Abstract
Aspirin (ASA) has attracted wide interest of numerous scientists worldwide thanks to its chemopreventive and chemotherapeutic effects, particularly in colorectal cancer (CRC). Incorporation of selenium (Se) atom into ASA has greatly increased their anti-tumoral efficacy in CRC compared with the organic counterparts without the Se functionality, such as the promising antitumoral methylseleno-ASA analog (1a). Nevertheless, the efficacy of compound 1a in cancer cells is compromised due to its poor solubility and volatile nature. Thus, 1a has been formulated with native α-, β- and γ-cyclodextrin (CD), a modified β-CD (hydroxypropyl β-CD, HP-β-CD) and Pluronic F127, all of them non-toxic, biodegradable and FDA approved. Water solubility of 1a is enhanced with β- and HP- β-CDs and Pluronic F127. Compound 1a forms inclusion complexes with the CDs and was incorporated in the hydrophobic core of the F127 micelles. Herein, we evaluated the cytotoxic potential of 1a, alone or formulated with β- and HP- β-CDs or Pluronic F127, against CRC cells. Remarkably, 1a formulations demonstrated more sustained antitumoral activity toward CRC cells. Hence, β-CD, HP-β-CD and Pluronic F127 might be excellent vehicles to improve pharmacological properties of organoselenium compounds with solubility issues and volatile nature.
Highlights
Aspirin (ASA) is an extensively used drug for a variety of indications
Incorporation of selenium (Se) into nonsteroidal anti-inflammatory drugs (NSAIDs) has demonstrated to tremendously increase their anti-tumoral efficacy compared with the organic counterparts without the Se functionality [7,10,11,12]
We evaluated the (HP-β-CD) and γ-CD) and Pluronic F127, an amphiphilic block copolymer that forms core-shell cytotoxic potential of 1a toward colorectal cancer (CRC), both alone and encapsulated with CDs or Pluronic F127
Summary
Aspirin (ASA) is an extensively used drug for a variety of indications. ASA has attracted attention of numerous scientists worldwide owing to its promising chemopreventive and chemotherapeutic effects, against colorectal cancer (CRC) [1]. Several clinical studies have shown that low dose of ASA prevents CRC and reduces its incidence and risk of metastasis [2,3]. The long-term use of ASA is associated with severe gastrointestinal side effects. Numerous efforts have been made to optimize ASA in order to improve its efficacy [4,5,6,7,8,9]. The antitumoral efficacy of Se depends on the rate of its metabolic conversion to mono-methylated Se species, such as
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