Summary
"There is an increasing prevalence of chronic diseases caused by undesired immune reactions (>10%) with high burden for the both patients (chronicity, organ failure, early death, decreased QoL) and society (EU:>100 bn €/a direct health costs) as current therapies are limited in efficacy and do not reshape sustainably the disturbed immune balance.
Our ultimative goal is to develop a safe and efficient cell therapy based on genome-edited T cells with redirected specificity to sustainably combat IgA nephropathy (IgAN) - the most common glomerulonephritis and one of the most common causes of end-stage renal disease with unmet medical need. Our specific cell therapy approach is also suitable for other diseases with selective B-cell pathogenesis, such as IgA myeloma, IgA related celiac disease and rheumatoid arthritis, but as a blueprint also for diseases of other Ig classes (e.g. IgG4).
Our novel concept offers a specific form of immunosuppression via Ig-(sub)class targeting & glycosylation targeting with redirected T cells in autoimmune diseases. Methodically, we benchmark three promising genome editing technologies, develop new standards for safety assessment and preclinical performance evaluation.
At the end we will have a lead candidate of a new ""living drug"" product envisioned as a one-time treatment for IgAN and other IgA-associated that will be ready to enter clinical FIH trials (entry into TRL6). In addition, geneTIGA delivers enabling technology toolboxes with exploitation options beyond of the core project. They might de-risk and accelerate the development of next-generation gene and cell products in general. The project has thus, besides its scientific value, a high impact not only on the affected patients with IgAN and related immune diseases, but also for the European society by reducing the health economic burden caused by progressive chronic kidney disease, as well as by triggering innovation and business options in Europe's biotech and pharma field."
Our ultimative goal is to develop a safe and efficient cell therapy based on genome-edited T cells with redirected specificity to sustainably combat IgA nephropathy (IgAN) - the most common glomerulonephritis and one of the most common causes of end-stage renal disease with unmet medical need. Our specific cell therapy approach is also suitable for other diseases with selective B-cell pathogenesis, such as IgA myeloma, IgA related celiac disease and rheumatoid arthritis, but as a blueprint also for diseases of other Ig classes (e.g. IgG4).
Our novel concept offers a specific form of immunosuppression via Ig-(sub)class targeting & glycosylation targeting with redirected T cells in autoimmune diseases. Methodically, we benchmark three promising genome editing technologies, develop new standards for safety assessment and preclinical performance evaluation.
At the end we will have a lead candidate of a new ""living drug"" product envisioned as a one-time treatment for IgAN and other IgA-associated that will be ready to enter clinical FIH trials (entry into TRL6). In addition, geneTIGA delivers enabling technology toolboxes with exploitation options beyond of the core project. They might de-risk and accelerate the development of next-generation gene and cell products in general. The project has thus, besides its scientific value, a high impact not only on the affected patients with IgAN and related immune diseases, but also for the European society by reducing the health economic burden caused by progressive chronic kidney disease, as well as by triggering innovation and business options in Europe's biotech and pharma field."
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| Web resources: | https://cordis.europa.eu/project/id/101057438 |
| Start date: | 01-07-2022 |
| End date: | 30-06-2026 |
| Total budget - Public funding: | 5 736 859,75 Euro - 5 736 859,00 Euro |
Cordis data
Original description
"There is an increasing prevalence of chronic diseases caused by undesired immune reactions (>10%) with high burden for the both patients (chronicity, organ failure, early death, decreased QoL) and society (EU:>100 bn €/a direct health costs) as current therapies are limited in efficacy and do not reshape sustainably the disturbed immune balance.Our ultimative goal is to develop a safe and efficient cell therapy based on genome-edited T cells with redirected specificity to sustainably combat IgA nephropathy (IgAN) - the most common glomerulonephritis and one of the most common causes of end-stage renal disease with unmet medical need. Our specific cell therapy approach is also suitable for other diseases with selective B-cell pathogenesis, such as IgA myeloma, IgA related celiac disease and rheumatoid arthritis, but as a blueprint also for diseases of other Ig classes (e.g. IgG4).
Our novel concept offers a specific form of immunosuppression via Ig-(sub)class targeting & glycosylation targeting with redirected T cells in autoimmune diseases. Methodically, we benchmark three promising genome editing technologies, develop new standards for safety assessment and preclinical performance evaluation.
At the end we will have a lead candidate of a new ""living drug"" product envisioned as a one-time treatment for IgAN and other IgA-associated that will be ready to enter clinical FIH trials (entry into TRL6). In addition, geneTIGA delivers enabling technology toolboxes with exploitation options beyond of the core project. They might de-risk and accelerate the development of next-generation gene and cell products in general. The project has thus, besides its scientific value, a high impact not only on the affected patients with IgAN and related immune diseases, but also for the European society by reducing the health economic burden caused by progressive chronic kidney disease, as well as by triggering innovation and business options in Europe's biotech and pharma field."
Status
SIGNEDCall topic
HORIZON-HLTH-2021-TOOL-06-02Update Date
09-02-2023
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Organisations
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| CHARITE - UNIVERSITAETSMEDIZIN BERLIN (Coördinator)
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| AARHUS UNIVERSITET (AU)
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| CHECKIMMUNE GMBH
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| EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH
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| Europaischer Nierenpatientenverband
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| GENOS DOO ZA VJESTACENJE I ANALIZU
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| INNOVATION ACTA S.R.L.
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| OSLO UNIVERSITETSSYKEHUS HF
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| TECHNISCHE UNIVERSITAET BRAUNSCHWEIG
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| THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD
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| TISSUSE GMBH
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| UNIVERSITAETSKLINIKUM FREIBURG