DiViNe | Sustainable downstream processing of vaccines through incorporation of nanobiotechnologies : novel affinity ligands and biomimetic membranes

Summary
In the vaccine industry, downstream processing is of extreme importance. Prophylactic vaccines aim at protecting healthy people, so any contaminant has to be discarded with the most drastic measures. Such « negative » approach comes at the expense of the recovery of product : yields are poor, thereby inducing a high product cost. Processes are also complex, since they rely on multiple eliminations rather than on recovery of the unique product of interest. Technically, this is mostly due to the lack of specific capture systems that would allow direct, « positive » separation of the vaccine from its environment.Vaccines know no borders. For developing countries, the pressure on costs is even more acute, and local production is a way to try to reach the 1$ per dose target. In this context, water sustainability is a major issue, as it is a most sensitive ingredient in bioproduction.
DiViNe will tackle theses cost and environmental issues with technological answers. The partners will combine two major Nano/biotechnology innovations to develop an integrated purification platform amenable to the different natures of vaccines : glycoconjugates, protein antigens and enveloped viruses. They will implement Nanofitins (novel affinity capture ligands) and Aquaporin-based membranes (energy-saving nano-biomimetics used in the cleantech industry), for a « positive » purification approach. High yields are expected (data from antibody purification with Nanofitins), at affordable cost of goods and with a sustainable approach of water recycling.
Novartis Vaccines brings to the Consortium a broad range of targets, and identical strategies can be applied for biopharmaceuticals in general. The development custom affinity capture processes as a sustainable platform is therefore economically relevant, in a very large market. Beyond the technical partnership, the project is a first run for the partners to structure the platform as a commercial offer for downstream processing of biologics.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/635770
Start date: 01-03-2015
End date: 29-02-2020
Total budget - Public funding: 7 632 281,25 Euro - 5 790 580,00 Euro
Cordis data

Original description

In the vaccine industry, downstream processing is of extreme importance. Prophylactic vaccines aim at protecting healthy people, so any contaminant has to be discarded with the most drastic measures. Such « negative » approach comes at the expense of the recovery of product : yields are poor, thereby inducing a high product cost. Processes are also complex, since they rely on multiple eliminations rather than on recovery of the unique product of interest. Technically, this is mostly due to the lack of specific capture systems that would allow direct, « positive » separation of the vaccine from its environment.Vaccines know no borders. For developing countries, the pressure on costs is even more acute, and local production is a way to try to reach the 1$ per dose target. In this context, water sustainability is a major issue, as it is a most sensitive ingredient in bioproduction.
DiViNe will tackle theses cost and environmental issues with technological answers. The partners will combine two major Nano/biotechnology innovations to develop an integrated purification platform amenable to the different natures of vaccines : glycoconjugates, protein antigens and enveloped viruses. They will implement Nanofitins (novel affinity capture ligands) and Aquaporin-based membranes (energy-saving nano-biomimetics used in the cleantech industry), for a « positive » purification approach. High yields are expected (data from antibody purification with Nanofitins), at affordable cost of goods and with a sustainable approach of water recycling.
Novartis Vaccines brings to the Consortium a broad range of targets, and identical strategies can be applied for biopharmaceuticals in general. The development custom affinity capture processes as a sustainable platform is therefore economically relevant, in a very large market. Beyond the technical partnership, the project is a first run for the partners to structure the platform as a commercial offer for downstream processing of biologics.

Status

CLOSED

Call topic

BIOTEC-4-2014

Update Date

27-10-2022
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Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.4. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies – Biotechnology
H2020-LEIT-BIO-2014-1
BIOTEC-4-2014 Downstream processes unlocking biotechnological transformations