SubsidieMeestersPreventing Alport syndrome with a natural amino acid
RENOTREAT aims to treat Alport syndrome by using a natural amino acid to induce tubular proteinuria, potentially slowing CKD progression and improving patient outcomes through preclinical and clinical trials.
Projectdetails
Introduction
Chronic kidney disease (CKD) is a major burden on society, causing significant morbidity and mortality. A typical symptom of CKD is the loss of protein into the urine, also termed proteinuria, which is usually associated with a poor prognosis.
Pathophysiology of CKD
In most cases, a defective glomerulus leads to proteinuria, resulting in damage to the neighboring proximal tubular cells due to protein and lipid overload.
Project Overview: RENOTREAT
In RENOTREAT, we aim to treat Alport syndrome with a natural amino acid that is known to inhibit the tubular protein uptake receptors cubilin and megalin. This amino acid is already available as a safe treatment in humans but has never been used for kidney disease.
Alport Syndrome
Alport syndrome is a rare disease with underestimated prevalence. It is caused by defective collagen fibers due to pathogenic genetic variants in collagen IV genes. The lack of functional collagen fibers leads to a more permeable glomerular basement membrane, resulting in proteinuria with subsequent proximal tubular damage.
Therapeutic Strategy
In our therapeutic strategy, we will induce tubular proteinuria by blocking protein uptake into the proximal tubule, overturning the paradigm that the degree of proteinuria correlates with kidney damage.
Experimental Approach
- Dosing Regimens: First, we will test dosing regimens and bioavailability for three different formulations of the amino acid with regard to the induction of a stable tubular proteinuria in wild-type mice.
- Evaluation in Murine Model: Using a murine model of Alport syndrome, we will then evaluate these treatments for their potential to slow CKD progression and prolong the survival of the mutant mice.
- Pilot Trial: In parallel, we will conduct a pilot trial in healthy human volunteers with the already available form of the amino acid to prepare for a future clinical trial in Alport patients.
Conclusion
In summary, we will verify the innovation potential of a novel therapeutic approach to managing Alport syndrome and potentially other proteinuric kidney diseases by performing proof-of-concept preclinical and clinical trials.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 150.000 |
| Totale projectbegroting | € 150.000 |
Tijdlijn
| Startdatum | 1-10-2024 |
| Einddatum | 31-3-2026 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- UNIVERSITATSKLINIKUM HEIDELBERGpenvoerder
Land(en)
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Deciphering the genetic basis of chronic kidney disease towards prevention and personalized therapy
This project aims to uncover the genetic basis of chronic kidney disease (CKD) through next-generation sequencing and develop RNA-based therapies for targeted treatment and improved management.
Developing RNA-editing based therapy for renal cystic ciliopathies
This project aims to demonstrate that RNA editing can correct a pathogenic WDR19 mutation in kidney organoids, potentially leading to new therapies for genetic kidney diseases.
Targeting kidney fibrosis by a novel myofibroblast specific small molecule inhibitor
FibroTarg aims to evaluate the feasibility of Fibrolisine, an innovative anti-fibrotic drug, to halt kidney fibrosis and progression to end-stage renal disease in chronic kidney disease patients.
Identification of novel diagnostic, predictive and therapeutic strategies in chronic kidney disease
TargetCKD aims to revolutionize chronic kidney disease management by developing noninvasive diagnostics and novel therapeutics through advanced genomic technologies and interdisciplinary research.
Early detection, molecular mechanisms and therapeutic interventions in chronic kidney disease
ELIMINATE-CKD aims to enhance chronic kidney disease detection by developing a method to quantify nephron number using multi-omics and machine learning for improved diagnostics and therapies.
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Augmentor Management ontwikkelt een specifiek antilichaam tegen alphasynucleine oligomeren om de progressie van de ziekte van Parkinson te remmen en zoekt haalbaarheid voor verder onderzoek.
Dementia/Alzheimer Drug Attributed to Cystatin-C and other mutations – precision medicine drug development
ATI's AT-001 aims to stop and revert dementia by preventing protein aggregation, with promising Phase IIa results leading to upcoming registration trials and POC studies for commercialization.
Ontwikkeling van een diagnostische test voor de vroege detectie van chronische nierschade
Dit project onderzoekt de ontwikkeling van een niet-invasieve test voor de vroege detectie van chronische nierschade.
Haalbaarheid Renal Tracker+
Het project onderzoekt de haalbaarheid van de Renal Tracker+, een serviceproduct dat nierpatiënten helpt om de impact van levensstijlveranderingen op hun ziekte te monitoren.
breakthrough technologies for an implantable artificial kidney
KIDNEW aims to develop a modular implantable artificial kidney using innovative technologies for improved, cost-effective kidney replacement therapy without immunosuppressive drugs.