grant

Project 2: CAR-T cell therapy for T cell lymphoma

Organization BAYLOR COLLEGE OF MEDICINELocation HOUSTON, UNITED STATESPosted 11 Sept 2007Deadline 31 Aug 2027
NIHUS FederalResearch GrantFY2025AccelerationAddressAdoptive Cell TransfersAllogenicAntigensAutologousAutomobile DrivingB blood cellsB cellB cell malignancyB cellsB lymphoid malignancyB-CellsB-LymphocytesB-cellBackBehaviorCAR T cell therapyCAR T cellsCAR T therapyCAR modified T cellsCAR-TCAR-TsCell BodyCell LineageCell TherapyCellsClinicClinicalClinical DataClinical ResearchClinical StudyCyclic GMPDasatinibDiseaseDisease ProgressionDisorderDorsumEarly-Stage Clinical TrialsEngineeringEnsureFrequenciesFundingGenesGerminoblastic SarcomaGerminoblastomaGoalsGuanosine Cyclic MonophosphateGvHDHSC transplantationHematopoietic Stem Cell TransplantHematopoietic Stem Cell TransplantationHomingHomologous Wasting DiseaseImmuneImmunesLearningLymph Node Reticuloendothelial SystemLymph node properLymphatic nodesLymphomaMalignantMalignant - descriptorMalignant LymphomaModificationOutcomePTK InhibitorsPatientsPeripheralPersonsPhasePhase 1 Clinical TrialsPhase I Clinical TrialsPopulationPreclinical dataProgenitor CellsPropertyProtein Tyrosine Kinase InhibitorsProtocolProtocols documentationReceptor ProteinReceptor SignalingRecurrent diseaseRefractoryRegulatory approvalRelapseRelapsed DiseaseResistanceReticulolymphosarcomaRunt DiseaseSafetyT cell based immune therapyT cell based therapeuticsT cell based therapyT cell differentiationT cell directed therapiesT cell immune therapyT cell immunotherapyT cell targeted therapeuticsT cell therapyT cell treatmentT cell-based immunotherapyT cell-based treatmentT cells for CART cellular immunotherapyT cellular therapyT lymphocyte based immunotherapyT lymphocyte based therapyT lymphocyte therapeuticT lymphocyte treatmentT memory cellT-Cell LymphomaT-Cell Non-Hodgkin's LymphomaT-Cell NonHodgkins LymphomaT-Cell Receptor GenesT-Cell SubsetsT-Cell and NK-Cell Non-Hodgkin's LymphomaT-CellsT-LymphocyteT-Lymphocyte SubsetsT-cell therapeuticsT-cell transfer therapyTK InhibitorsTcR GenesTestingTherapeuticTyrosine Kinase InhibitorUndifferentiatedadoptive T cell transferadoptive T lymphocyte transferadoptive T-cell therapyadoptive cell therapyadoptive cellular therapyanti-cancerarmblood stem cell transplantationcGMPcell based interventioncell mediated interventioncell mediated therapiescell preparationcell-based therapeuticcell-based therapycellular therapeuticcellular therapychimeric antigen T cell receptorchimeric antigen receptorchimeric antigen receptor (CAR) T cell therapychimeric antigen receptor (CAR) T cellschimeric antigen receptor Tchimeric antigen receptor T cell therapychimeric antigen receptor T cellschimeric antigen receptor T therapychimeric antigen receptor fusion protein T-cellschimeric antigen receptor modified T cellsclinical significanceclinically significantdrivingfirst in manfirst-in-humanfitnessgraft versus host diseasegraft vs host diseasegraft vs. host diseasehematopoietic cell transplantationhematopoietic cellular transplantationhematopoietic progenitor cell transplantationimmunogenimprovedimproved outcomeinhibitorlymph glandlymph nodeslymphnodesmanufacturememory T lymphocytenovelpatient subclasspatient subclusterpatient subgroupspatient subpopulationspatient subsetspatient subtypespharmacologicphase I protocolpre-clinicalpreclinicalpreclinical findingspreclinical informationpreservationreceptorreceptor expressionregulatory authorizationregulatory certificationregulatory clearanceresistance to therapyresistantresistant to therapyresponsestem cellssuccesstherapeutic T-cell platformtherapeutic resistancetherapy resistantthymus derived lymphocytetreatment resistancetumor
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Full Description

PROJECT SUMMARY/ABSTRACT
In this project we will improve the outcome and the accessibility of adoptive cell therapy with engineered CD5-
specific chimeric antigen receptor (CAR) T-cells in patients with refractory or relapsed T-cell lymphoma (r/r TCL).
These studies build on the promising results obtained in the Phase I clinical trial funded in the previous SPORE,
where autologous CD5 CAR T-cells produced robust clinical responses in 44% of patients with recalcitrant TCL,
enabling three out of nine patients to proceed with allogeneic hematopoietic stem cell transplantation (HSCT).
These responses were achieved by CAR T-cell products enriched for minimally differentiated T-cell subsets. We
will now overcome the remaining barriers to success and accessibility identified from our previous study, namely
the rapid loss of potency of ex vivo expanded CD5 CAR T-cells induced by tonic CAR signaling, low frequency
and poor fitness of patient-derived T-cells, and rapid disease progression due to lengthy manufacturing of
autologous cell products. We will use several complementary strategies to improve the clinical potency of CD5
CAR T-cell products and to enable patients to rapidly receive these products as banked (off the shelf) cells. In
clinical studies in Aim 1, we use pharmacologic inhibitors to reversibly inhibit tonic CAR signaling and the
resultant terminal differentiation of CD5 CAR T-cells during cGMP manufacturing, and evaluate CD5 CAR T-
cells generated from HSCT (i.e. normal) donors for patients whose disease relapsed after allogeneic HSCT. We
predict these improvements will preserve the beneficial undifferentiated T-cell subsets and thus improve
expansion and anti-lymphoma activity of CD5 CAR T-cell products; this hypothesis is supported by our early
clinical data. To further maximize clinical potency of CD5 CAR T-cells and expedite treatment of patients with
rapidly progressing disease, in Aim 2 we will develop banked CD5 CAR T-cells for off-the-shelf therapy.
Leveraging our latest preclinical findings, we will engineer these CD5 CAR T-cells to eliminate alloreactivity
(using TCR gene editing) and resist host immune rejection, by arming them with a novel alloimmune defense
receptor, ADR. These modifications should ensure the safety and functional persistence of allogeneic CD5 CAR
T-cells in patients. We will manufacture and bank highly potent, ADR-armed TCR-edited CD5 CAR T-cells in
Aim 3 and initiate a Phase I clinical trial in patients with treatment-resistant TCL. Overall, these studies should
provide a safe and effective cell therapy for patients with r/r T-cell lymphoma who have few alternative options.

Grant Number: 5P50CA126752-19
NIH Institute/Center: NIH
Principal Investigator: MALCOLM BRENNER

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