A first-in-class pan-lysyl oxidase inhibitor impairs stromal remodeling and enhances gemcitabine response and survival in pancreatic cancer.

James G. Kench ,Angela Chou ,Claire Vennin ,R. Scott Mead ,Michael Texler ,Angela Steinmann ,John V. Pearson ,Pamela Mukhopadhyay ,Mo Ballal ,Nan Q. Nguyen ,Mehrdad Nikfarjam ,Virginia Papangelis ,Ellie Mok ,Gretel Major ,Max Nobis ,Kátia Nones ,Yordanos F. Setargew ,Michelle Yam ,Rita T. Lawlor ,Vincenzo Corbo ,Cindy Forrest ,Neil D. Merrett ,Allan Spigellman ,Rhiannon D. Grant ,Chris Worthley ,Conrad Leonard ,Peter Grimison ,James R. Eshleman ,David B. Williams ,Nikolajs Zeps ,Andrew V. Biankin ,Sipiththa Velayuthar ,Lorraine A. Chantrill ,Amber Johns ,Oliver Holmes ,Peter Hodgkinson ,Christopher L. Wolfgang ,David Fletcher ,L Kenyon ,Charbel Sandroussi ,Andrew M. Da Silva ,Brett Charlton ,Nicola Waddell ,Kym Pham Stewart ,Adnan Nagrial ,Kaitlin Wyllie ,Wolfgang Jarolimek ,Tanya Dwarte ,Kynan Feeney ,Paul Timpson ,Alina Stoita ,Sharissa L. Latham ,Morghan C. Lucas ,Venkateswar Addala ,Audrey Nadalini ,Shona Ritchie ,Maria Beilin ,David K. Chang ,Emmi Tran ,Thomas O’rourke ,Brooke A. Pereira ,Joanna N. Skhinas ,Michael Tayao ,Jaswinder S. Samra ,Jennifer Arena ,Anaiis Zaratzian ,Kasim Ismail ,Katherine Tucker ,George Sharbeen ,Michael Papanicolaou ,Xanthe L. Metcalf ,Nigel B. Jamieson ,Lara Perryman ,Andrew P. Barbour ,Scott Wood ,Stephen H. Kazakoff ,Hilda High ,Michael Hatzifotis ,Sean M. Grimmond ,Alison D. Findlay ,Cecilia R. Chambers ,A. Blackwell ,Judy Kirk ,Aldo Scarpa ,Mehreen Arshi ,Kendelle J. Murphy ,Tatjana Schmitz ,Elysse C. Filipe ,Phoebe A. Phillips ,Stephan Dreyer ,Andrew D. Clouston ,Ruth Pidsley ,David R. Croucher ,Annabel Goodwin ,Peter H. Cosman ,Michael Trpceski ,Alice G. Russo ,Ann‐Marie Patch ,David Herrmann ,Susan J. Clark ,Amelia L. Parker ,Duncan Mcleo ,Thomas R. Cox ,Krishna Epari ,J. Fawcett ,Andrew Ruszkiewicz ,Gookjoo Jeong ,Victoria Lee ,Ray Asghari ,Lea Abdulkhalek ,Amitabha Das ,Felicity Newell ,Janett Stoehr ,Claudio Bassi ,Oliver Hofmann ,Sanjay Mukhedkar ,Jessica L. Chitty ,Jordan F. Hastings ,Lesley Andrews ,Marina Pajic ,Shivanjali Ratnaseelan ,Daniel A Reed ,Mark E. Brooke-Smith ,Anthony J. Gill ,Ralph H. Hruban ,John Chen ,Janet Youkhana ,Pauline Mélénec ,Nick Pavlakis ,Kellee Slater

doi:10.1038/s43018-023-00614-y

Abstract

The lysyl oxidase family represents a promising target in stromal targeting of solid tumors due to the importance of this family in crosslinking and stabilizing fibrillar collagens and its known role in tumor desmoplasia. Using small-molecule drug-design approaches, we generated and validated PXS-5505, a first-in-class highly selective and potent pan-lysyl oxidase inhibitor. We demonstrate in vitro and in vivo that pan-lysyl oxidase inhibition decreases chemotherapy-induced pancreatic tumor desmoplasia and stiffness, reduces cancer cell invasion and metastasis, improves tumor perfusion and enhances the efficacy of chemotherapy in the autochthonous genetically engineered KPC model, while also demonstrating antifibrotic effects in human patient-derived xenograft models of pancreatic cancer. PXS-5505 is orally bioavailable, safe and effective at inhibiting lysyl oxidase activity in tissues. Our findings present the rationale for progression of a pan-lysyl oxidase inhibitor aimed at eliciting a reduction in stromal matrix to potentiate chemotherapy in pancreatic ductal adenocarcinoma.

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