Vall d’Hebron University Hospital and Institute of Oncology (VHIO), CIBERONC, TTD Group, Barcelona, Spain
Guillem Argiles , Christiane Jungels , Rocio Garcia-Carbonero , Marc Diez Garcia , Johanna C. Bendell , Josep Tabernero , Mohamed Bekradda , Jeroen Lammerts van Bueren , Kees Bol , Viktoriya Stalbovskaya , Szabolcs Fatrai , Arjen Brinkman , Ernesto Wasserman , Antoine Hollebecque
Background: The WNT and EGFR signaling pathways are oncogenic and mitogenic drivers in CRC and other cancers. MCLA-158 is an ADCC enhanced human IgG1 cLC bispecific antibody identified from functional screening of CRC patient (pt)-derived organoids (PDO). MCLA-158 exposure leads to EGFR degradation in LGR5+ cancer and exhibits potent growth inhibition of RASmut and wt CRC PDOs, while minimal inhibition is observed in non-tumoral PDOs. Blockade of metastasis initiation was seen in preclinical in vivo models. MCLA-158 also demonstrated tumor regression or stasis in esophageal squamous (6/6) and gastric adenocarcinoma (6/8) PDX models selected for LGR5 and EGFR expression. Methods: Metastatic CRC pts progressing after oxaliplatin, irinotecan and fluoropyrimidines, and EGFR monoclonal antibodies if RASwt, received MCLA-158 IV every 2 weeks (q2w; 4-week cycle) in a phase I study. Safety, efficacy (per RECIST 1.1), PK and ADA were assessed. WNT and EGFR pathway components were evaluated in tumor tissue. EGFR pathway mutations (ctDNA) and soluble EGFR (sEGFR) were assessed in blood. PDOs were derived from baseline biopsies and assessed for MCLA-158 responsiveness. Results: As of 7 September 2020, 33 pts were treated over 11 dose levels (5 to 1500 mg, flat dose). At enrollment, median age was 58 years (range 35-76), ECOG PS 0/1:22/11, and 15 pts were RASmut. Pts had a median of 3 metastatic sites (range 1-12) with a median of 4 prior lines of therapy (range 1-10). A median of 2 MCLA-158 cycles (range 1-6) were administered. No dose limiting toxicity occurred. Infusion-related reactions were the most common AEs (67% of pts), occurred mostly in cycle 1 (21/22 pts), and were manageable. Other common related AEs included rash acneiform (36%), diarrhea (15%), pyrexia (9%) and asthenia/fatigue (9%). Related AEs were mostly mild or moderate; G3 related AEs were IRRs (4 pts; 12%), diarrhea and hypophosphatemia (1 pt each). The RP2D (1500 mg) was selected based on safety, PK and receptor occupancy prediction. MCLA-158 exhibited target-mediated clearance with proportional PK from 750 mg (t1/2 ~80 h at 1500 mg). Low ADA titers were seen in 3/23 pts, with no effect on PK. Target saturation is predicted at steady state serum trough levels. No clinical responses were observed during dose escalation. No/low baseline tumor EGFR expression (0-1+ IHC) was observed in 17/30 pts and non-elevated sEGFR levels ( < 4 ng/mL) in 18/22 pts. More than 1 activating mutation in EGFR signaling pathway genes were identified in ctDNA from 10/20 pts. 1/4 PDOs had > 30% growth inhibition with MCLA-158 ex vivo. MCLA-158 activity on PDOs correlated negatively with the presence of EGFR pathway resistance-mutations. Conclusions: Dual EGFR/LRG5 blockade with MCLA-158 was well tolerated, and the RP2D was 1500 mg IV q2w. Enrollment of pts with gastric and other non-CRC cancers at the RP2D continues in the expansion phase. Clinical trial information: NCT03526835
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