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1.
Nat Neurosci ; 25(10): 1379-1393, 2022 10.
Article in English | MEDLINE | ID: mdl-36180790

ABSTRACT

Environmental cues influence the highly dynamic morphology of microglia. Strategies to characterize these changes usually involve user-selected morphometric features, which preclude the identification of a spectrum of context-dependent morphological phenotypes. Here we develop MorphOMICs, a topological data analysis approach, which enables semiautomatic mapping of microglial morphology into an atlas of cue-dependent phenotypes and overcomes feature-selection biases and biological variability. We extract spatially heterogeneous and sexually dimorphic morphological phenotypes for seven adult mouse brain regions. This sex-specific phenotype declines with maturation but increases over the disease trajectories in two neurodegeneration mouse models, with females showing a faster morphological shift in affected brain regions. Remarkably, microglia morphologies reflect an adaptation upon repeated exposure to ketamine anesthesia and do not recover to control morphologies. Finally, we demonstrate that both long primary processes and short terminal processes provide distinct insights to morphological phenotypes. MorphOMICs opens a new perspective to characterize microglial morphology.


Subject(s)
Ketamine , Microglia , Animals , Brain , Disease Models, Animal , Female , Male , Mice , Phenotype
2.
Nat Commun ; 13(1): 4728, 2022 08 15.
Article in English | MEDLINE | ID: mdl-35970889

ABSTRACT

G protein-coupled receptors (GPCRs) regulate processes ranging from immune responses to neuronal signaling. However, ligands for many GPCRs remain unknown, suffer from off-target effects or have poor bioavailability. Additionally, dissecting cell type-specific responses is challenging when the same GPCR is expressed on different cells within a tissue. Here, we overcome these limitations by engineering DREADD-based GPCR chimeras that bind clozapine-N-oxide and mimic a GPCR-of-interest. We show that chimeric DREADD-ß2AR triggers responses comparable to ß2AR on second messenger and kinase activity, post-translational modifications, and protein-protein interactions. Moreover, we successfully recapitulate ß2AR-mediated filopodia formation in microglia, an immune cell capable of driving central nervous system inflammation. When dissecting microglial inflammation, we included two additional DREADD-based chimeras mimicking microglia-enriched GPR65 and GPR109A. DREADD-ß2AR and DREADD-GPR65 modulate the inflammatory response with high similarity to endogenous ß2AR, while DREADD-GPR109A shows no impact. Our DREADD-based approach allows investigation of cell type-dependent pathways without known endogenous ligands.


Subject(s)
Microglia , Receptors, G-Protein-Coupled , Chimera/genetics , Chimera/metabolism , Humans , Inflammation/genetics , Ligands , Microglia/metabolism , Receptors, G-Protein-Coupled/genetics , Receptors, G-Protein-Coupled/metabolism , Signal Transduction
3.
Cell Rep ; 36(1): 109313, 2021 07 06.
Article in English | MEDLINE | ID: mdl-34233180

ABSTRACT

Perineuronal nets (PNNs), components of the extracellular matrix, preferentially coat parvalbumin-positive interneurons and constrain critical-period plasticity in the adult cerebral cortex. Current strategies to remove PNN are long-lasting, invasive, and trigger neuropsychiatric symptoms. Here, we apply repeated anesthetic ketamine as a method with minimal behavioral effect. We find that this paradigm strongly reduces PNN coating in the healthy adult brain and promotes juvenile-like plasticity. Microglia are critically involved in PNN loss because they engage with parvalbumin-positive neurons in their defined cortical layer. We identify external 60-Hz light-flickering entrainment to recapitulate microglia-mediated PNN removal. Importantly, 40-Hz frequency, which is known to remove amyloid plaques, does not induce PNN loss, suggesting microglia might functionally tune to distinct brain frequencies. Thus, our 60-Hz light-entrainment strategy provides an alternative form of PNN intervention in the healthy adult brain.


Subject(s)
Anesthetics/pharmacology , Brain/physiology , Brain/radiation effects , Ketamine/pharmacology , Light , Nerve Net/physiology , Neurons/physiology , Neurons/radiation effects , Aging/physiology , Animals , Brain/drug effects , Female , Mice, Inbred C57BL , Microglia , Nerve Net/drug effects , Nerve Net/radiation effects , Neuronal Plasticity/drug effects , Neuronal Plasticity/physiology , Neuronal Plasticity/radiation effects , Neurons/drug effects , Parvalbumins/metabolism , Photic Stimulation
4.
Acta Neuropathol Commun ; 8(1): 49, 2020 04 15.
Article in English | MEDLINE | ID: mdl-32293546

ABSTRACT

Most cases of neuromyelitis optica spectrum disorders (NMOSD) harbor pathogenic autoantibodies against the water channel aquaporin 4 (AQP4). Binding of these antibodies to AQP4 on astrocytes initiates damage to these cells, which culminates in the formation of large tissue destructive lesions in the central nervous system (CNS). Consequently, untreated patients may become permanently blind or paralyzed. Studies on the induction and breakage of tolerance to AQP4 could be of great benefit for NMOSD patients. So far, however, all attempts to create suitable animal models by active sensitization have failed. We addressed this challenge and identified peptides, which mimic the conformational AQP4 epitopes recognized by pathogenic antibodies of NMOSD patients. Here we show that these mimotopes can induce the production of AQP4-reactive antibodies in Lewis rats. Hence, our results provide a conceptual framework for the formation of such antibodies in NMOSD patients, and aid to improve immunization strategies for the creation of animal models suitable for tolerance studies in this devastating disease.


Subject(s)
Aquaporin 4/immunology , Autoantibodies/immunology , Disease Models, Animal , Epitopes/immunology , Neuromyelitis Optica/immunology , Animals , Autoantigens/immunology , Humans , Immunoglobulin G/immunology , Rats , Rats, Inbred Lew
5.
Neurosci Lett ; 707: 134310, 2019 08 10.
Article in English | MEDLINE | ID: mdl-31158432

ABSTRACT

Microglia have emerged as a critical component of neurodegenerative diseases. Genetic manipulation of microglia can elucidate their functional impact in disease. In neuroscience, recombinant viruses such as lentiviruses and adeno-associated viruses (AAVs) have been successfully used to target various cell types in the brain, although effective transduction of microglia is rare. In this review, we provide a short background of lentiviruses and AAVs, and strategies for designing recombinant viral vectors. Then, we will summarize recent literature on successful microglial transductions in vitro and in vivo, and discuss the current challenges. Finally, we provide guidelines for reporting the efficiency and specificity of viral targeting in microglia, which will enable the microglial research community to assess and improve methodologies for future studies.


Subject(s)
Dependovirus/genetics , Gene Targeting , Genetic Vectors , Lentivirus/genetics , Microglia/metabolism , Animals , HIV-1/genetics , Humans , Transduction, Genetic
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