grant

Intermediate-Size Expanded Access Trial of Autologous Hybrid TREG/Th2 Cell Therapy (RAPA-501) of Amyotrophic Lateral Sclerosis

Organization MASSACHUSETTS GENERAL HOSPITALLocation BOSTON, UNITED STATESPosted 25 Sept 2023Deadline 31 Aug 2026
NIHUS FederalResearch GrantFY2025AI basedAcademic Medical CentersAccelerationAddressAdverse ExperienceAdverse eventAirway failureAmyotrophic Lateral SclerosisAmyotrophic Lateral Sclerosis Motor Neuron DiseaseAnti-InflammatoriesAnti-Inflammatory AgentsAnti-inflammatoryAntiinflammatory EffectArizonaAutologousBerryBiologicalCell BodyCell Communication and SignalingCell SignalingCell TherapyCellsCessation of lifeClinicClinicalClinical TrialsCollaborationsComparison armData ScienceDeathDegenerative Neurologic DisordersDoseEnrollmentFDA approvedForced Vital CapacityGehrig's DiseaseGeneral HospitalsGeographic AreaGeographic LocationsGeographic RegionGeographical LocationGoalsHospitalsHybridsIV InfusionIdahoImmune mediated therapyImmunologically Directed TherapyImmunotherapyInflammationInfusionInfusion proceduresInterventionIntracellular Communication and SignalingIntravenous infusion proceduresInvestigatorsIowaLou Gehrig DiseaseMachine LearningMethodsMorbidityMorbidity - disease rateNervous System Degenerative DiseasesNeural Degenerative DiseasesNeural degenerative DisordersNeurodegenerative DiseasesNeurodegenerative DisordersNeurologic Degenerative ConditionsOregonParticipantPersonsPhasePhase 2/3 trialPhase II/III TrialPhenotypePlacebosPopulationResearchResearch PersonnelResearchersRespiratory FailureRiskSafetySamplingSham TreatmentSignal TransductionSignal Transduction SystemsSignalingSiteSymptomsT 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 cellular immunotherapyT cellular therapyT lymphocyte based immunotherapyT lymphocyte based therapyT lymphocyte therapeuticT lymphocyte treatmentT-cell therapeuticsT-cell transfer therapyTh-2 CellTh2 CellsTherapeuticTimeType 2 Helper CellUnderserved PopulationUniversity Medical CentersVital capacityadoptive T cell transferadoptive T lymphocyte transferadoptive T-cell therapyanti-inflammatory effectarmartificial intelligence basedbiologicbiological signal transductioncell based interventioncell mediated interventioncell mediated therapiescell-based therapeuticcell-based therapycellular therapeuticcellular therapychemotherapycohortcomparator armconditioningdegenerative diseases of motor and sensory neuronsdegenerative neurological diseasesenrollexperiencegeographic sitehigh riskhigh risk grouphigh risk individualhigh risk peoplehigh risk populationimmune therapeutic approachimmune therapeutic interventionsimmune therapeutic regimensimmune therapeutic strategyimmune therapyimmune-based therapiesimmune-based treatmentsimmuno therapyinfusionsintravenous infusionlung function declinemachine based learningmanufacturemortalityneural inflammationneurodegenerative illnessneuroinflammationneuroinflammatorynovelprediction algorithmpulmonary function declinesafety and feasibilitysham therapystemtherapeutic T-cell platformtreatment effecttrendunder served groupunder served individualunder served peopleunder served populationunderserved groupunderserved individualunderserved people
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Full Description

ALS is a lethal neurodegenerative disease accelerated by neuroinflammation. Current FDA-approved
therapies have modest benefits and do not address inflammation. To address this, RAPA Therapeutics, LLC
(RAPA) has developed an autologous T cell therapy (RAPA-501) that reduces inflammation, with the goal of
reducing ALS morbidity and mortality. RAPA-501 are manufactured ex vivo to attain dual TREG/Th2 anti-
inflammatory activity and a T-stem phenotype that permits T cell therapy without conditioning chemotherapy. In
an ongoing clinical trial of RAPA-501 in people with ALS (pwALS) (NCT04220190), RAPA-501 cells were found
to be safe (no product-related adverse events), biologically active (diverse anti-inflammatory effects in pwALS),
and showed early trends toward stabilizing pulmonary function decline. A phase 2/3 expansion cohort was added
to the trial to assess whether RAPA-501 is efficacious in standard-risk pwALS.
We will extend RAPA-501 therapy to pwALS not eligible for this ongoing phase 2/3 trial or other ALS trials,
which nearly universally require that participants have a slow vital capacity (SVC) value of ≥50% of predicted
normal. The proposed EAP will enroll pwALS who have SVC values <50%. This population of pwALS is
considered “high risk” (~50% chance of respiratory failure or death within 180 days) and thus particularly suitable
for experimental immune therapies such as RAPA-501. In addition, the RAPA-501-EAP will not exclude pwALS
who have a prolonged time from ALS-related symptoms or low ALSFRS-R scores. Participants will receive four
RAPA-501 IV infusions (every 42-days at established safe dose, 80 x 106 cells/infusion). This RAPA-501-EAP
will further evaluate the safety of this therapy, expand an understanding of the RAPA-501 therapeutic mechanism
of action, and evaluate signals of efficacy in this real-world population of pwALS using standard methods and
Origent Data Sciences machine learning ALS prediction algorithms.
The RAPA-501 EAP will be led by investigators at Mass General Hospital (MGH; Drs. Berry, Babu, and
Paganoni) and sponsored by RAPA, which is responsible for RAPA-501 manufacturing and FDA regulatory
filings under existing IND 019480 (Dr. Fowler, Sponsor). Clinical trial site investigators have experience with
RAPA-501 therapy (MGH; Hackensack University Medical Center; and Mayo Clinic Arizona) or other cells
therapies. Sites are geographically diverse and likely to accrue a significant number of underserved pwALS (U
of Iowa; U of Idaho; Providence Hospital, Portland, Oregon; UC-Irvine; Columbia, NYC). In addition, several
research collaborations will emanate from the intensive study of the clinically-annotated, valuable research
samples obtained from the RAPA-501 EAP.

Grant Number: 3U01NS136020-03S1
NIH Institute/Center: NIH
Principal Investigator: James Berry

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