Marcus Müller scite author profile

In a lethal West Nile virus (WNV) model, central nervous system infection triggered a threefold increase in CD45 int /CD11b + /CD11c ؊ microglia at days 6 -7 postinfection (p.i.). Few microglia were proliferating, suggesting that the increased numbers were derived from a migratory precursor cell. Depletion of " circulating " (Gr1 ؊ (Ly6C lo )CX3CR1 + ) and " infl ammatory " (Gr1 hi /Ly6C hi /CCR2 + ) classical monocytes during infection abrogated the increase in microglia. C57BL/6 chimeras reconstituted with cFMS -enhanced green fl uorescent protein (EGFP) bone marrow (BM) showed large numbers of peripherally derived (GFP + ) microglia expressing GR1 + (Ly6C + ) at day 7 p.i., suggesting that the infl ammatory monocyte is a microglial precursor. This was confi rmed by adoptive transfer of labeled BM (Ly6C hi /CD115 + ) or circulating infl ammatory monocytes that traffi cked to the WNV-infected brain and expressed a microglial phenotype. CCL2 is a chemokine that is highly expressed during WNV infection and important in infl ammatory monocyte traffi cking. Neutralization of CCL2 not only reduced the number of GFP + microglia in the brain during WNV infection but prolonged the life of infected animals. Therefore, CCL2-dependent infl ammatory monocyte migration is critical for increases in microglia during WNV infection and may also play a pathogenic role during WNV encephalitis.

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A physiological place–frequency map of the cochlea in the CBA/J mouse

Müller

et al. 2005

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Therapeutic Inflammatory Monocyte Modulation Using Immune-Modifying Microparticles

et al. 2014

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Inflammatory monocyte-derived effector cells play an important role in the pathogenesis of numerous inflammatory diseases. However, no treatment option exists that is capable of modulating these cells specifically. We show that infused negatively charged, immune-modifying microparticles (IMPs), derived from polystyrene, microdiamonds, or biodegradable poly(lactic-co-glycolic) acid, were taken up by inflammatory monocytes, in an opsonin-independent fashion, via the macrophage receptor with collagenous structure (MARCO). Subsequently, these monocytes no longer trafficked to sites of inflammation; rather, IMP infusion caused their sequestration in the spleen through apoptotic cell clearance mechanisms and, ultimately, caspase-3–mediated apoptosis. Administration of IMPs in mouse models of myocardial infarction, experimental autoimmune encephalomyelitis, dextran sodium sulfate–induced colitis, thioglycollate-induced peritonitis, and lethal flavivirus encephalitis markedly reduced monocyte accumulation at inflammatory foci, reduced disease symptoms, and promoted tissue repair. Together, these data highlight the intricate interplay between scavenger receptors, the spleen, and inflammatory monocyte function and support the translation of IMPs for therapeutic use in diseases caused or potentiated by inflammatory monocytes.

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Predominant phagocytic activity of resident microglia over hematogenous macrophages following transient focal cerebral ischemia: An investigation using green fluorescent protein transgenic bone marrow chimeric mice

Schilling

Besselmann

Müller

et al. 2005

Experimental Neurology

240

192

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Review: The chemokine receptor CXCR3 and its ligands CXCL9, CXCL10 and CXCL11 in neuroimmunity - a tale of conflict and conundrum

et al. 2010

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The chemokine receptor CXCR3 and its ligands CXCL9, CXCL10 and CXCL11 in neuroimmunity - a tale of conflict and conundrum The chemokines CXCL9, CXCL10 and CXCL11 (also known as monokine induced by interferon-gamma, interferon-inducible protein-10 and interferon-inducible T cell alpha-chemoattractant, respectively) are structurally and functionally related molecules within the non-ELR CXC chemokine subgroup. These chemokines are generally not detectable in most non-lymphoid tissues under physiological conditions but are strongly induced by cytokines, particularly interferon-gamma, during infection, injury or immunoinflammatory responses. CXCL9, CXCL10 and CXCL11 each bind to a common primary receptor, CXCR3, and possibly to additional receptors. They are best known for their role in leucocyte trafficking, principally acting on activated CD4+ Th1 cells, CD8+ T cells and NK cells. An abundance of data demonstrates that CXCL9, CXCL10 and CXCL11 are produced in many diverse pathologic conditions of the central nervous system. More recent attention has focussed on the function of these chemokines in the central nervous system inflammation. The results of these studies have proven to be sometimes surprising and other times contradictory. Here we discuss the likely more subtle and perhaps divergent roles for these chemokines in the pathogenesis of neuroinflammatory diseases.

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The cochlear place-frequency map of the adult and developing mongolian gerbil

1996

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Chemokine Gene Expression during Fatal Murine Cerebral Malaria and Protection Due to CXCR3 Deficiency

et al. 2008

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Cerebral malaria (CM) can be a fatal manifestation of Plasmodium falciparum infection. Using murine models of malaria, we found much greater up-regulation of a number of chemokine mRNAs, including those for CXCR3 and its ligands, in the brain during fatal murine CM (FMCM) than in a model of non-CM. Expression of CXCL9 and CXCL10 RNA was localized predominantly to the cerebral microvessels and in adjacent glial cells, while expression of CCL5 was restricted mainly to infiltrating lymphocytes. The majority of mice deficient in CXCR3 were found to be protected from FMCM, and this protection was associated with a reduction in the number of CD8+ T cells in brain vessels as well as reduced expression of perforin and FasL mRNA. Adoptive transfer of CD8+ cells from C57BL/6 mice with FMCM abrogated this protection in CXCR3−/− mice. Moreover, there were decreased mRNA levels for the proinflammatory cytokines IFN-γ and lymphotoxin-α in the brains of mice protected from FMCM. These data suggest a role for CXCR3 in the pathogenesis of FMCM through the recruitment and activation of pathogenic CD8+ T cells.

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Deletion of the Ca²+-activated potassium (BK) α-subunit but not the BKβ1-subunit leads to progressive hearing loss

Rüttiger

Sausbier

Zimmermann

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

174

157

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The large conductance voltage-and Ca 2؉ -activated potassium (BK) channel has been suggested to play an important role in the signal transduction process of cochlear inner hair cells. BK channels have been shown to be composed of the pore-forming ␣-subunit coexpressed with the auxiliary ␤1-subunit. Analyzing the hearing function and cochlear phenotype of BK channel ␣-(BK␣ ؊/؊ ) and ␤1-subunit (BK␤1 ؊/؊ ) knockout mice, we demonstrate normal hearing function and cochlear structure of BK␤1 ؊/؊ mice. During the first 4 postnatal weeks also, BK␣ ؊/؊ mice most surprisingly did not show any obvious hearing deficits. High-frequency hearing loss developed in BK␣ ؊/؊ mice only from Ϸ8 weeks postnatally onward and was accompanied by a lack of distortion product otoacoustic emissions, suggesting outer hair cell (OHC) dysfunction. Hearing loss was linked to a loss of the KCNQ4 potassium channel in membranes of OHCs in the basal and midbasal cochlear turn, preceding hair cell degeneration and leading to a similar phenotype as elicited by pharmacologic blockade of KCNQ4 channels. Although the actual link between BK gene deletion, loss of KCNQ4 in OHCs, and OHC degeneration requires further investigation, data already suggest human BK-coding slo1 gene mutation as a susceptibility factor for progressive deafness, similar to KCNQ4 potassium channel mutations.cochlea ͉ KCNQ4 C a 2ϩ -activated potassium (BK) channels are heterooctamers of four ␣-and four ␤-subunits. The pore-forming ␣-subunit (KCNMA1) is a member of the slo family of potassium channels (1), originally identified in Drosophila (2). Studies of BK channels from smooth muscle have identified an auxiliary ␤1-subunit (KCNMB1) whose presence in the channel complex confers an increased voltage and calcium sensitivity toward the poreforming ␣-subunit (3).In turtle and chick, there is evidence that differential splicing of the BK channel ␣-subunit in conjunction with a graded expression of the auxiliary ␤-subunit along the tonotopic axis provides the functional heterogeneity of BK channels that underlies electrical tuning (for review, see ref. 4).In inner hair cells (IHCs) of the mammalian organ of Corti, the predominant K ϩ conductance is a voltage-and Ca 2ϩ -activated K ϩ channel termed I K,f (5, 6). BK channel mRNA (7,8) and protein expression (8) were shown in IHCs, indicating that I K,f flows through BK channels. The presumed physiological roles of BK channels are (i) a decrease of the membrane time constant even at the resting potential and (ii) fast repolarization of the receptor potential. Both contribute to phase-locked receptor potentials up to high sound frequencies (6). In addition to IHCs, BK type Ca 2ϩ -activated K ϩ conductances have been measured in OHCs (9) and in efferent fibers onto outer hair cells (OHCs) (10). The role of BKs in either OHCs or efferents is still controversially discussed (9).Studying the expression of BK channel ␣-splice variants and ␤-isoforms in rat cochlea using in situ hybridization and PCR techniques revealed the strict coexpressio...

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Marcus Müller

Ly6c+ “inflammatory monocytes” are microglial precursors recruited in a pathogenic manner in West Nile virus encephalitis

A physiological place–frequency map of the cochlea in the CBA/J mouse

Therapeutic Inflammatory Monocyte Modulation Using Immune-Modifying Microparticles

Predominant phagocytic activity of resident microglia over hematogenous macrophages following transient focal cerebral ischemia: An investigation using green fluorescent protein transgenic bone marrow chimeric mice

Review: The chemokine receptor CXCR3 and its ligands CXCL9, CXCL10 and CXCL11 in neuroimmunity - a tale of conflict and conundrum

The cochlear place-frequency map of the adult and developing mongolian gerbil

Chemokine Gene Expression during Fatal Murine Cerebral Malaria and Protection Due to CXCR3 Deficiency

Deletion of the Ca²+-activated potassium (BK) α-subunit but not the BKβ1-subunit leads to progressive hearing loss

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Marcus Müller

Ly6c+ “inflammatory monocytes” are microglial precursors recruited in a pathogenic manner in West Nile virus encephalitis

A physiological place–frequency map of the cochlea in the CBA/J mouse

Therapeutic Inflammatory Monocyte Modulation Using Immune-Modifying Microparticles

Predominant phagocytic activity of resident microglia over hematogenous macrophages following transient focal cerebral ischemia: An investigation using green fluorescent protein transgenic bone marrow chimeric mice

Review: The chemokine receptor CXCR3 and its ligands CXCL9, CXCL10 and CXCL11 in neuroimmunity - a tale of conflict and conundrum

The cochlear place-frequency map of the adult and developing mongolian gerbil

Chemokine Gene Expression during Fatal Murine Cerebral Malaria and Protection Due to CXCR3 Deficiency

Deletion of the Ca2+-activated potassium (BK) α-subunit but not the BKβ1-subunit leads to progressive hearing loss

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Product

Resources

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Deletion of the Ca²+-activated potassium (BK) α-subunit but not the BKβ1-subunit leads to progressive hearing loss