A cord blood monocyte–derived cell therapy product accelerates brain remyelination
Arjun Saha, Susan Buntz, Paula Scotland, Li Xu, Pamela Noeldner, Sachit Patel, Amy Wollish, Aruni Gunaratne, Tracy Gentry, Jesse Troy, Glenn K. Matsushima, Joanne Kurtzberg, Andrew E. Balber
Arjun Saha, Susan Buntz, Paula Scotland, Li Xu, Pamela Noeldner, Sachit Patel, Amy Wollish, Aruni Gunaratne, Tracy Gentry, Jesse Troy, Glenn K. Matsushima, Joanne Kurtzberg, Andrew E. Balber
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Research Article Neuroscience Therapeutics

A cord blood monocyte–derived cell therapy product accelerates brain remyelination

Abstract

Microglia and monocytes play important roles in regulating brain remyelination. We developed DUOC-01, a cell therapy product intended for treatment of demyelinating diseases, from banked human umbilical cord blood (CB) mononuclear cells. Immunodepletion and selection studies demonstrated that DUOC-01 cells are derived from CB CD14+ monocytes. We compared the ability of freshly isolated CB CD14+ monocytes and DUOC-01 cells to accelerate remyelination of the brains of NOD/SCID/IL2Rγnull mice following cuprizone feeding–mediated demyelination. The corpus callosum of mice intracranially injected with DUOC-01 showed enhanced myelination, a higher proportion of fully myelinated axons, decreased gliosis and cellular infiltration, and more proliferating oligodendrocyte lineage cells than those of mice receiving excipient. Uncultured CB CD14+ monocytes also accelerated remyelination, but to a significantly lesser extent than DUOC-01 cells. Microarray analysis, quantitative PCR studies, Western blotting, and flow cytometry demonstrated that expression of factors that promote remyelination including PDGF-AA, stem cell factor, IGF1, MMP9, MMP12, and triggering receptor expressed on myeloid cells 2 were upregulated in DUOC-01 compared to CB CD14+ monocytes. Collectively, our results show that DUOC-01 accelerates brain remyelination by multiple mechanisms and could be beneficial in treating demyelinating conditions.

Authors

Arjun Saha, Susan Buntz, Paula Scotland, Li Xu, Pamela Noeldner, Sachit Patel, Amy Wollish, Aruni Gunaratne, Tracy Gentry, Jesse Troy, Glenn K. Matsushima, Joanne Kurtzberg, Andrew E. Balber

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Figure 2

Some DUOC-01 cells disseminated from the injection site and persisted in the brain for up to 1 week after intracranial injection.

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Some DUOC-01 cells disseminated from the injection site and persisted in...
Cuprizone-fed (CPZ-fed) mice were stereotactically injected with CFSE-labeled DUOC-01 cells. All cell nuclei were stained with DAPI (blue). (A) CFSE-labeled (green) DUOC-01 cells were found in numerous parts of the brain including the injection site. Scale bars: 200 μm. CC, corpus callosum; SV, subventricular. (B) Representative images of CFSE-positive (green) and human nuclei (HuN, red)-positive cells in the brain at the injection site 4 days after injection. Upper left panel is CFSE (green) channel only, lower left panel is HuN (red) channel only, right panel is merge of CFSE, HuN, and DAPI channels. (C) Upper left panel is CFSE channel only, lower left panel is HuN channel only, right panel is merge of CFSE, HuN, and DAPI channels showing presence of DUOC-01 cells 7 days after injection at the CC. (D) Upper left panel is CFSE channel only, lower left panel is HuN channel only, right panel is merge of CFSE, HuN, and DAPI channels showing presence of DUOC-01 cells deep (white arrow) into the brain parenchyma. Scale bars (BD): 100 μm.