Ishar Dalmau scite author profile

Entrance of mesodermal precursors into the developing CNS is the most well-accepted origin of microglia. However, the contribution of proliferation and death of recruited microglial precursors to the final microglial cell population remains to be elucidated. To investigate microglial proliferation and apoptosis during development, we combined proliferating cell nuclear antigen (PCNA) immunohistochemistry, in situ detection of nuclear DNA fragmentation (TUNEL), and caspase-3 immunohistochemistry with tomato lectin histochemistry, a selective microglial marker. The study was carried out in Wistar rats from embryonic day (E) 16 to postnatal day (P) 18 in cerebral cortex, subcortical white matter, and hippocampus. Proliferating microglial cells were found at all ages in the three brain regions and represented a significant fraction of the total microglial cell population. The percentage of microglia expressing PCNA progressively increased from the embryonic period (25-51% at E16) to a maximum at P9, when the great majority of microglia expressed PCNA (92-99%) in all the brain regions analyzed. In spite of the remarkable proliferation and expansion of the microglial population with time, the density of microglia remained quite constant in most brain regions because of the considerable growth of the brain during late prenatal and early postnatal periods. In contrast, apoptosis of microglia was detected only at certain times and was restricted to some ameboid cells in white matter and primitive ramified cells in gray matter, representing a small fraction of the microglial population. Therefore, our results point to proliferation of microglial precursors in the developing brain as a physiological mechanism contributing to the acquisition of the adult microglial cell population. In contrast, microglial apoptosis occurs only locally at certain developmental stages and thus seems less crucial for the establishment of the final density of microglia.

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Immunohistochemical Markers for Quantitative Studies of Neurons and Glia in Human Neocortex

Lyck

Dalmau

Chemnitz

et al. 2007

J Histochem Cytochem.

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Reproducible visualization of neurons and glia in human brain is essential for quantitative studies of the cellular changes in neurological disease. However, immunohistochemistry in human brain specimens is often compromised because of prolonged fixation. To select cell lineage-specific antibodies for quantitative studies of neurons and the major types of glia, we used 29 different antibodies, different epitope retrieval methods, and different detection systems to stain tissue arrays of formalin-fixed human brain. The screening pointed at CD45/leukocyte common antigen (LCA), CD68(KP1), 2',3' cyclic nucleotide phosphatase (CNPase), glial fibrillary acidic protein (GFAP), HLA-DR, Ki67, neuronal nuclei (NeuN), p25alpha-antigen, and S100beta as candidates for future cell counting purposes, because these markers visualized specific neuronal and glial cell bodies. However, significant negative correlation between staining result and formalin fixation was observed by blinded scoring of staining for CD45/LCA, CNPase, GFAP, and NeuN in brain specimens fixed by immersion and stored up to 10 years in 4% formalin solution at room temperature, independent of donor sex and postmortem interval. In contrast, improved preservation of NeuN and CNPase staining, and full preservation of GFAP and CD45/LCA staining in tissue fixed by perfusion and stored for up to 3 years in 0.1% paraformaldehyde solution at 4C, indicated that immunohistochemistry can be performed in well-preserved biobank material.

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Proliferating resident microglia express the stem cell antigen CD34 in response to acute neural injury

Ladeby

Wirenfeldt

Dalmau

et al. 2005

Glia

127

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Reactive microgliosis is a highly characteristic response to neural injury and disease, which may influence neurodegenerative processes and neural plasticity. We have investigated the origin and characteristics of reactive microglia in the acute phase of their activation in the dentate gyrus following transection of the entorhino-dentate perforant path projection. To investigate the possible link between microglia and hematopoietic precursors, we analyzed the expression of the stem cell marker CD34 by lesion-reactive microglia in conjunction with the proliferation marker bromodeoxyuridine (BrdU) and the use of radiation bone marrow (BM) chimeric mice. We found that CD34 is upregulated on early-activated resident microglia, rather than by infiltrating bone marrow-derived cells. The number of CD34(+) microglia peaked at day 3 when 67% of the resident CD11b/Mac-1(+) microglia co-expressed CD34, and all CD34(+) cells co-expressed Mac-1, and decreased sharply toward day 5, unlike Mac-1, which was maximally expressed at day 5. Approximately 80% of the CD34(+) cells in the denervated dentate gyrus had incorporated BrdU into their nuclei at day 3. We also showed that CD34 is upregulated on early-activated microglia in the facial motor nucleus following peripheral axotomy. The results suggest lesion-reactive microglia to consist of functionally distinct subpopulations of cells; a major population of activated resident CD34(+)Mac-1(+) microglia with a high capacity for self-renewal, and a subpopulation of CD34(-)Mac-1(+) microglia which has a mixed extrinsic and intrinsic origin and whose proliferative capacity is unknown.

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Ishar Dalmau

Microglial cell population dynamics in the injured adult central nervous system

Dynamics of microglia in the developing rat brain

Immunohistochemical Markers for Quantitative Studies of Neurons and Glia in Human Neocortex

Proliferating resident microglia express the stem cell antigen CD34 in response to acute neural injury

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