Kymhuynh Pham

Abstract H3K27M-mutant diffuse midline gliomas (DMGs) express high levels of the disialoganglioside GD2 (ref. 1 ). Chimeric antigen receptor-modified T cells targeting GD2 (GD2-CART) eradicated DMGs in preclinical models 1 . Arm A of Phase I trial no. NCT04196413 (ref. 2 ) administered one intravenous (IV) dose of autologous GD2-CART to patients with H3K27M-mutant pontine (DIPG) or spinal DMG (sDMG) at two dose levels (DL1, 1 × 10 6 kg − 1 ; DL2, 3 × 10 6 kg −1 ) following lymphodepleting chemotherapy. Patients with clinical or imaging benefit were eligible for subsequent intracerebroventricular (ICV) intracranial infusions (10–30 × 10 6 GD2-CART). Primary objectives were manufacturing feasibility, tolerability and the identification of maximally tolerated IV dose. Secondary objectives included preliminary assessments of benefit. Thirteen patients enroled, with 11 receiving IV GD2-CART on study ( n = 3 DL1 (3 DIPG); n = 8 DL2 (6 DIPG, 2 sDMG)). GD2-CART manufacture was successful for all patients. No dose-limiting toxicities occurred on DL1, but three patients experienced dose-limiting cytokine release syndrome on DL2, establishing DL1 as the maximally tolerated IV dose. Nine patients received ICV infusions, with no dose-limiting toxicities. All patients exhibited tumour inflammation-associated neurotoxicity, safely managed with intensive monitoring and care. Four patients demonstrated major volumetric tumour reductions (52, 54, 91 and 100%), with a further three patients exhibiting smaller reductions. One patient exhibited a complete response ongoing for over 30 months since enrolment. Nine patients demonstrated neurological benefit, as measured by a protocol-directed clinical improvement score. Sequential IV, followed by ICV GD2-CART, induced tumour regressions and neurological improvements in patients with DIPG and those with sDMG.

H3K27M-mutant diffuse midline gliomas (DMGs) express high levels of the GD2 disialoganglioside and chimeric antigen receptor modified T-cells targeting GD2 (GD2-CART) eradicate DMGs in preclinical models. Arm A of the Phase I trial NCT04196413 administered one IV dose of autologous GD2-CART to patients with H3K27M-mutant pontine (DIPG) or spinal (sDMG) diffuse midline glioma at two dose levels (DL1=1e6/kg; DL2=3e6/kg) following lymphodepleting (LD) chemotherapy. Patients with clinical or imaging benefit were eligible for subsequent intracerebroventricular (ICV) GD2-CART infusions (10-30e6 GD2-CART). Primary objectives were manufacturing feasibility, tolerability, and identification of a maximally tolerated dose of IV GD2-CART. Secondary objectives included preliminary assessments of benefit. Thirteen patients enrolled and 11 received IV GD2-CART on study [n=3 DL1(3 DIPG); n=8 DL2(6 DIPG/2 sDMG). GD2-CART manufacturing was successful for all patients. No dose-limiting toxicities (DLTs) occurred on DL1, but three patients experienced DLT on DL2 due to grade 4 cytokine release syndrome (CRS). Nine patients received ICV infusions, which were not associated with DLTs. All patients exhibited tumor inflammation-associated neurotoxicity (TIAN). Four patients demonstrated major volumetric tumor reductions (52%, 54%, 91% and 100%). One patient exhibited a complete response ongoing for >30 months since enrollment. Eight patients demonstrated neurological benefit based upon a protocol-directed Clinical Improvement Score. Sequential IV followed by ICV GD2-CART induced tumor regressions and neurological improvements in patients with DIPG and sDMG. DL1 was established as the maximally tolerated IV GD2-CART dose. Neurotoxicity was safely managed with intensive monitoring and close adherence to a management algorithm.

Abstract BACKGROUND H3K27M-mutant diffuse midline gliomas (DMGs) express uniformly high levels of the GD2 disialoganglioside. In preclinical models, chimeric antigen receptor modified T-cells (CAR T-cells) targeting GD2 robustly regressed orthotopically xenografted DMGs. METHODS This Phase I trial (NCT04196413) administered one IV dose of autologous T-cells transduced with a GD2-CAR retroviral vector to patients with H3K27M-mutant pontine (DIPG) or spinal (sDMG) diffuse midline gliomas at two dose levels (DL1=1e6 GD2-CAR T-cells/kg; DL2=3e6 GD2-CAR T-cells/kg) following standard lymphodepleting (LD) chemotherapy. Patients with clinical or imaging benefit following IV infusion were eligible for subsequent intracerebroventricular (ICV) GD2-CAR T-cell infusions (10-30e6 GD2-CAR T-cells). Primary objectives were to determine feasibility of manufacturing, assess tolerability of IV GD2-CAR T-cells in patients with DIPG and sDMG, and identify a maximally tolerated dose of IV GD2-CAR T-cells following lymphodepleting chemotherapy. Secondary objectives included preliminary assessments of benefit. Here we report the final results of Arm A. RESULTS Thirteen patients enrolled and 11 received one IV GD2-CAR T infusion on study [n=3 DL1(3 DIPG); n=8 DL2(6 DIPG/2 sDMG). GD2-CAR T-cells were successfully manufactured for each patient. After IV infusion, no dose-limiting toxicities (DLTs) occurred on DL1, but three patients experienced DLT on DL2 due to grade 4 cytokine release syndrome (CRS). Nine patients received ICV infusions, which were not associated with DLTs. All patients exhibited tumor inflammation-associated neurotoxicity (TIAN). Four patients demonstrated major volumetric reductions of 52%, 54%, 91% and 100%. One patient exhibited a complete response durable for >30 months since therapy began. Eight patients demonstrated neurological benefit based upon a protocol-directed Clinical Improvement Score. CONCLUSIONS Sequential IV followed by ICV GD2-CAR T-cells infusions induced tumor regressions and neurological improvements. DL1 was established as the maximally tolerated IV GD2-CAR T-cell dose. Neurotoxicity was safely managed with intensive monitoring and close adherence to a management algorithm.