Abstract
A novel conjugate of docetaxel and biotin (designated as IDD-1010) was designed and chemically synthesized via an ester linkage at position 2’ carbon in docetaxel. The synthesized pure IDD-1010 exhibits a potent anti-cancer activity in in vitro and in vivo studies. At 10 nM, IDD-1010 has induced increased apoptosis and mitotic arrest of PC3-Luc prostate cancer cells, causing aneuploidy and cell death at higher concentrations. Toxicology studies indicate that the maximal tolerated dose (MTD) of IDD-1010 is 150 mg/kg in mice; equivalent to about 12.2 mg/kg of body weight, or to about an 850 mg dose for a patient weighing 70 kg. The MTD-treated mice exhibited weight gain similar to that of the control group, with no gross pathological signs at 14 days post-dosing. At a lower dose, IDD-1010 treatment did not lead to any significant weight loss in mice, although decreased the tumor volume stemming from injecting cancer cells into the dorsal loop of mouse prostate, and it was found to be more potent than Paclitaxel (reference drug). Similarly, IDD-1010 treatment significantly reduced tumor weight and thereby increased the percentage of mice survival as compared to reference drug-treated and control groups. To summarize, the described experiments using IDD-1010, as compared to the reference drug, strongly suggest a potential treatment utility with a wider therapeutic window for prostate cancer. Henceforth, clinical research on such a novel drug candidate would be greatly worthwhile.
Highlights
Cancer is considered one of the primary global diseases that lead to morbidity and mortality of millions of people worldwide
The first taxane to be discovered is Paclitaxel, which was first isolated from the tree bark of the Pacific yew, Taxus brevifolia in the sixties of the 20th century
The Chemical biotin component through of the ester bondcompound with biotin
Summary
Cancer is considered one of the primary global diseases that lead to morbidity and mortality of millions of people worldwide. Due to its recurrence following chemotherapy treatment, pharmaceutical industries are racing and competing for developing new anticancer agents that have no limitations of adverse reactions or side effects [1,2], aiming to produce more efficient treatment that leads to improved patients’ quality of life [3]. Since nature is considered the best source of drugs, researchers tend to focus more on natural plants and animal products to search for possible cancer cures [4,5,6,7,8,9]. Over the past three decades, taxanes, which are natural diterpenoid substances occurring in yew plants, have been among the most prominent anticancer agents for treating various malignancies.
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