Design and Validation of an Automated Process for the Expansion of Peripheral Blood-Derived CD34+ Cells for Clinical Use After Myocardial Infarction

Author:

Saucourt Claire1,Vogt Sandrine1,Merlin Amandine1,Valat Christophe1,Criquet Anthony1,Harmand Laurence2,Birebent Brigitte2,Rouard Hélène2,Himmelspach Christian3,Jeandidier Éric3,Chartois-Leauté Anne-Gaële4,Derenne Sophie5,Koehl Laurence6,Salem Joe-Elie6,Hulot Jean-Sébastien6,Tancredi Céline7,Aries Anne7,Judé Sébastien8,Martel Eric8,Richard Serge8,Douay Luc9,Hénon Philippe10

Affiliation:

1. CellProthera, Mulhouse, France

2. UITC, EFS Créteil

3. GHRMSA, Mulhouse, France

4. EFS, Nantes, France

5. EFS Atlantic Bio GMP, Nantes, France

6. INSERM, CIC-1421 and UMR ICAN 1166; AP-HP Pitié-Salpêtrière Hospital, Paris, France

7. IRHT, Mulhouse, France

8. CERB, Baugy, France

9. Université Pierre et Marie Curie, UMRS938, Paris, France

10. CellProthera and IRHT, Mulhouse, France

Abstract

Abstract We previously demonstrated that intracardiac delivery of autologous peripheral blood-derived CD34+ stem cells (SCs), mobilized by granulocyte-colony stimulating factor (G-CSF) and collected by leukapheresis after myocardial infarction, structurally and functionally repaired the damaged myocardial area. When used for cardiac indication, CD34+ cells are now considered as Advanced Therapy Medicinal Products (ATMPs). We have industrialized their production by developing an automated device for ex vivo CD34+-SC expansion, starting from a whole blood (WB) sample. Blood samples were collected from healthy donors after G-CSF mobilization. Manufacturing procedures included: (a) isolation of total nuclear cells, (b) CD34+ immunoselection, (c) expansion and cell culture recovery in the device, and (d) expanded CD34+ cell immunoselection and formulation. The assessment of CD34+ cell counts, viability, and immunophenotype and sterility tests were performed as quality tests. We established graft acceptance criteria and performed validation processes in three cell therapy centers. 59.4 × 106 ± 36.8 × 106 viable CD34+ cells were reproducibly generated as the final product from 220 ml WB containing 17.1 × 106 ± 8.1 × 106 viable CD34+ cells. CD34+ identity, genetic stability, and telomere length were consistent with those of basal CD34+ cells. Gram staining and mycoplasma and endotoxin analyses were negative in all cases. We confirmed the therapeutic efficacy of both CD34+-cell categories in experimental acute myocardial infarct (AMI) in immunodeficient rats during preclinical studies. This reproducible, automated, and standardized expansion process produces high numbers of CD34+ cells corresponding to the approved ATMP and paves the way for a phase I/IIb study in AMI, which is currently recruiting patients. Stem Cells Translational Medicine  2019;8:822–832

Funder

CellProthera SAS

Publisher

Oxford University Press (OUP)

Subject

Cell Biology,Developmental Biology,General Medicine

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