Hypoxic Incubation Conditions for Optimized Manufacture of Tenocyte-Based Active Pharmaceutical Ingredients of Homologous Standardized Transplant Products in Tendon Regenerative Medicine.

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State: Public
Version: Final published version
License: CC BY 4.0
Serval ID
serval:BIB_8B15556E47DA
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Hypoxic Incubation Conditions for Optimized Manufacture of Tenocyte-Based Active Pharmaceutical Ingredients of Homologous Standardized Transplant Products in Tendon Regenerative Medicine.
Journal
Cells
Author(s)
Jeannerat A., Peneveyre C., Armand F., Chiappe D., Hamelin R., Scaletta C., Hirt-Burri N., de Buys Roessingh A., Raffoul W., Applegate L.A., Laurent A.
ISSN
2073-4409 (Electronic)
ISSN-L
2073-4409
Publication state
Published
Issued date
25/10/2021
Peer-reviewed
Oui
Volume
10
Number
11
Pages
2872
Language
english
Notes
Publication types: Journal Article ; Research Support, Non-U.S. Gov't
Publication Status: epublish
Abstract
Human fetal progenitor tenocytes (hFPT) produced in defined cell bank systems have recently been characterized and qualified as potential therapeutic cell sources in tendon regenerative medicine. In view of further developing the manufacture processes of such cell-based active pharmaceutical ingredients (API), the effects of hypoxic in vitro culture expansion on key cellular characteristics or process parameters were evaluated. To this end, multiple aspects were comparatively assessed in normoxic incubation (i.e., 5% CO <sub>2</sub> and 21% O <sub>2</sub> , standard conditions) or in hypoxic incubation (i.e., 5% CO <sub>2</sub> and 2% O <sub>2</sub> , optimized conditions). Experimentally investigated parameters and endpoints included cellular proliferation, cellular morphology and size distribution, cell surface marker panels, cell susceptibility toward adipogenic and osteogenic induction, while relative protein expression levels were analyzed by quantitative mass spectrometry. The results outlined conserved critical cellular characteristics (i.e., cell surface marker panels, cellular phenotype under chemical induction) and modified key cellular parameters (i.e., cell size distribution, endpoint cell yields, matrix protein contents) potentially procuring tangible benefits for next-generation cell manufacturing workflows. Specific proteomic analyses further shed some light on the cellular effects of hypoxia, potentially orienting further hFPT processing for cell-based, cell-free API manufacture. Overall, this study indicated that hypoxic incubation impacts specific hFPT key properties while preserving critical quality attributes (i.e., as compared to normoxic incubation), enabling efficient manufacture of tenocyte-based APIs for homologous standardized transplant products.
Keywords
active pharmaceutical ingredients, cell banking, cell manufacture, human progenitor tenocytes, hypoxia, optimization, proteomics, regenerative medicine, standardized transplants, tendon affections
Pubmed
Web of science
Open Access
Yes
Create date
03/12/2021 10:49
Last modification date
23/11/2022 7:13
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