemistry Institute, 420008 Kremlevskaya, 18, Kazan, Russian Federation.
³ Kazan Federal University, Institute of Fundamental Medicine and Biology, 420008 Kremlevskaya, 18, Kazan, Russian Federation.
⁴ School of Applied Sciences, University of Brighton, Huxley Building, Moulsecoomb, Brighton, East Sussex BN2 4GJ, UK.
⁵ Kazan Federal University, A.M. Butlerov Chemistry Institute, 420008 Kremlevskaya, 18, Kazan, Russian Federation. Electronic address: ivan.stoikov@mail.ru.

PMID: 34673453
DOI: 10.1016/j.bioorg.2021.105415

Abstract

Pillar[5]arenes containing sulfonate fragments have been shown to form supramolecular complexes with therapeutic proteins to facilitate targeted transport with an increased duration of action and enhanced bioavailability. Regioselective synthesis was used to obtain a water-soluble pillar[5]arene containing the fluorescent label FITC and nine sulfoethoxy fragments. The pillar[5]arene formed complexes with the therapeutic proteins binase, bleomycin, and lysozyme in a 1:2 ratio as demonstrated by UV-vis and fluorescence spectroscopy. The formation of stable spherical nanosized macrocycle/binase complexes with an average particle size of 200 nm was established by dynamic light scattering and transmission electron microscopy. Flow cytometry demonstrated the ability of macrocycle/binase complexes to penetrate into tumor cells where they exhibited significant cytotoxicity towards A549 cells at 10^-5-10^-6 M while maintaining the enzymatic activity of binase.

Keywords: A549 cells; Binase; Bleomycin; Lysozyme; Macrocyclic receptors; Pillar[5]arene.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

A549 Cells
Bleomycin / chemistry
Bleomycin / pharmacology
Calixarenes / chemistry*
Endoribonucleases / chemistry
Endoribonucleases / pharmacology
Excipients / chemistry*
Humans
Muramidase / chemistry
Muramidase / pharmacology
Protein Stability / drug effects
Proteins / chemistry*
Proteins / pharmacology
Quaternary Ammonium Compounds / chemistry*
Solubility
Water / chemistry

Substances

Excipients
Proteins
Quaternary Ammonium Compounds
pillar(5)arene
Water
Bleomycin
Calixarenes
Endoribonucleases
ribonuclease T(2)
Muramidase