Abstract
HO-1 overexpression has been reported in several cases/types of human malignancies. Unfortunately, poor clinical outcomes are reported in most of these cases, and the inhibition of HO-1 is considered a valuable and proven anticancer approach. To identify novel hit compounds suitable as HO-1 inhibitors, we report here a fragment-based approach where ligand joining experiments were used. The two most important parts of the classical structure of the HO-1 inhibitors were used as a starting point, and 1000 novel compounds were generated and then virtually evaluated by structure and ligand-based approaches. The joining experiments led us to a novel series of indole-based compounds. A synthetic pathway for eight selected molecules was designed, and the compounds were synthesized. The biological activity revealed that some molecules reach the micromolar activity, whereas molecule 4d inhibits the HO-1 with an IC50 of 1.03 μM. This study suggested that our joining approach was successful, and a novel hit compound was generated. These results are ongoing for further development.
Highlights
Published: 10 December 2021Despite the several efforts accomplished by the scientific community, cancer still represents one of the most important causes of death worldwide
It has been widely reported that heme oxygenase (HO) plays a key role in tumor growth and aggressiveness [3,4,5,6]
Biliverdin is later converted into bilirubin by the biliverdin reductase enzyme
Summary
Published: 10 December 2021Despite the several efforts accomplished by the scientific community, cancer still represents one of the most important causes of death worldwide. Modulating the activity of novel biological targets implicated in tumor onset and progression is regarded as a valuable strategy to define novel and better antitumor therapies [2]. In this context, it has been widely reported that heme oxygenase (HO) plays a key role in tumor growth and aggressiveness [3,4,5,6]. Two main HO isoforms have been described Both isoforms possess a similar aminoacidic sequence and catalyze the same reaction but differ in their genetic origin, tissue distribution, and mechanism of induction [13]. HO-1, referred to as heat-shock protein 32, is basally expressed in high concentrations in the spleen and the Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
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