공시 • Dec 02
Apogee Therapeutics Highlights Progress and Best-In-Class Potential of Novel Biologic Programs for I&I Diseases At 2024 Inaugural R&D Day Include
Apogee Therapeutics, Inc., Updated include positive interim results from the APG808 Phase 1 trial, data up to 12 months from the APG777 Phase 1 trial, details around the Company’s strategy for combinations in AD, asthma and COPD to deliver better efficacy and dosing regimens, and the expected significant commercial potential of its programs. Key opinion leaders, Emma Guttman-Yassky, M.D., Ph.D. and David Singh, M.D., FERS, FBPhS, will also discuss the current landscape and need for new treatment opportunities for patients living with I&I conditions. APG808 interim Phase 1 healthy volunteer trial results; The APG808 Phase 1 trial enrolled 32 healthy adult participants into four single-ascending dose (SAD) cohorts. Today, Apogee shared interim data from all four SAD cohorts with at least 3-months follow-up: APG808 demonstrated a potential best-in-class PK profile, including a half-life of approximately 55 days, supporting the potential for every 2- to 3- month maintenance dosing. Single doses of APG808 demonstrated a deep and sustained effect on pharmacodynamic (PD) markers out to approximately 3 months (longest follow-up available at time of data cut). APG808 was well tolerated across all dose groups. Apogee is also now evaluating APG808 in a Phase 1b trial in patients with asthma, with data expected in the first half of 2025. Accelerating a leading franchise in AD; Apogee is advancing multiple opportunities for best-in-class monotherapy and first-in-class combination approaches for the treatment of AD that could provide transformational dosing and efficacy compared to current approved and investigational biologics. APG777 is a novel, subcutaneous (SQ) extended half-life monoclonal antibody (mAb) targeting IL-13 with the potential for best-in-class efficacy and dosing compared to currently approved biologics. APG777 is being evaluated in an ongoing Phase 1 trial, which initiated in August 2023, and a global Phase 2 trial in AD, which initiated in May 2024. Today, Apogee provided updated data from its Phase 1 trial, which is now out to 12 months, including a half-life of 77 days, consistent safety with prior data and favorable PD profile showing near complete inhibition of pSTAT6 for up to 12 months after a single administration and sustained TARC inhibition. These latest data support the potential path for APG777 to be dosed annually, which could create yet another opportunity to disrupt the future $50B+ AD market that is currently served by therapies that require dosing every 2-4 weeks. The Phase 1 data continue to support Apogee’s ongoing Phase 2 trial of APG777 in patients with AD, demonstrating potential for improved clinical responses from greater exposures in induction and maintenance dosing of every 3- or 6-months. Based on strong enrollment in the Phase 2 trial to date, Apogee now expects to report 16-week topline data from Part A of the APG777 Phase 2 trial in mid-2025. The observed strong correlation between Phase 2 and Phase 3 data makes the 16-week induction data a key catalyst. Apogee plans to advance the development of APG777 in asthma and EoE, by initiating a Phase 1b trial in asthma in the first half of 2025, followed by a Phase 2b trial in asthma in the second half of 2025, and launching a Phase 2 trial in EoE in 2026. Raising the bar in AD and beyond via broader inhibition; Apogee plans to take a first-in-class combination approach to AD by targeting Types 1-3 inflammation potentially offering JAK-like inhibition without their associated safety concerns. This approach offers the potential for improved clinical responses over monotherapies and best-in-class dosing. APG777 + APG99; APG990 is a novel, SQ half-life extended mAb targeting OX40L, initially being developed for AD. OX40L is located further upstream in the inflammatory pathway than IL-13 and targeting it could have broader impact on the inflammatory cascade by inhibiting Type 1, Type 2 and Type 3 pathways. Apogee is evaluating APG990 in a Phase 1 healthy volunteer trial to establish safety, tolerability and PK profile, which would enable combination with APG777. The APG777 + APG990 coformulation has been shown to retain stability, injectability, and convenience of individual components. In preclinical studies it has demonstrated broad inhibition of Type 1, Type 2 and Type 3 inflammation with potential for better tolerability than JAK inhibitors. Pending APG990’s Phase 1 results expected in the first half of 2025, Apogee plans to initiate its first combination trial in 2025 – a Phase 1b trial designed to evaluate the safety, PK, PD and efficacy of the combination of APG777 and APG990 against DUPIXENT in approximately 50-75 patients with moderate-to-severe AD with readout expected in second half of 2026. Breaking through the efficacy ceiling in asthma and COPD; Apogee plans to take a combination approach to the treatment of asthma and COPD, leveraging mechanisms that address both central and local drivers of respiratory diseases, potentially enabling enhanced efficacy and extended dosing regimens. APG777 + APG33; APG333 is a novel, SQ extended half-life mAb targeting TSLP, a key driver of Type 2 and Type 3 inflammation in eosinophilic and non-eosinophilic conditions. A Phase 1 trial in healthy volunteers is planned to commence by the end of 2024, with data expected in the second half of 2025. In preclinical studies, the combination of APG777 + APG333 has been shown to drive broader and deeper inhibition of inflammation centrally with deeper impact on local airway responses compared to approved or in-development biologics, with the potential for a significantly less frequent dosing schedule. Apogee plans to evaluate APG777 and APG333 monotherapies in respective Phase 1b trials in patients with asthma in 2025 to support advancement into future combination trials in asthma and COPD.
