Scientific Reports (May 2022)

An inhibitor of RORγ for chronic pulmonary obstructive disease treatment

  • Harshada Desai,
  • Megha Marathe,
  • Varada Potdar,
  • Prabhakar Tiwari,
  • Ashwini Joshi,
  • Sheetal R. Kadam,
  • Arti Rajesh Joshi,
  • Abhay Kulkarni,
  • Vikram Bhosale,
  • Avinash Hadambar,
  • Bhavik Lodhiya,
  • Venkatesha Udupa,
  • Dayanidhi Behera,
  • Sachin S. Chaudhari,
  • Sanjib Das,
  • Malini Bajpai,
  • Nagaraj Gowda,
  • Pravin S. Iyer

DOI
https://doi.org/10.1038/s41598-022-12251-z
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 15

Abstract

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Abstract The role of RORγ as a transcription factor for Th17 cell differentiation and thereby regulation of IL-17 levels is well known. Increased RORγ expression along with IL-17A levels was observed in animal models, immune cells and BAL fluid of COPD patients. Increased IL-17A levels in severe COPD patients are positively correlated with decreased lung functions and increased severity symptoms and emphysema, supporting an urgency to develop novel therapies modulating IL-17 or RORγ for COPD treatment. We identified a potent RORγ inhibitor, PCCR-1 using hit to lead identification followed by extensive lead optimization by structure–activity relationship. PCCR-1 resulted in RORγ inhibition with a high degree of specificity in a biochemical assay, with > 300-fold selectivity over other isoforms of ROR. Our data suggest promising potency for IL-17A inhibition in human and canine PBMCs and mouse splenocytes with no significant impact on Th1 and Th2 cytokines. In vivo, PCCR-1 exhibited significant efficacy in the acute CS model with dose-dependent inhibition of the PD biomarkers that correlated well with the drug concentration in lung and BAL fluid, demonstrating an acceptable safety profile. This inhibitor effectively inhibited IL-17A release in whole blood and BALf samples from COPD patients. Overall, we identified a selective inhibitor of RORγ to pursue further development of novel scaffolds for COPD treatment.