CNS resident macrophages enhance dysfunctional angiogenesis and circulating monocytes infiltration in brain arteriovenous malformation.
Li MaXiaonan ZhuChaoliang TangPeipei PanAlka YadavRich LiangKelly PressJeffrey NelsonHua SuPublished in: Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism (2024)
Myeloid immune cells are abundant in both ruptured and unruptured brain arteriovenous malformations (bAVMs). The role of central nervous system (CNS) resident and circulating monocyte-derived macrophages in bAVM pathogenesis has not been fully understood. We hypothesize that CNS resident macrophages enhance bAVM development and hemorrhage. RNA sequencing using cultured endothelial cells (ECs) and mouse bAVM samples revealed that downregulation of two bAVM causative genes, activin-like kinase 1 (ALK1) or endoglin, increased inflammation and innate immune signaling. To understand the role of CNS resident macrophages in bAVM development and hemorrhage, we administrated a colony-stimulating factor 1 receptor inhibitor to bAVM mice with brain focal Alk1 deletion. Transient depletion of CNS resident macrophages at an early stage of bAVM development mitigated the phenotype severity of bAVM, including a prolonged inhibition of angiogenesis, dysplastic vasculature formation, and infiltration of CNS resident and circulating monocyte-derived macrophages during bAVM development. Transient depletion of CNS resident macrophages increased EC tight junction protein expression, reduced the number of dysplasia vessels and severe hemorrhage in established bAVMs. Thus, EC AVM causative gene mutation can activate CNS resident macrophages promoting bAVM progression. CNS resident macrophage could be a therapeutic target to mitigate the development and severity of bAVMs.
Keyphrases
- blood brain barrier
- patient safety
- endothelial cells
- quality improvement
- cerebral ischemia
- early stage
- dendritic cells
- emergency medicine
- white matter
- type diabetes
- resting state
- radiation therapy
- multiple sclerosis
- single cell
- signaling pathway
- dna methylation
- metabolic syndrome
- adipose tissue
- squamous cell carcinoma
- peripheral blood
- cell proliferation
- vascular endothelial growth factor
- lymph node
- advanced non small cell lung cancer
- tyrosine kinase
- endovascular treatment
- wound healing
- genome wide analysis