This is a randomized, double-blind, active- and placebo-controlled, parallel group, multicenter study to evaluate the efficacy and safety of induction and maintenance JNJ-78934804 therapy in participants 18 to 65 years of age (inclusive, at the time of consent), with moderately to severely active UC as determined by a modified Mayo score ≥5 and a final reported endoscopy subscore ≥2 obtained during the central review of the screening video endoscopy. Participants must also have demonstrated an inadequate initial response, loss of response, or intolerance to ≥1 approved ADT (advanced therapy inadequate responder [ADT-IR]). Overall, the study will evaluate 48 weeks of therapy with JNJ-7893480. The primary objective of the study is to evaluate the efficacy of JNJ-78934804 at Week 48
compared with each monotherapy (guselkumab alone and golimumab alone).
5-aminosalicylic acid (5-ASA) medications are first line treatment for mild to moderate Ulcerative Colitis (UC), comprise 81% of all UC prescriptions, and have a market share of 1.5 billion. However, despite 5-ASA frequency and optimization, 35% of patients fail induction therapy and 52% of patients fail to maintain remission at 12 months, requiring step up therapy to immunomodulators or biologics which have increased side effects and cost. This highlights a key challenge in UC which is to address the large inter- and intrapatient variabilities in both disease progression and variability in response to treatment. Chronotherapy is the timing of medical interventions according to the host circadian rhythms in order to optimize drug response and minimize toxicity, and is one explanation for the large variability in response to medications. The long-term objective of our research is to establish the hypothesis that is that appropriate time of day of administration of oral, once daily 5-ASA therapy in alignment with the host circadian rhythms will improve subclinical inflammation and microbial structure/function and increase mucosal 5-ASA levels. To test this hypothesis, In
response to the small R01 for pilot and feasibility clinical trials (PAS-20-160) and to test our hypothesis, we propose to conduct a six month, single center, randomized crossover pilot trial involving 60 subjects with inactive UC [Mayo score ≤2, endoscopic score 0-1] but subclinical inflammation [stool calprotectin > 50 mcg/g] on a stable dose of once daily 5-ASA medication. All subjects will be randomized to once daily 5-ASA medications two different times of the day: either between 06:00 – 10:00 h or 18:00 – 22:00 h. Three disease assessments will performed at: 1) enrollment just before randomization; 2) month 3, at the completion of first arm (condition 1), and 3) month 6, after completion of the second arm (condition 2). We will assess time impact of our chronotherapy protocol on: 1) subclinical inflammation (Aim 1): a) stool calprotectin; b) intestinal barrier integrity; and c) endoscopic/histology scores; 2) Microbiota: mucosal and stool microbiota structure and function (Aim 2); and 3) 5-ASA metabolism: a) increase mucosal levels of 5-ASA and b) mucosal NAT activity (Aim 3). In addition, optimal 5-ASA treatment (i.e., Aims 1-3) will depend upon host chronotype which will be monitored by validated questionnaires, rest-wake actigraphy, and urinary melatonin. The results of this innovative proposal will establish a key role for chronotherapy in the treatment of UC and provide pilot data for the future larger multicenter clinical trials. Chronotherapy will allow for a personalized medicine approach that incorporates circadian biology to improve efficacy and minimize intolerance in treatment of UC.