Tommy Regen scite author profile

During early embryogenesis, microglia arise from yolk sac progenitors that populate the developing central nervous system (CNS), but how the tissue-resident macrophages are maintained throughout the organism's lifespan still remains unclear. Here, we describe a system that allows specific, conditional ablation of microglia in adult mice. We found that the microglial compartment was reconstituted within 1 week of depletion. Microglia repopulation relied on CNS-resident cells, independent from bone-marrow-derived precursors. During repopulation, microglia formed clusters of highly proliferative cells that migrated apart once steady state was achieved. Proliferating microglia expressed high amounts of the interleukin-1 receptor (IL-1R), and treatment with an IL-1R antagonist during the repopulation phase impaired microglia proliferation. Hence, microglia have the potential for efficient self-renewal without the contribution of peripheral myeloid cells, and IL-1R signaling participates in this restorative proliferation process.

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Selective transfer of exosomes from oligodendrocytes to microglia by macropinocytosis

Fitzner

et al. 2011

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SummaryThe transfer of antigens from oligodendrocytes to immune cells has been implicated in the pathogenesis of autoimmune diseases. Here, we show that oligodendrocytes secrete small membrane vesicles called exosomes, which are specifically and efficiently taken up by microglia both in vitro and in vivo. Internalisation of exosomes occurs by a macropinocytotic mechanism without inducing a concomitant inflammatory response. After stimulation of microglia with interferon-, we observe an upregulation of MHC class II in a subpopulation of microglia. However, exosomes are preferentially internalised in microglia that do not seem to have antigenpresenting capacity. We propose that the constitutive macropinocytotic clearance of exosomes by a subset of microglia represents an important mechanism through which microglia participate in the degradation of oligodendroglial membrane in an immunologically 'silent' manner. By designating the capacity for macropinocytosis and antigen presentation to distinct cells, degradation and immune function might be assigned to different subtypes of microglia. Journal of Cell Sciencethrough which microglia participate in the degradation of oligodendroglial membrane. Results Internalisation of oligodendroglia-derived exosomes by microgliaTo obtain exosomes in large quantities, we isolated exosomes from the culture medium of the mouse oligodendroglial precursor cell line Oli-neu. Sequential centrifugation steps with increasing centrifugal forces up to 100,000 g yielded a pellet, which we have previously shown to contain small membrane vesicles with a diameter of about 50-100 nm (Trajkovic et al., 2008). Further analysis of the 100,000 g pellet with continuous sucrose density gradients revealed that PLP and myelin oligodendrocyte glycoprotein (MOG) are recovered from fractions with the characteristic density of exosomes that contain the exosomal marker proteins Alix (ALG-2-interacting protein 1), TSG101 and flotillin-2 (Fig. 1A). Hence, we refer to the 100,000 g membrane fractions as exosomes.To follow the fate of exosomes, suspensions of purified exosomes were labelled with the dye PKH67 and added to primary cultures of mouse oligodendrocytes, cortical neurons, astrocytes and microglia. After incubating the exosomes for 2 hours at 37°C, cells were fixed and analysed by confocal microscopy. We observed efficient internalisation of exosomes by microglia, whereas uptake by astrocytes, neurons or oligodendrocytes was almost absent (Fig. 1B). By confocal microscopy, we confirmed that exosomes were inside microglia rather than attached to the cell surface. In addition, we observed that exosomes colocalised with Lamp1, a marker for late endosomes or lysosomes, verifying that exosomes had been endocytosed and transported to endosomal organelles ( Fig. 2A). When exosomes were added to mixed brain cultures that contained all major glial cell types, we again observed that exosomes were almost exclusively internalised by Iba-1-positive microglia (supplementary material Fig. S1). Similar results wer...

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Manipulation of Host Hepatocytes by the Malaria Parasite for Delivery into Liver Sinusoids

Sturm

Amino

Sand

et al. 2006

Science

480

493

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The merozoite stage of the malaria parasite that infects erythrocytes and causes the symptoms of the disease is initially formed inside host hepatocytes. However, the mechanism by which hepatic merozoites reach blood vessels (sinusoids) in the liver and escape the host immune system before invading erythrocytes remains unknown. Here, we show that parasites induce the death and the detachment of their host hepatocytes, followed by the budding of parasite-filled vesicles (merosomes) into the sinusoid lumen. Parasites simultaneously inhibit the exposure of phosphatidylserine on the outer leaflet of host plasma membranes, which act as "eat me" signals to phagocytes. Thus, the hepatocyte-derived merosomes appear to ensure both the migration of parasites into the bloodstream and their protection from host immunity.

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Tommy Regen

Genetic Cell Ablation Reveals Clusters of Local Self-Renewing Microglia in the Mammalian Central Nervous System

Selective transfer of exosomes from oligodendrocytes to microglia by macropinocytosis

Manipulation of Host Hepatocytes by the Malaria Parasite for Delivery into Liver Sinusoids

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