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RecruitingNCT06775561

Precision Diagnosis and Therapy for Rare Diseases by Interpreting Non-coding Genomes

Precision Diagnosis and Therapy for Rare Diseases by Interpreting Non-coding Genomes (PARADIGM)

Status
Recruiting
Phase
Study type
Observational
Enrollment
100 (estimated)
Sponsor
IRCCS Azienda Ospedaliero-Universitaria di Bologna · Academic / Other
Sex
All
Age
Healthy volunteers
Not accepted

Summary

PARADIGM study, funded by the PNRR research grant, will focus on Eye Diseases (ED) and Neuro-Muscular Diseases (NMD) as groups of genetically heterogeneous diseases which are extensively studied by the Partners partecipating in the project; indeed ED and NMD are well clinically and molecularly characterized and approachable by drug-testing options already assessed and implemented by PARADIGM partners. ED and NMD represent good and compatible disease models as: * both are genetically heterogeneous disorders where missing heritability is likely to be hidden in non-coding variants; * many of the individual genes accountable for the ED and NMD cause autosomal recessive forms, increasing the chance of finding regulatory/splicing variants

Detailed description

UO1 (IRCCS Azienda Ospedaliero-Universitaria di Bologna, Coordinator) will coordinate the data collection and management protocols under fundamental ethical principles and relevant national, EU and international legislation; will set-up the bioinformatic data warehouse and deploy the workflows to analyze omics data analysis applying its own and published bioinformatic pipelines and will contribute to multi-omics data analysis. UO2 (IRCCS Fondazione Istituto Neurologico Casimiro Mondino, Partner) will perform HiC/UMI-4C analyses and will contribute to the identification, validation and characterization of non-coding variants associated with RGDs, providing cellular and molecular genetic tools for the project to be tested in vitro or on patients' cell cultures from blood or skin. Only in specific cases (e.g. genes selectively expressed in the affected tissue), induced pluripotent stem cells (iPSCs) started from patients' fibroblasts will be used to generate 2D/3D cell models (e.g. retinal organoids) differentiated into the tissue of interes to dissect the molecular basis of unresolved RGDs. UO3 (Azienda Ospedaliero-universitaria Luigi Vanvitelli, Partner) will carry out and integrate Genome Sequencing (GS) and transcriptome analysis on RNA from accessible tissues, e.g., cultured peripheral blood mononuclear cells (PBMCs), cultured fibroblasts (or fibroblast derived organoids), skeletal muscle (only when available in diagnostic routine). UO4 (Università degli Studi di Napoli Federico II) will develop state-of-art gene therapy approaches to correct non-coding variants associated with RGDs, and test their efficiency in relevant retinal organoid models. UO1, UO2, UO3 will be the clinical centers for recruitment of patients and collection of samples. This partnership gathers experts in the main omics, clinical geneticists, molecular biologists, and gene therapists, with massive experience in handling omics data, characterizing genetic variants for clinical purpose and developing therapeutics for genetic diseases up to the clinical stage.

Conditions

Interventions

TypeNameDescription
GENETICPARADIGM study aims to streamline the process from genomic characterization of RGD patients with ED/NMD to identification of the suitable personalized therapy.Samples are collected by UO1/UO2/UO3. DNA/RNA samples are sent to UO3 for genome and transcriptome sequencing. In vitro systems or patient-derived cell models are used for in vitro experimental validation (UO2) or development of therapeutical approaches (UO2/UO4). Samples of cases still undiagnosed after the combined sequencing and validation approaches undergo long-read sequencing by an outsourcing facility. Sequencing data are transferred to UO1 for bioinformatic analysis and may be deposited into RDconnect for still inconclusive cases. Variants of interest from bioinformatic analyses and in vitro validations are collectively discussed by UO1/UO2/UO3 to evaluate their clinico-molecular significance and to be selected for testing therapeutic approaches by UO2/UO4. Blue arrows and shapes denote samples and personal data, while green data that make no identifiable person.

Timeline

Start date
2023-05-20
Primary completion
2025-05-20
Completion
2025-05-20
First posted
2025-01-15
Last updated
2025-01-15

Locations

1 site across 1 country: Italy

Source: ClinicalTrials.gov record NCT06775561. Inclusion in this directory is not an endorsement.