grant

Targeted Delivery of Tumor Antigen esaRNA to the Spleen for Cancer Immunotherapy

Organization TIBA BIOTECH, LLCLocation CAMBRIDGE, UNITED STATESPosted 10 Sept 2025Deadline 31 Aug 2026
NIHUS FederalResearch GrantFY2025Adverse effectsAminesAnimalsAntigen PresentationAntigen TargetingAntigen-Presenting CellsAntigensAntineoplastic VaccineAutoantigensAutologous AntigensB blood cellsB cellB cellsB-CellsB-LymphocytesB-cellBiologicalBiotechBiotechnologyBlood leukocyteBody TissuesCD8 CellCD8 T cellsCD8 lymphocyteCD8+ T cellCD8+ T-LymphocyteCD8-Positive LymphocytesCD8-Positive T-LymphocytesCancer VaccinesCell BodyCell modelCellsCellular modelCirculationCollaborationsCommunicable DiseasesComplexDataDevelopmentDevelopment and ResearchDiameterDiseaseDisorderEncapsulatedEngineeringExperimental DesignsFeverFlow CytofluorometriesFlow CytofluorometryFlow CytometryFlow MicrofluorimetryFlow MicrofluorometryFormulationGoalsHPVHPV 16HPV-16HPV16HomingHumanHuman Papilloma VirusHuman PapillomavirusHuman papilloma virus type 16Human papillomavirus 16Human papillomavirus type 16IND FilingIND applicationIND packageIND submissionImmune Cell ActivationImmune ToleranceImmune responseImmune signalingImmune systemImmunizationImmunohistochemistryImmunohistochemistry Cell/TissueImmunohistochemistry Staining MethodImmunologic ToleranceInfectious DiseasesInfectious DisorderInfectious Human Wart VirusInflammatoryInnate Immune ResponseInvestigational New Drug ApplicationJointsLeadLegal patentLeukocytesLeukocytes Reticuloendothelial SystemLipidsLiverLymphatic cellLymphocyteLymphocyticMAGE-2 antigenMAGE-2 proteinMalignant MelanomaMalignant Splenic NeoplasmMalignant Splenic TumorMarketingMarrow leukocyteMeasuresMelanomaMelanoma CellMelanoma TumorModalityModelingModern ManMolecularNS ProteinsNeoplasm VaccinesNon-Polyadenylated RNAORFsOpen Reading FramesOrganPatentsPatientsPb elementPhasePreclinical TestingPropertyProtein Coding RegionProteinsPyrexiaR & DR&DRNARNA Gene ProductsRNA amplificationRNA based therapeuticsRNA based therapyRNA deliveryRNA replicationRNA therapyRNA vaccineRNA-based vaccineReactionRibonucleic AcidSBIRSelf-AntigensSiteSmall Business Innovation ResearchSmall Business Innovation Research GrantSpleenSpleen CancerSpleen Reticuloendothelial SystemSplenic CancerStructureSystemT cell responseT-CellsT-LymphocyteT8 CellsT8 LymphocytesTechnologyTestingTherapeuticTissuesTransfectionTumor AntigensTumor VaccinesTumor growth in melanomaTumor-Associated AntigenViral Nonstructural ProteinsViral OncogeneWhite Blood CellsWhite CellWorkaccessory cellamineanti-cancer immunotherapyanti-tumor immune responseanti-tumor vaccineanticancer immunotherapyantigen challengeauthoritybiologiccancer antigenscancer immunotherapycancer vaccinationcell typeclinical relevanceclinically relevantcytokinedetermine efficacydevelopmentalefficacy analysisefficacy assessmentefficacy determinationefficacy evaluationefficacy examinationefficacy testingevaluate efficacyexamine efficacyexperimentexperimental researchexperimental studyexperimentsfebrilefebrisflow cytophotometryheavy metal Pbheavy metal leadhepatic body systemhepatic organ systemhost responsehuman papilloma virus 16immune activationimmune system responseimmune system toleranceimmune unresponsivenessimmune-based cancer therapiesimmunogenimmunogenicityimmunological paralysisimmunoresponseimmunotherapy for cancerimmunotherapy of cancerimprovedin vivoinnovateinnovationinnovativeinterestlymph cellmRNA vaccinemRNA-based vaccinemalignant spleen neoplasmmalignant spleen tumormedical countermeasuremelanoma antigen-2melanoma cancer modelmelanoma modelmelanoma tumor modelmouse modelmurine modelnano particlenano-sized particlenanomaterialsnanoparticlenanosized particlenovelparticlepre-clinical developmentpre-clinical testingpreclinical developmentprogramsprophylacticresearch and developmentresponsesecondary lymph organsecondary lymphatic organsecondary lymphoid organsite targeted deliverytargeted deliverytherapeutic RNAthymus derived lymphocytetumortumor eradicationtumor vaccinationtumor-specific antigentype 16 Human papilloma virustype 16 Human papillomavirusvaccine for cancervaccine platformvectorwart viruswhite blood cellwhite blood corpuscle
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Full Description

Project Summary
This application is in response to Notice of Special Interest (NOSI) NOT-AI-24-007 (RNA Delivery Technologies to
Allow Speciflc Tissue Target Homing) to support the development of non-viral technologies to deliver RNA-based
therapeutics to disease-relevant cells and tissues in vivo. We propose an innovative strategy that combines
enhanced self-amplifying RNA (esaRNA) and spleen-targeting delivery nanomaterials to confer a therapeutic anti-
tumoral immune response. We have developed esaRNAs, which include an engineered flrst ORF (that normally only
encodes the alpha viral nonstructural proteins) that incorporates a constitutively active STING protein that is
expressed early but at low level in transfected cells in concert with the normal self-amplifying RNA replication
complex, leading to superior innate immune signaling without signiflcantly sacriflcing expression of the desired
encoded antigen. Tiba’s proprietary RNA encapsulation compounds are based on molecularly deflned,
biodegradable dendritic structures with ionizable amine moieties and terminal lipid extensions. This platform
generates highly compact and monodisperse nanoparticles with superior consistency in particle diameter and
stability than competing systems. The spleen is the largest secondary lymphoid organ and is a primary site of
action where antigens are presented to the immune system to initiate the deployment of effector lymphocytes
into circulation. Delivery to antigen presenting cells that are populous in the spleen has been previously
established to improve the immunogenicity of RNA-encoded antigens and can lead to improved tumor clearance.
This proposal will test the proposed platform in (i) a human papillomavirus (HPV)-based tumor model and (ii) a
melanoma model as a proving ground. The model antigens of interest (HPV16 E7 and Trp2) are selected for the
ease of preclinical testing in small animals and because of their clinical relevance in humans. The purpose of Aim
1 is to study Tiba’s existing panel of spleen-specific formulation candidates in terms of potency in desirable APC
subsets and undesirable inflammatory effects. The goal of Aim 2 is to validate the biological efficacy of the
lead RNABL spleen delivery formula in terms of adaptive cellular immune response against a model HPV tumor
antigen and protection in prophylactic and therapeutic modalities. Finally, Aim 3 will follow a similar experimental
design as Aim 2 using the B16 melanoma cell model. The conclusion of this project will set the stage for a Phase II
SBIR application to advance the platform through late preclinical development with the goal of establishing a pre-
IND package against a lead tumor-associated antigen target.

Grant Number: 1R43CA298492-01A1
NIH Institute/Center: NIH
Principal Investigator: Jasdave Chahal

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