grant

Development of a Novel Armored CAR-T Immunotherapeutic for Pancreatic Cancer

Organization CAMBIUM ONCOLOGY LLCLocation ATLANTA, UNITED STATESPosted 1 May 2025Deadline 30 Apr 2027
NIHUS FederalResearch GrantFY2025AddressAdverse effectsAmerican Cancer SocietyAntioncogene Protein p53BiodistributionBiological MarkersBody TissuesC-K-RASCAR T cell therapyCAR T cellsCAR T therapyCAR modified T cellsCAR-TCAR-TsCancer CauseCancer EtiologyCancersCell BodyCell Communication and SignalingCell SignalingCell secretionCellsCellular SecretionCellular Tumor Antigen P53Cessation of lifeClinicalClinical EvaluationClinical TestingCompetenceDataDeathDevelopmentDiseaseDisorderDrugsEffectivenessEndowmentEngineeringExhibitsExternal DomainExtracellular DomainFaceGoalsGood Manufacturing ProcessGood manufacturing practiceHalf-LifeHematologic CancerHematologic MalignanciesHematologic NeoplasmsHematological MalignanciesHematological NeoplasmsHematological TumorHematopoietic CancerHeterograftHeterologous TransplantationHumanIND FilingIND applicationIND packageIND submissionImmuneImmunesImmunocompetentImmunodeficient MouseImmunooncologyImmunosuppressionImmunosuppression EffectImmunosuppressive EffectImmunotherapeutic agentImplantInnovative TherapyIntracellular Communication and SignalingInvestigational New Drug ApplicationK-RAS2AK-RAS2BK-RasK-Ras 2AK-Ras-2 OncogeneKRASKRAS2KRAS2 geneKi-RASLeadLytotoxicityMacrophageMalignant CellMalignant Hematologic NeoplasmMalignant NeoplasmsMalignant Pancreatic NeoplasmMalignant TumorMalignant neoplasm of pancreasMediatingMedicationMetabolicMiceMice MammalsModern ManMurineMusOncogene K-RasOncologyOncology CancerOncoprotein p53OutcomeP53PDA modelPDAC ModelPDAC cancer cellPDAC cellPHM27PK/PDPancreas CancerPancreas Ductal AdenocarcinomaPancreatic CancerPancreatic Ductal AdenocarcinomaPatient outcomePatient-Centered OutcomesPatient-Focused OutcomesPatientsPb elementPenetrationPharmaceutical PreparationsPharmacodynamicsPhasePhenotypePhosphoprotein P53Phosphoprotein pp53PlayPositionPositioning AttributePreparednessPrevalenceProtein TP53RASK2ReadinessResearchRodentRodentiaRodents MammalsRoleSBIRSRP receptorSignal TransductionSignal Transduction SystemsSignalingSmall Business Innovation ResearchSmall Business Innovation Research GrantSolidSolid NeoplasmSolid TumorStructureSurvival RateT cell based immune therapyT cell based therapeuticsT cell based therapyT 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 SubsetsT-CellsT-LymphocyteT-Lymphocyte SubsetsT-cell therapeuticsT-cell transfer therapyTP53TP53 geneTRP53TechnologyTherapeuticTissuesToxic effectToxicitiesTranslational ResearchTranslational ScienceTreatment EfficacyTumor Protein p53Tumor Protein p53 GeneVIP ReceptorsVariantVariationVasoactive Intestinal PeptideVasoactive Intestinal Peptide ReceptorsVasoactive Intestinal PolypeptideVasointestinal PeptideWorkXenograftXenograft ModelXenograft procedureXenotransplantationadoptive T cell transferadoptive T lymphocyte transferadoptive T-cell therapyantagonismantagonistanti-tumor effectanticancer activityantitumor effectbio-markersbiologic markerbiological signal transductionbiomarkercancer cellcancer microenvironmentchimeric 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 applicabilityclinical applicationclinical testclinical translationclinical validationclinically translatablecommercializationcytotoxicitydesigndesigningdevelopmentaldrug candidatedrug/agenteffective therapyeffective treatmentefficacious therapyefficacious treatmentempowermentengineered T cellsfacesfacialflexibilityflexiblegenetically engineered T-cellsgenetically engineered cellsgenetically modified cellsheavy metal Pbheavy metal leadimmune check pointimmune checkpointimmune competentimmune drugsimmune microenvironmentimmune suppressionimmune suppressive activityimmune suppressive functionimmune-based therapeuticsimmune-oncologyimmunecheckpointimmuno oncologyimmunologic therapeuticsimmunology oncologyimmunosuppressive activityimmunosuppressive functionimmunosuppressive microenvironmentimmunosuppressive responseimmunosuppressive tumor microenvironmentimmunotherapeuticsimmunotherapy agentimprovedin vitro testingin vivoinnovateinnovationinnovativeintervention efficacymalignancymanufacturememory T lymphocytemortalitymouse modelmurine modelneoplasm/cancernew approachesnew drug treatmentsnew drugsnew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnovelnovel approachesnovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel strategiesnovel strategynovel therapeuticsnovel therapyoncoimmunologyp53 Antigenp53 Genesp53 Tumor Suppressorpancreatic cancer patientspancreatic ductal adenocarcinoma cellpancreatic ductal adenocarcinoma modelpancreatic malignancypatient oriented outcomespatients with pancreatic cancerpharmacokinetics and pharmacodynamicsprotein p53research clinical testingsignal peptide receptorsignal recognition particle receptorsocial rolesuccesssurvival outcometechnology platformtechnology systemtherapeutic T-cell platformtherapeutic efficacytherapy efficacythymus derived lymphocytetransgenic T- cellstranslation researchtranslational investigationtumortumor immune microenvironmenttumor microenvironmenttumor-immune system interactionsv-Ki-RAS2 Kirsten Rat Sarcoma 2 Viral Oncogene Homologxeno-transplantxeno-transplantationxenograft transplant modelxenotransplant model
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Full Description

Pancreatic ductal adenocarcinoma (PDAC) represents a major challenge in oncology, the third leading cause of
cancer-related death, and a 5-year survival rate of only 11%. The dense, immunosuppressive tumor
microenvironment (TME) of PDAC significantly hinders the efficacy of current therapeutic strategies, including
the innovative CAR T cell therapies that have shown promise in hematologic malignancies. A significant
contributor to this immunosuppression is the secretion of vasoactive intestinal peptide (VIP) within the PDAC
TME by cancer cells and immune cells that limits the efficacy of adoptive T cell therapies. Addressing this urgent
need, Cambium Oncology proposes a novel approach to enhance CAR T cell therapy's potency against PDAC
by countering the immunosuppressive effects of VIP prevalent in PDAC tumors.
Our pioneering strategy involves engineering CAR T cells that target the extracellular domain of Muc16
(Muc16CD), a marker abundant in PDAC tumors and stroma, to secrete an optimized form of the VIP receptor
(VIPR) antagonist, ANT308Fc. Preliminary findings indicate that CAR T cells endowed with the capability to
secrete VIPR antagonists demonstrate enhanced metabolic flexibility, a predominance of memory T cell subsets,
and superior anti-tumor activity. This project is structured to validate the ANT308-Fc fusion as a secreted agent
from CAR T cells to disrupt the VIP-mediated immunosuppression within the PDAC TME, thereby enhancing T
cell functionality and persistence, remodeling the PDAC TME, and facilitating the eradication of PDAC cells. The
proposed “Fast-track” SBIR research and develop plan is divided into two phases:
Phase 1 aims to develop and validate ANT308Fc for secretion by CAR T cells (Aim 1) and to identify the
form of VIPR antagonism that exhibits the most potent anti-tumor effects in PDAC models (Aim 2). A go/no-
go decision based on the in vivo efficacy of ANT308 variants will determine the progression to Phase 2.
Phase 2 is focused on evaluating the toxicity and biodistribution (Aim 3), and mechanism of action of the
selected CAR/VIPRa T cells (Aim 4), alongside preparing for IND submission (Aim 5).
Our aims are rooted in solid preliminary data and leverage a clinically validated CAR target (Muc16CD),
positioning this work at the forefront of translational research for PDAC. This project stands to significantly impact
the treatment landscape for PDAC by providing a novel, efficacious therapy option. The successful development
and clinical translation of CAR/VIPRa T cells could not only revolutionize PDAC treatment but also serve as a
platform technology applicable to a broad range of cancers, underscoring the potential of CAR T cell therapies
in solid tumors.
Impact: Cambium Oncology's endeavor into commercialization of CAR T cells that secrete a VIP Receptor
antagonist is aligned with the company’s core competency in developing novel immune-oncology drugs and
addresses the pressing need for innovative, effective treatments for PDAC. Results from the proposed SBIR
can dramatically improve patient outcomes in this high-mortality cancer.

Grant Number: 1R44CA298704-01
NIH Institute/Center: NIH
Principal Investigator: Gary Altman

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