Clinical-grade Plant-made nanomaterials: from Process Design to the construction of a Manufacturing facility
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Plant-made nanomaterials are proteinaceous elements that are emerging as multi-purpose and versatile tools in the therapeutic landscape. In the context of autoimmune diseases, Tomato Bushy Stunt Virus (TBSV) has been previously explored as a platform for inducing immune tolerance by displaying disease-specific immunodominant peptides—offering a potential path toward disease remission.
In this study, we developed a dedicated facility and a GMP-compliant manufacturing process for producing TBSV-based nanoparticles engineered to display peptides relevant to specific autoimmune disorders.
Data collected from multiple non-consecutive pilot-scale production batches were used to build a simplified techno-economic model of the process.
The process is readily scalable and offers opportunities for further improvements, supporting the potential to meet market demands for early-stage therapeutic interventions in autoimmune diseases.
Additionally, an environmental, health, and safety (EHS) assessment of the process demonstrated a highly favorable environmental output index and minimal associated risks, reinforcing the platform’s sustainability.
These results support the viability of plant-based manufacturing for therapeutic nanomaterials and highlight TBSV’s potential as a novel platform for tolerance-inducing treatments in autoimmune diseases.
