Bone-marrow-derived cell differentiation into microglia: A study in a progressive mouse model of Parkinson's disease

Abstract The migration of peripheral bone-marrow-derived cells (BMDCs) to the brain was studied in a chronic mouse model of Parkinson's disease (PD). BMDCs expressing the enhanced green fluorescent protein (GFP) were aseptically obtained from C57 BL/6-EGFP-Tg mice and intravenously injected int...

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Bibliographic Details
Published in:Neurobiology of disease 2007-12, Vol.28 (3), p.316-325
Main Authors: Rodriguez, Manuel, Alvarez-Erviti, Lydia, Blesa, Francisco J, Rodríguez-Oroz, Maria C, Arina, Ainhoa, Melero, Ignacio, Ramos, Luís Isaac, Obeso, Jose A
Format: Article
Language:English
Subjects:
Animals
Antigens, CD - metabolism
Antigens, Differentiation, Myelomonocytic - metabolism
Blood–brain barrier
Bone marrow
Bone Marrow Cells - physiology
Bone Marrow Cells - radiation effects
Bone Marrow Transplantation - methods
Brain - metabolism
Brain - physiopathology
Cell Differentiation - physiology
Disease Models, Animal
Disease Progression
Dopamine - metabolism
Green Fluorescent Proteins - genetics
Green Fluorescent Proteins - metabolism
Male
Mice
Mice, Inbred C57BL
Mice, Transgenic
Microglia
Microglia - physiology
Nerve Tissue Proteins - metabolism
Neurology
Parkinson's disease
Parkinsonian Disorders - pathology
Parkinsonian Disorders - surgery
Thymus Gland - metabolism
Thymus Gland - physiopathology
Time Factors
Whole-Body Irradiation - methods
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Summary:Abstract The migration of peripheral bone-marrow-derived cells (BMDCs) to the brain was studied in a chronic mouse model of Parkinson's disease (PD). BMDCs expressing the enhanced green fluorescent protein (GFP) were aseptically obtained from C57 BL/6-EGFP-Tg mice and intravenously injected into C57 BL/6j mice which had received a total body irradiation of 8 Gy to induce bone marrow ablation. Implanted GFP-BMDCs replenished the bone marrow of irradiated mice, and progressively crossed the blood–brain barrier (BBB), penetrating different mesencephalic and telencephalic brain regions in the following months. The progressive degeneration of dopamine (DA) cells with a small daily dose (4 mg/kg/day for 20 days) of 1-methyl-4-phenyl-1,2,3,6-tetrahydro-pyridine (MPTP) increased the penetration of GFP-BMDCs into the brain, particularly into those regions with marked DA innervation and which showed the clearest DA cell loss. BMDC penetration increased before the DA cell loss was evident and persisted for a long time after MPTP withdrawal. Under these conditions, most BMDCs differentiated into microglia (CD68 expression was observed in 50% of GFP cells 60 days after MPTP administration). BMDC-derived microglia showed morphological characteristics of cell activation, with the glial cell line-derived neurotrophic factor only being expressed in 3% of the cells. No differentiation into neurons (NeuN expression), astrocites (GFAP), cytotoxic lymphocytes (CD8) and T-helper lymphocytes (CD4) was observed. Taken together, the present data suggest that a significant portion of microglial cells is of a peripheral origin. Bearing in mind that microglial reaction is a significant part of the degenerative process in PD, the increase of BMDC penetration into DA-rich areas during DA cell degeneration and their differentiation into microglia suggest that cells coming across the BBB may participate in the neurodegeneration process. The precise role of such a cell inflow into the brain requires further study. Nevertheless, this may represent an opportunity to develop neuroprotective therapeutic strategies for PD.
ISSN:0969-9961
1095-953X
DOI:10.1016/j.nbd.2007.07.024