Martin Krueger scite author profile

Perivascular, meningeal and choroid plexus macrophages are non-parenchymal macrophages that mediate immune responses at brain boundaries. Although the origin of parenchymal microglia has recently been elucidated, much less is known about the precursors, the underlying transcriptional program and the dynamics of the other macrophages in the central nervous system (CNS). It has been assumed that they have a high turnover with blood-borne monocytes. However, large scale single-cell RNA-sequencing reveals a striking molecular overlap between perivascular macrophages and microglia but not monocytes. Using several fate mapping approaches and parabiosis we demonstrate that CNS macrophages arise from yolk sac precursors during embryonic development and remain a stable population. Notably, the generation of CNS macrophages relies on the transcription factor Pu.1 whereas myb, Batf3 and Nr4a1 are not required. Upon autoimmune inflammation, macrophages undergo extensive self-renewal by local proliferation. Our data provide challenging new insights into brains innate immune system.

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A novel microglial subset plays a key role in myelinogenesis in developing brain

Włodarczyk

et al. 2017

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Microglia are resident macrophages of the central nervous system that contribute to homeostasis and neuroinflammation. Although known to play an important role in brain development, their exact function has not been fully described. Here, we show that in contrast to healthy adult and inflammation‐activated cells, neonatal microglia show a unique myelinogenic and neurogenic phenotype. A CD11c+ microglial subset that predominates in primary myelinating areas of the developing brain expresses genes for neuronal and glial survival, migration, and differentiation. These cells are the major source of insulin‐like growth factor 1, and its selective depletion from CD11c+ microglia leads to impairment of primary myelination. CD11c‐targeted toxin regimens induced a selective transcriptional response in neonates, distinct from adult microglia. CD11c+ microglia are also found in clusters of repopulating microglia after experimental ablation and in neuroinflammation in adult mice, but despite some similarities, they do not recapitulate neonatal microglial characteristics. We therefore identify a unique phenotype of neonatal microglia that deliver signals necessary for myelination and neurogenesis.

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Prospects for microbiological solutions to environmental pollution with plastics

Krueger

Harms

Schlößer

2015

Appl Microbiol Biotechnol

404

187

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Synthetic polymers, commonly named plastics, are among the most widespread anthropogenic pollutants of marine, limnic and terrestrial ecosystems. Disruptive effects of plastics are known to threaten wildlife and exert effects on natural food webs, but signs for and knowledge on plastic biodegradation are limited. Microorganisms are the most promising candidates for an eventual bioremediation of environmental plastics. Laboratory studies have reported various effects of microorganisms on many types of polymers, usually by enzymatic hydrolysis or oxidation. However, most common plastics have proved to be highly recalcitrant even under conditions known to favour microbial degradation. Knowledge on environmental degradation is yet scarcer. With this review, we provide a comprehensive overview of the current knowledge on microbiological degradation of several of the most common plastic types. Furthermore, we illustrate the analytical challenges concerning the evaluation of plastic biodegradation as well as constraints likely standing against the evolution of effective biodegradation pathways.

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Structure of a methyl-coenzyme M reductase from Black Sea mats that oxidize methane anaerobically

Shima

Krueger

Weinert

et al. 2011

Nature

159

166

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The anaerobic oxidation of methane (AOM) with sulphate, an area currently generating great interest in microbiology, is accomplished by consortia of methanotrophic archaea (ANME) and sulphate-reducing bacteria. The enzyme activating methane in methanotrophic archaea has tentatively been identified as a homologue of methyl-coenzyme M reductase (MCR) that catalyses the methane-forming step in methanogenic archaea. Here we report an X-ray structure of the 280 kDa heterohexameric ANME-1 MCR complex. It was crystallized uniquely from a protein ensemble purified from consortia of microorganisms collected with a submersible from a Black Sea mat catalysing AOM with sulphate. Crystals grown from the heterogeneous sample diffract to 2.1 Å resolution and consist of a single ANME-1 MCR population, demonstrating the strong selective power of crystallization. The structure revealed ANME-1 MCR in complex with coenzyme M and coenzyme B, indicating the same substrates for MCR from methanotrophic and methanogenic archaea. Differences between the highly similar structures of ANME-1 MCR and methanogenic MCR include a F(430) modification, a cysteine-rich patch and an altered post-translational amino acid modification pattern, which may tune the enzymes for their functions in different biological contexts.

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Specification of CNS macrophage subsets occurs postnatally in defined niches

Masuda

Amann

Monaco

et al. 2022

Nature

153

151

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Martin Krueger

Origin, fate and dynamics of macrophages at central nervous system interfaces

A novel microglial subset plays a key role in myelinogenesis in developing brain

Prospects for microbiological solutions to environmental pollution with plastics

Structure of a methyl-coenzyme M reductase from Black Sea mats that oxidize methane anaerobically

Specification of CNS macrophage subsets occurs postnatally in defined niches

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