Cargando…

Development, functional characterization and validation of methodology for GMP-compliant manufacture of phagocytic macrophages: A novel cellular therapeutic for liver cirrhosis

BACKGROUND AIMS: Autologous macrophage therapy represents a potentially significant therapeutic advance for the treatment of severe progressive liver cirrhosis. Administration of macrophages has been shown to reduce inflammation and drive fibrotic scar breakdown and tissue repair in relevant models....

Descripción completa

Detalles Bibliográficos
Autores principales: Fraser, Alasdair R., Pass, Chloe, Burgoyne, Paul, Atkinson, Anne, Bailey, Laura, Laurie, Audrey, W.A. McGowan, Neil, Hamid, Akib, Moore, Joanna K., Dwyer, Benjamin J., Turner, Marc L., Forbes, Stuart J., Campbell, John D.M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2017
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5571439/
https://www.ncbi.nlm.nih.gov/pubmed/28673774
http://dx.doi.org/10.1016/j.jcyt.2017.05.009
_version_ 1783259339007459328
author Fraser, Alasdair R.
Pass, Chloe
Burgoyne, Paul
Atkinson, Anne
Bailey, Laura
Laurie, Audrey
W.A. McGowan, Neil
Hamid, Akib
Moore, Joanna K.
Dwyer, Benjamin J.
Turner, Marc L.
Forbes, Stuart J.
Campbell, John D.M.
author_facet Fraser, Alasdair R.
Pass, Chloe
Burgoyne, Paul
Atkinson, Anne
Bailey, Laura
Laurie, Audrey
W.A. McGowan, Neil
Hamid, Akib
Moore, Joanna K.
Dwyer, Benjamin J.
Turner, Marc L.
Forbes, Stuart J.
Campbell, John D.M.
author_sort Fraser, Alasdair R.
collection PubMed
description BACKGROUND AIMS: Autologous macrophage therapy represents a potentially significant therapeutic advance for the treatment of severe progressive liver cirrhosis. Administration of macrophages has been shown to reduce inflammation and drive fibrotic scar breakdown and tissue repair in relevant models. This therapeutic approach is being assessed for safety and feasibility in a first-in-human trial (MAcrophages Therapy for liver CirrHosis [MATCH] trial). METHODS: We outline the development and validation phases of GMP production. This includes use of the CliniMACS Prodigy cell sorting system to isolate CD14(+) cells; optimizing macrophage culture conditions, assessing cellular identity, product purity, functional capability and determining the stability of the final cell product. RESULTS: The GMP-compliant macrophage products have a high level of purity and viability, and have a consistent phenotypic profile, expressing high levels of mature macrophage markers 25F9 and CD206 and low levels of CCR2. The macrophages demonstrate effective phagocytic capacity, are constitutively oriented to an anti-inflammatory profile and remain responsive to cytokine and TLR stimulation. The process validation shows that the cell product in excipient is remarkably robust, consistently passing the viability and phenotypic release criteria up to 48 hours after harvest. CONCLUSIONS: This is the first report of validation of a large-scale, fully Good Manufacturing Practice–compliant, autologous macrophage cell therapy product for the potential treatment of cirrhosis. Phenotypic and functional assays confirm that these cells remain functionally viable for up to 48 h, allowing significant flexibility in administration to patients.
format Online
Article
Text
id pubmed-5571439
institution National Center for Biotechnology Information
language English
publishDate 2017
publisher Elsevier
record_format MEDLINE/PubMed
spelling pubmed-55714392017-09-01 Development, functional characterization and validation of methodology for GMP-compliant manufacture of phagocytic macrophages: A novel cellular therapeutic for liver cirrhosis Fraser, Alasdair R. Pass, Chloe Burgoyne, Paul Atkinson, Anne Bailey, Laura Laurie, Audrey W.A. McGowan, Neil Hamid, Akib Moore, Joanna K. Dwyer, Benjamin J. Turner, Marc L. Forbes, Stuart J. Campbell, John D.M. Cytotherapy Cell Production BACKGROUND AIMS: Autologous macrophage therapy represents a potentially significant therapeutic advance for the treatment of severe progressive liver cirrhosis. Administration of macrophages has been shown to reduce inflammation and drive fibrotic scar breakdown and tissue repair in relevant models. This therapeutic approach is being assessed for safety and feasibility in a first-in-human trial (MAcrophages Therapy for liver CirrHosis [MATCH] trial). METHODS: We outline the development and validation phases of GMP production. This includes use of the CliniMACS Prodigy cell sorting system to isolate CD14(+) cells; optimizing macrophage culture conditions, assessing cellular identity, product purity, functional capability and determining the stability of the final cell product. RESULTS: The GMP-compliant macrophage products have a high level of purity and viability, and have a consistent phenotypic profile, expressing high levels of mature macrophage markers 25F9 and CD206 and low levels of CCR2. The macrophages demonstrate effective phagocytic capacity, are constitutively oriented to an anti-inflammatory profile and remain responsive to cytokine and TLR stimulation. The process validation shows that the cell product in excipient is remarkably robust, consistently passing the viability and phenotypic release criteria up to 48 hours after harvest. CONCLUSIONS: This is the first report of validation of a large-scale, fully Good Manufacturing Practice–compliant, autologous macrophage cell therapy product for the potential treatment of cirrhosis. Phenotypic and functional assays confirm that these cells remain functionally viable for up to 48 h, allowing significant flexibility in administration to patients. Elsevier 2017-09 /pmc/articles/PMC5571439/ /pubmed/28673774 http://dx.doi.org/10.1016/j.jcyt.2017.05.009 Text en © 2017 International Society for Cellular Therapy. Elsevier Inc. All rights reserved. http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Cell Production
Fraser, Alasdair R.
Pass, Chloe
Burgoyne, Paul
Atkinson, Anne
Bailey, Laura
Laurie, Audrey
W.A. McGowan, Neil
Hamid, Akib
Moore, Joanna K.
Dwyer, Benjamin J.
Turner, Marc L.
Forbes, Stuart J.
Campbell, John D.M.
Development, functional characterization and validation of methodology for GMP-compliant manufacture of phagocytic macrophages: A novel cellular therapeutic for liver cirrhosis
title Development, functional characterization and validation of methodology for GMP-compliant manufacture of phagocytic macrophages: A novel cellular therapeutic for liver cirrhosis
title_full Development, functional characterization and validation of methodology for GMP-compliant manufacture of phagocytic macrophages: A novel cellular therapeutic for liver cirrhosis
title_fullStr Development, functional characterization and validation of methodology for GMP-compliant manufacture of phagocytic macrophages: A novel cellular therapeutic for liver cirrhosis
title_full_unstemmed Development, functional characterization and validation of methodology for GMP-compliant manufacture of phagocytic macrophages: A novel cellular therapeutic for liver cirrhosis
title_short Development, functional characterization and validation of methodology for GMP-compliant manufacture of phagocytic macrophages: A novel cellular therapeutic for liver cirrhosis
title_sort development, functional characterization and validation of methodology for gmp-compliant manufacture of phagocytic macrophages: a novel cellular therapeutic for liver cirrhosis
topic Cell Production
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5571439/
https://www.ncbi.nlm.nih.gov/pubmed/28673774
http://dx.doi.org/10.1016/j.jcyt.2017.05.009
work_keys_str_mv AT fraseralasdairr developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT passchloe developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT burgoynepaul developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT atkinsonanne developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT baileylaura developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT laurieaudrey developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT wamcgowanneil developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT hamidakib developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT moorejoannak developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT dwyerbenjaminj developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT turnermarcl developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT forbesstuartj developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis
AT campbelljohndm developmentfunctionalcharacterizationandvalidationofmethodologyforgmpcompliantmanufactureofphagocyticmacrophagesanovelcellulartherapeuticforlivercirrhosis