Philippine Journal of Science
149 (2): 463-468, June 2020
ISSN 0031 – 7683
Date Received: 08 Jan 2020

 

Feasibility of Cyclodextrin-Potassium Ion Assemblies Synthesis and Its Application in Loading Bio-active Molecules

 

Yomkippur Perez and Gilbert Yu*

 

Department of Chemistry, School of Science and Engineering
Ateneo de Manila University, Quezon City 1108 Philippines

 

*Corresponding author: gyu@ateneo.edu

 

[Download]
Perez Y, Yu G. 2020. Feasibility of Cyclodextrin-Potassium Ion Assemblies Synthesis and Its Application in Loading Bio-active Molecules. Philipp J Sci 149(2): 463–468. https://doi.org/10.56899/149.02.19

 

 

ABSTRACT

In the study, colorless cubic crystals of “green” cyclodextrin (CD)-based assemblies were synthesized and their potential to load bio-active molecules such as drugs and, separately, enzymes were investigated. Busulfan (Bu), an anti-cancer drug widely used to treat chronic myelogenous leukemia (CML), was used as a test drug while trypsin and lipase were used as model enzymes. These porous CD-K+ ion assemblies were prepared by dissolving alkali metal salts and γ-CD in water followed by vapor diffusion in varying solvents for several days. Crystals were activated via dichloromethane dispersion and in vacuo drying. Slow vapor diffusion with ethanol was found to give the highest yield and fastest crystallization time among all the solvents used. The materials synthesized using ethanol were characterized to be cubic crystals with sizes ranging from 100–1000 μm that are stable up to 250 °C. Loading of Bu (%S) onto the CD-K+ ion assemblies and co-crystallization with trypsin (%N) were both successful, as confirmed by elemental analysis. Loading studies of Bu performed using thermogravimetric analysis (TGA) confirmed about 5 wt% loading in the porous materials.