Scaffold Morphing To Identify Novel DprE1 Inhibitors with Antimycobacterial Activity

Manjunatha M R; Radha Shandil; Manoranjan Panda; Claire Sadler; Anisha Ambady; Vijender Panduga; Naveen Kumar; Jyothi Mahadevaswamy; M Sreenivasaiah; Ashwini Narayan; Supreeth Guptha; Sreevalli Sharma; Vasan K Sambandamurthy; Vasanthi Ramachandran; Meenakshi Mallya; Christopher Cooper; Khisi Mdluli; Scott Butler; Ruben Tommasi; Pravin S Iyer; Shridhar Narayanan; Monalisa Chatterji; Pravin S Shirude

doi:10.1021/acsmedchemlett.9b00343

Scaffold Morphing To Identify Novel DprE1 Inhibitors with Antimycobacterial Activity

ACS Med Chem Lett. 2019 Sep 23;10(10):1480-1485. doi: 10.1021/acsmedchemlett.9b00343. eCollection 2019 Oct 10.

Authors

Manjunatha M R¹, Radha Shandil², Manoranjan Panda¹, Claire Sadler³, Anisha Ambady⁴, Vijender Panduga², Naveen Kumar², Jyothi Mahadevaswamy⁴, M Sreenivasaiah¹, Ashwini Narayan⁴, Supreeth Guptha⁴, Sreevalli Sharma⁴, Vasan K Sambandamurthy⁴, Vasanthi Ramachandran⁴, Meenakshi Mallya¹, Christopher Cooper⁵, Khisi Mdluli⁵, Scott Butler⁶, Ruben Tommasi⁶, Pravin S Iyer¹, Shridhar Narayanan⁴, Monalisa Chatterji⁴, Pravin S Shirude¹

Affiliations

¹ Department of Medicinal Chemistry, IMED Infection, AstraZeneca India, Bellary Road, Hebbal, Bangalore-560024, India.
² DMPK and Animal Sciences, IMED Infection, AstraZeneca, Bangalore-560024, India.
³ Safety Assessment, IMED, AstraZeneca, Alderly Park, Mereside, U.K.
⁴ Department of Biosciences, IMED Infection, AstraZeneca, Bangalore-560024, India.
⁵ Global Alliance TB, New York, New York 10005, United States.
⁶ Infection IMED, AstraZeneca, GHP, Waltham, Massachusetts 02451, United States.

Abstract

We report a novel benzimidazole (BI) based DprE1 inhibitor that resulted from scaffold morphing of a 1,4-azaindole series. The clinical progression of the 1,4-azaindole series from our previous work validates the potential of exploring newer chemical entities with antimycobacterial activity driven via a noncovalent inhibition of the decaprenylphosphoryl-β-d-ribose-2'-epimerase (DprE1). The representative compounds from the new scaffold reported in this study exhibited an improved solubility and higher free plasma fraction, while retaining potent DprE1 inhibition and antimycobacterial activity. A representative compound from the benzimidazole series demonstrated good efficacy in a murine model of tuberculosis. Furthermore, molecular modeling of the BI scaffold suggests plausible modes of binding in the active site of DprE1 enzyme from Mycobacterium tuberculosis that can be used for further exploration of the series.