POLYMMUNE | Off-the-Shelf Polypeptide-based Immunotherapy for Advanced Melanoma Treatment

Summary
Despite various existing drug delivery methods, the key challenge remains: how to deliver drugs to the desired site of therapeutic action to achieve best treatment outcome, while minimising side effects? This is even more challenging in cancer immunotherapy as a complex interplay of immune reactions need to be activated. POLYMMUNE will evaluate the technical and commercial viability of our novel polymeric nanocarrier platform (developed during my ERC Consolidator grant MyNano) for targeted drug delivery of a wide variety of diseases and therapeutics. As proof of concept, we will focus on immunotherapy delivery for metastatic melanoma. Globally ~132,000 new melanoma cases will be diagnosed each year and despite recent successes, only 50% of the patients respond to novel immunotherapies that are costly, while causing severe side effects. Coupling a commercially available antigen against metastatic melanoma to our nanocarrier will activate a broad immune response, resulting in an effective cancer vaccine that potentially targets different melanoma types, enabling off-the-shelf production. This dual action will lead to increased clinical benefit, which will come with less side effects and will be 5-10-fold cheaper than current treatments. Additionally, our conjugate is industrially scalable and thus overcome a major bottle neck of current nanocarrier-based medicine. We envision our platform technology to be used as a method of choice for drug delivery in many medical applications, such as cancer immunotherapy and neurodegenerative diseases. These applications are within reach, as depending on the modification, our conjugates can e.g. bypass the blood brain barrier and potentially be administered intranasally (nanogel). Our platform offers a highly attractive business case, as biotechnology and pharmaceutical companies heavily invest in nanoconjugates due to the need for novel drug delivery strategies.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/825798
Start date: 01-01-2019
End date: 30-09-2020
Total budget - Public funding: 149 938,00 Euro - 149 938,00 Euro
Cordis data

Original description

Despite various existing drug delivery methods, the key challenge remains: how to deliver drugs to the desired site of therapeutic action to achieve best treatment outcome, while minimising side effects? This is even more challenging in cancer immunotherapy as a complex interplay of immune reactions need to be activated. POLYMMUNE will evaluate the technical and commercial viability of our novel polymeric nanocarrier platform (developed during my ERC Consolidator grant MyNano) for targeted drug delivery of a wide variety of diseases and therapeutics. As proof of concept, we will focus on immunotherapy delivery for metastatic melanoma. Globally ~132,000 new melanoma cases will be diagnosed each year and despite recent successes, only 50% of the patients respond to novel immunotherapies that are costly, while causing severe side effects. Coupling a commercially available antigen against metastatic melanoma to our nanocarrier will activate a broad immune response, resulting in an effective cancer vaccine that potentially targets different melanoma types, enabling off-the-shelf production. This dual action will lead to increased clinical benefit, which will come with less side effects and will be 5-10-fold cheaper than current treatments. Additionally, our conjugate is industrially scalable and thus overcome a major bottle neck of current nanocarrier-based medicine. We envision our platform technology to be used as a method of choice for drug delivery in many medical applications, such as cancer immunotherapy and neurodegenerative diseases. These applications are within reach, as depending on the modification, our conjugates can e.g. bypass the blood brain barrier and potentially be administered intranasally (nanogel). Our platform offers a highly attractive business case, as biotechnology and pharmaceutical companies heavily invest in nanoconjugates due to the need for novel drug delivery strategies.

Status

CLOSED

Call topic

ERC-2018-PoC

Update Date

27-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.1. EXCELLENT SCIENCE - European Research Council (ERC)
ERC-2018
ERC-2018-PoC