BATCure | Developing new therapies for Batten disease

Summary
The goal of BATCure is to advance the development of new therapeutic options for a group of rare lysosomal diseases - neuronal ceroid lipofuscinoses (NCL) or Batten disease. There are > thousand affected across Europe, with a combined incidence of c.1:100 000. The NCLs are devastating and debilitating genetic disorders that mainly affect children, who suffer progressive dementia and motor decline, visual failure and epilepsy, leading to a long period of complete dependence on others, and eventually a premature death. Existing palliative treatment can reduce, but does not eliminate, the burden of seizures and the progressively worsening effects on the whole body due to decreasing CNS influence and control. There are no curative treatments in the clinic for any type of NCL. We will follow a novel integrated strategy to identify specific gene and small molecule treatments for three genetic types of Batten disease that include the most prevalent world-wide, juvenile CLN3 disease, and in southern and mediterranean Europe, CLN6 and CLN7 diseases.

To develop new therapies for these 3 types of Batten disease, BATCure will:
1. Create new models, tools and technologies for developing and testing therapies
2. Further delineate disease biology and gene function to identify new therapeutic target pathways utilising yeast and pluripotent stem cell models
3. Identify biochemical therapeutic target pathways, facilitate effective evaluation of preclinical therapies and improve diagnostics
4. Extend a comprehensive natural history beyond the brain to include cardiology, the spinal cord, PNS, psychiatric and metabolic changes
5. Identify new and repurpose existing small molecule therapy
6. Triage new compound treatments in zebrafish, a high-throughput small vertebrate model
7. Deliver and monitor new treatments using mouse models
8. Provide a novel mechanism to involve patients and their families to inform and fully contribute to therapy development and prepare for clinical trials
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/666918
Start date: 01-01-2016
End date: 30-06-2019
Total budget - Public funding: 6 000 681,25 Euro - 5 995 768,00 Euro
Cordis data

Original description

The goal of BATCure is to advance the development of new therapeutic options for a group of rare lysosomal diseases - neuronal ceroid lipofuscinoses (NCL) or Batten disease. There are > thousand affected across Europe, with a combined incidence of c.1:100 000. The NCLs are devastating and debilitating genetic disorders that mainly affect children, who suffer progressive dementia and motor decline, visual failure and epilepsy, leading to a long period of complete dependence on others, and eventually a premature death. Existing palliative treatment can reduce, but does not eliminate, the burden of seizures and the progressively worsening effects on the whole body due to decreasing CNS influence and control. There are no curative treatments in the clinic for any type of NCL. We will follow a novel integrated strategy to identify specific gene and small molecule treatments for three genetic types of Batten disease that include the most prevalent world-wide, juvenile CLN3 disease, and in southern and mediterranean Europe, CLN6 and CLN7 diseases.

To develop new therapies for these 3 types of Batten disease, BATCure will:
1. Create new models, tools and technologies for developing and testing therapies
2. Further delineate disease biology and gene function to identify new therapeutic target pathways utilising yeast and pluripotent stem cell models
3. Identify biochemical therapeutic target pathways, facilitate effective evaluation of preclinical therapies and improve diagnostics
4. Extend a comprehensive natural history beyond the brain to include cardiology, the spinal cord, PNS, psychiatric and metabolic changes
5. Identify new and repurpose existing small molecule therapy
6. Triage new compound treatments in zebrafish, a high-throughput small vertebrate model
7. Deliver and monitor new treatments using mouse models
8. Provide a novel mechanism to involve patients and their families to inform and fully contribute to therapy development and prepare for clinical trials

Status

CLOSED

Call topic

PHC-14-2015

Update Date

26-10-2022
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Horizon 2020
H2020-EU.3. SOCIETAL CHALLENGES
H2020-EU.3.1. SOCIETAL CHALLENGES - Health, demographic change and well-being
H2020-EU.3.1.3. Treating and managing disease
H2020-EU.3.1.3.0. Cross-cutting call topics
H2020-PHC-2015-two-stage
PHC-14-2015 New therapies for rare diseases