A mintázatfelismerő Nod-like receptorok, mint új, potenciális szabályozók a vázizom
regeneráció m...(K131844) Támogató: OTKA
János Bolyai Research Scholarship of the Hungarian Academy of Science(BO/00558/19)
Új Nemzeti Kiválóság Program, Felsőoktatási Doktori Hallgatói Kutatói Ösztöndíj(ÚNKP-20-3-II)
Támogató: ITM
Új Nemzeti Kiválóság Program, Bolyai+ Felsőoktatási Fiatal Oktatói, Kutatói Ösztöndíj(ÚNKP-21-5)
Támogató: ITM
Resolving and manipulating neuronal networks in the mammalian brain - from correlative
to causal ...(SPP 1665) Támogató: DFG
Veränderte Chlorid-Homöostase nach Hirnverletzungen(NEURON ACROBAT 01EW1706) Támogató:
BMBF
Stipendium Hungaricum Scholarship(Stipendium) Támogató: Tempus
The NKCC1 ion transporter contributes to the pathophysiology of common neurological
disorders, but its function in microglia, the main inflammatory cells of the brain,
has remained unclear to date. Therefore, we generated a novel transgenic mouse line
in which microglial NKCC1 was deleted. We show that microglial NKCC1 shapes both baseline
and reactive microglia morphology, process recruitment to the site of injury, and
adaptation to changes in cellular volume in a cell-autonomous manner via regulating
membrane conductance. In addition, microglial NKCC1 deficiency results in NLRP3 inflammasome
priming and increased production of interleukin-1β (IL-1β), rendering microglia prone
to exaggerated inflammatory responses. In line with this, central (intracortical)
administration of the NKCC1 blocker, bumetanide, potentiated intracortical lipopolysaccharide
(LPS)-induced cytokine levels. In contrast, systemic bumetanide application decreased
inflammation in the brain. Microglial NKCC1 KO animals exposed to experimental stroke
showed significantly increased brain injury, inflammation, cerebral edema, and, worse,
neurological outcome. Thus, NKCC1 emerges as an important player in controlling microglial
ion homeostasis and inflammatory responses through which microglia modulate brain
injury. The contribution of microglia to central NKCC1 actions is likely to be relevant
for common neurological disorders.