Summary
The current treatment landscape for leukemia, particularly concerning AML (acute myeloid leukemia) and MDS (myelodysplastic syndrome), is constrained by the instability of hypomethylating agents which are regularly used in elderly, medically non-fit patients (high-risk). This instability restricts their spectrum of application, leaving a significant gap in effective treatment options. Despite research into alternative therapeutic approaches the need for a mild treatment option with high success rates in this patient population remains unmet.
Carbacitabin (CAB) emerges as a promising solution to these challenges. This novel epigenetically active compound exhibits enhanced stability against hydrolytic cleavage and enzymatic metabolization. In AML PDX mouse models, CAB demonstrates significantly improved efficacy and vastly reduced toxicity, making it an optimal candidate for leukemia treatment, particularly for those high-risk patients.
Funding from the ERC PoC aims to support essential preclinical steps towards fully realizing the potential of CAB. Those include, further optimization of the lead structure of CAB to enhance targeting and thorough preclinical studies to evaluate the safety and efficacy of CAB. Additionally, scaling up the synthesis of CAB is crucial to meet the demand for large-scale production required for preclinical and subsequent clinical trials. Furthermore, efforts to solidify intellectual property (IP) protection and conduct an in-depth freedom-to-operate (FTO) analysis are necessary to safeguard CAB's market position. Establishing a spin-off company dedicated to the clinical studies of CAB will require engagement with essential stakeholders, including potential investors, pharmaceutical partners, legal advisors, and regulatory consultants during leuCAB. This comprehensive approach will ensure the effective translation of CAB from bench to bedside, bringing new hope to patients, especially those battling AML and MDS.
Carbacitabin (CAB) emerges as a promising solution to these challenges. This novel epigenetically active compound exhibits enhanced stability against hydrolytic cleavage and enzymatic metabolization. In AML PDX mouse models, CAB demonstrates significantly improved efficacy and vastly reduced toxicity, making it an optimal candidate for leukemia treatment, particularly for those high-risk patients.
Funding from the ERC PoC aims to support essential preclinical steps towards fully realizing the potential of CAB. Those include, further optimization of the lead structure of CAB to enhance targeting and thorough preclinical studies to evaluate the safety and efficacy of CAB. Additionally, scaling up the synthesis of CAB is crucial to meet the demand for large-scale production required for preclinical and subsequent clinical trials. Furthermore, efforts to solidify intellectual property (IP) protection and conduct an in-depth freedom-to-operate (FTO) analysis are necessary to safeguard CAB's market position. Establishing a spin-off company dedicated to the clinical studies of CAB will require engagement with essential stakeholders, including potential investors, pharmaceutical partners, legal advisors, and regulatory consultants during leuCAB. This comprehensive approach will ensure the effective translation of CAB from bench to bedside, bringing new hope to patients, especially those battling AML and MDS.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101188113 |
| Start date: | 01-09-2024 |
| End date: | 28-02-2026 |
| Total budget - Public funding: | - 150 000,00 Euro |
Cordis data
Original description
The current treatment landscape for leukemia, particularly concerning AML (acute myeloid leukemia) and MDS (myelodysplastic syndrome), is constrained by the instability of hypomethylating agents which are regularly used in elderly, medically non-fit patients (high-risk). This instability restricts their spectrum of application, leaving a significant gap in effective treatment options. Despite research into alternative therapeutic approaches the need for a mild treatment option with high success rates in this patient population remains unmet.Carbacitabin (CAB) emerges as a promising solution to these challenges. This novel epigenetically active compound exhibits enhanced stability against hydrolytic cleavage and enzymatic metabolization. In AML PDX mouse models, CAB demonstrates significantly improved efficacy and vastly reduced toxicity, making it an optimal candidate for leukemia treatment, particularly for those high-risk patients.
Funding from the ERC PoC aims to support essential preclinical steps towards fully realizing the potential of CAB. Those include, further optimization of the lead structure of CAB to enhance targeting and thorough preclinical studies to evaluate the safety and efficacy of CAB. Additionally, scaling up the synthesis of CAB is crucial to meet the demand for large-scale production required for preclinical and subsequent clinical trials. Furthermore, efforts to solidify intellectual property (IP) protection and conduct an in-depth freedom-to-operate (FTO) analysis are necessary to safeguard CAB's market position. Establishing a spin-off company dedicated to the clinical studies of CAB will require engagement with essential stakeholders, including potential investors, pharmaceutical partners, legal advisors, and regulatory consultants during leuCAB. This comprehensive approach will ensure the effective translation of CAB from bench to bedside, bringing new hope to patients, especially those battling AML and MDS.
Status
SIGNEDCall topic
ERC-2024-POCUpdate Date
22-11-2024
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