Figure 2 from Safety and Antitumor Activity of a Novel aCD25 Treg Depleter RG6292 as a Single Agent and in Combination with Atezolizumab in Patients with Solid Tumors

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posted on 2025-03-10, 08:40 authored by Valentina Gambardella, Michael Ong, Maria E. Rodriguez-Ruiz, Jean-Pascal Machiels, Miguel F. Sanmamed, Vladimir Galvao, Anna Spreafico, Daniel J. Renouf, Stephen J. Luen, Rachel Galot, Bernard Doger de Spéville, Emiliano Calvo, Aung Naing, Samira Curdt, Theresa Maria Kolben, Eva Rossmann, Tamara Tanos, Kevin Smart, Maria Amann, Yuying Xie, Linxinyu Xu, Enrique Gomez Alcaide, Nicolas Städler, Nicole Justies, Christophe Boetsch, Vaios Karanikas, Gabriel Schnetzler, Kristoffer S. Rohrberg

A, Simulation plots: The PK/PD model was used to simulate both RG6292 and FOXP3⁺ Treg levels following a range of doses. The simulations were based on the population parameters from the PK/PD model and were summarized (median) by analyte (green, non-Tregs; orange, Tregs) and dose. The solid lines represent the median, the shaded areas span the 5th and 95th percentiles, and the horizontal dashed lines represent 50% (red), 75% (magenta), and 90% (blue) change from baseline. B, Therapeutic window plot: fraction of simulated patients with RG6292 trough concentration in plasma above the EC₅₀ for non-Tregs vs. the fraction of simulated patients with RG6292 trough concentration in tumor above the EC₅₀ for Tregs, colored by dose.

History

ARTICLE ABSTRACT

Therapeutic depletion of immunosuppressive regulatory T cells (Treg) may overcome resistance to cancer immunotherapies. RG6292 is an anti-CD25 antibody that preferentially depletes Tregs while preserving effector T-cell functions in preclinical models. The safety, pharmacokinetics, pharmacodynamics, and antitumor efficacy of selective Treg depletion by RG6292 administered as monotherapy or in combination with atezolizumab were evaluated in two phase I studies. Adult patients with advanced solid tumors were administered intravenous RG6292, given every 3 weeks alone (study 1: NCT04158583, n = 76) or with 1,200 mg atezolizumab every 3 weeks (study 2: NCT04642365, n = 49). Both studies included dose escalation and expansion parts to determine the maximum tolerated dose and recommended phase II dose. RG6292 was well tolerated. Pruritus and rash were the most frequent adverse events and were manageable with supportive treatment. Serum RG6292 levels increased dose proportionally, independent of the atezolizumab combination. RG6292 induced a sustained dose-dependent depletion of peripheral Tregs with no apparent effect on other immune cells. Evidence of intratumoral Treg reduction (≥50% vs. baseline) was observed at RG6292 doses of 35 to 100 mg. The maximum tolerated dose was 165 mg every 3 weeks, and the recommended phase II dose was proposed as 70 mg every 3 weeks. Objective responses were limited to three partial responses in patients receiving RG6292 combined with atezolizumab. RG6292 induced a dose-dependent peripheral blood and measurable intratumoral Treg depletion in concordance with the proposed mode of action; however, clinical efficacy as a single agent or combined with atezolizumab was insufficient to warrant further exploration in this population. RG6292 (vopikitug) targets CD25 (IL-2Rα) and mediates regulatory T-cell depletion while not interfering with IL-2 signaling. Peripheral and intratumoral Treg depletion was shown in two phase I studies. However, RG6292 alone or in combination with atezolizumab was insufficient to reverse and rescue from established resistance mechanisms in solid tumors.