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1. JNJ-77242113, a highly potent, selective peptide targeting the IL-23 receptor, provides robust IL-23 pathway inhibition upon oral dosing in rats and humans.

Author

Fourie AM, Cheng X, Chang L, Greving C, Li X, Knight B, Polidori D, Patrick A, Bains T, Steele R, Allen SJ, Patch RJ, Sun C, Somani S, Bhandari A, Liu D, Huie K, Li S, Rodriguez MA, Xue X, Kannan A, Kosoglou T, Sherlock JP, Towne J, Holland MC, and Modi NB

Subjects

Animals, Humans, Rats, Administration, Oral, Male, Signal Transduction drug effects, Psoriasis drug therapy, Psoriasis chemically induced, Colitis drug therapy, Colitis chemically induced, Disease Models, Animal, Peptides pharmacology, Peptides administration & dosage, Female, Rats, Sprague-Dawley, Interleukin-23 metabolism, Receptors, Interleukin metabolism

Abstract

The interleukin (IL)-23 pathway is a pathogenic driver in psoriasis, psoriatic arthritis, and inflammatory bowel disease. Currently, no oral therapeutics selectively target this pathway. JNJ-77242113 is a peptide targeting the IL-23 receptor with high affinity (K D : 7.1 pM). In human cells, JNJ-77242113 potently and selectively inhibited proximal IL-23 signaling (IC 50 : 5.6 pM) without impacting IL-12 signaling. JNJ-77242113 inhibited IL-23-induced interferon (IFN)γ production in NK cells, and in blood from healthy donors and psoriasis patients (IC 50 : 18.4, 11 and 9 pM, respectively). In a rat trinitrobenzene sulfonic acid-induced colitis model, oral JNJ-77242113 attenuated disease parameters at doses ≥ 0.3 mg/kg/day. Pharmacologic activity beyond the gastrointestinal tract was also demonstrated. In blood from rats receiving oral JNJ-77242113, dose-dependent inhibition of ex vivo IL-23-stimulated IL-17A production was observed. In an IL-23-induced rat skin inflammation model, JNJ-77242113 inhibited IL-23-induced skin thickening and IL-17A, -17F and -22 gene induction. Oral dosing of JNJ-77242113 in healthy human volunteers inhibited ex vivo IL-23-stimulated IFNγ production in whole blood. Thus, JNJ-77242113 provided selective, systemic IL-23 pathway inhibition in preclinical models which translated to pharmacodynamic activity in healthy human volunteers, supporting the potential for JNJ-77242113 as a selective oral therapy for IL-23-driven immune-mediated diseases., (© 2024. The Author(s).)

Published

2024