João P. Mendes scite author profile

João P. Mendes

3Publications

27Citation Statements Received

101Citation Statements Given

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Instituto de Biologia Experimental Tecnológica, Universidade Nova de Lisboa

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AAV process intensification by perfusion bioreaction and integrated clarification

Mendes

Fernandes

Pineda

et al. 2022

Front. Bioeng. Biotechnol.

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Adeno-associated viruses (AAVs) demand for clinical trials and approved therapeutic applications is increasing due to this vector’s overall success and potential. The high doses associated with administration strategies challenges bioprocess engineers to develop more efficient technologies and innovative strategies capable of increasing volumetric productivity. In this study, alternating tangential flow (ATF) and Tangential Flow Depth filtration (TFDF) techniques were compared as to their potential for 1) implementing a high-cell-density perfusion process to produce AAV8 using mammalian HEK293 cells and transient transfection, and 2) integrating AAV harvest and clarification units into a single step. On the first topic, the results obtained demonstrate that AAV expression improves with a medium exchange strategy. This was evidenced firstly in the small-scale perfusion-mocking study and later verified in the 2 L bioreactor operated in perfusion mode. Fine-tuning the shear rate in ATF and TFDF proved instrumental in maintaining high cell viabilities and, most importantly, enhancing AAV-specific titers (7.6 × 104 VG/cell), i.e., up to 4-fold compared to non-optimized perfusion cultures and 2-fold compared with batch operation mode. Regarding the second objective, TFDF enabled the highest recovery yields during perfusion-based continuous harvest of extracellular virus and lysate clarification. This study demonstrates that ATF and TFDF techniques have the potential to support the production and continuous harvest of AAV, and enable an integrated clarification procedure, contributing to the simplification of operations and improving manufacturing efficiency.

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Continuous Affinity Purification of Adeno-Associated Virus Using Periodic Counter-Current Chromatography

Mendes

Bergman²,

Solbrand³

et al. 2022

Pharmaceutics

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Replacing batch unit operations of biopharmaceuticals by continuous manufacturing is a maturing concept, with periodic counter-current chromatography (PCC) favoured to replace batch chromatography. Continuous affinity capture of adeno-associated virus (AAV) using PCC has the potential to cope with the high doses required for AAV therapies thanks to its inherent high throughput. The implementation of continuous AAV affinity capture using a four-column PCC process is described herein. First, elution buffer screening was used to optimize virus recovery. Second, breakthrough curves were generated and described using a mechanistic model, which was later used to characterize the loading zone of the PCC. The experimental runs achieved a stable cyclic steady state yielding virus recoveries in line with the optimized batch process (>82%), with almost a three-fold improvement in productivity. The PCC affinity capture process developed here can bolster further improvements to process economics and manufacturing footprint, thereby contributing to the integrated continuous manufacturing concept.

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Oncolytic virus purification with periodic counter‐current chromatography

Mendes

Silva

Berg³

et al. 2021

Biotech & Bioengineering

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Virus‐based biologicals are one of the most promising biopharmaceuticals of the 21st century medicine and play a significant role in the development of innovative therapeutic, prophylactic, and clinical applications. Oncolytic virus manufacturing scale can range from 5 L in research and development up to 50 L for clinical studies and reach hundreds of liters for commercial scale. The inherent productivity and high integration potential of periodic counter‐current chromatography (PCC) offer a transversal solution to decrease equipment footprint and the reduction of several non‐value‐added unit operations. We report on the design of an efficient PCC process applied to the intermediate purification of oncolytic adenovirus. The developed ion‐exchange chromatographic purification method was carried out using a four‐column setup for three different scenarios: (i) variation in the feedstock, (ii) potential use of a post‐load washing step to improve virus recovery, and (iii) stability during extended operation. Obtained virus recoveries (57%–86%) and impurity reductions (>80% DNA, and >70% total protein) match or overcome batch purification. Regarding process stability and automation, our results show that not only the dynamic control strategy used is able to suppress perturbations in the sample inlet but also allows for unattended operation in the case of ion exchange capture.

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João P. Mendes

AAV process intensification by perfusion bioreaction and integrated clarification

Continuous Affinity Purification of Adeno-Associated Virus Using Periodic Counter-Current Chromatography

Oncolytic virus purification with periodic counter‐current chromatography

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