Descrizione del progetto
Una visione olistica dei macrofagi del cervello
Le microglia sono le cellule immunitarie più importanti e longeve presenti nel sistema nervoso centrale. Compaiono in una fase precoce dello sviluppo nel sacco vitellino e il loro ruolo primario è quello di combattere gli agenti patogeni, rimuovendo inoltre i detriti cellulari per mantenere l’omeostasi dei tessuti. L’obiettivo del progetto MADEFUN, finanziato dall’UE, è quello di definire le modalità attraverso cui diversi tipi di macrofagi si differenziano nel cervello e ne influenzano lo sviluppo. Oltre a determinarne la distribuzione a livello spazio-temporale, i ricercatori studieranno anche il coinvolgimento dei macrofagi in condizioni neuropatologiche quali la neurodegenerazione e l’infiammazione.
Obiettivo
Macrophages are part of the mononuclear phagocyte system and play critical roles in innate immune responses. They further exert crucial organ-specific functions to warrant tissue homeostasis. Most macrophages are long-lived and derive from embryonic precursors. The central nervous system (CNS) contains several macrophage populations, of which microglia are the most prominent and abundant population residing in the CNS parenchyma. Besides being implicated in CNS pathologies, microglia guide neuronal development, are critical for neurogenesis and contribute to the maintenance of tissue homeostasis. At the interface between the brain and the periphery reside choroid plexus, perivascular and meningeal macrophages (‘border-associated’ macrophages, BAMs). While they mostly also originate from embryonic precursors, the differentiation cues and their specific roles in development and in health and disease are poorly understood. Here we will delineate the spatiotemporal emergence of BAMs and microglia, the impact of the local microenvironment on their phenotype and function, and their role in brain development. We will further analyze the role of BAMs and microglia in physiological and neuropathological conditions (neurodegeneration, CNS infection and inflammation). We have recently described a novel ‘microglia-specific’ conditional mouse and we are currently establishing an inducible system to specifically manipulate BAMs. We will use these to genetically intervene in different cytokine signaling pathways in combination with fate-mapping in vivo. The proposed research project will provide a deeper insight into microglia and BAM biology and their functional specializations at different stages of life.
Campo scientifico
Parole chiave
Programma(i)
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Meccanismo di finanziamento
ERC-COG - Consolidator GrantIstituzione ospitante
8006 Zurich
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