TY - JOUR
T1 - Hypoxic oligodendrocyte precursor cell-derived VEGFA is associated with blood-brain barrier impairment
AU - Manukjan, Narek
AU - Majcher, Daria
AU - Leenders, Peter
AU - Caiment, Florian
AU - van Herwijnen, Marcel
AU - Smeets, Hubert J. J.
AU - Suidgeest, Ernst
AU - van der Weerd, Louise
AU - Vanmierlo, Tim
AU - Jansen, Jacobus F. A.
AU - Backes, Walter H. H.
AU - van Oostenbrugge, Robert J. J.
AU - Staals, Julie
AU - Fulton, Daniel
AU - Ahmed, Zubair
AU - Blankesteijn, W. Matthijs
AU - Foulquier, Sebastien
PY - 2023/8/7
Y1 - 2023/8/7
N2 - Cerebral small vessel disease is characterised by decreased cerebral blood flow and blood-brain barrier impairments which play a key role in the development of white matter lesions. We hypothesised that cerebral hypoperfusion causes local hypoxia, affecting oligodendrocyte precursor cell-endothelial cell signalling leading to blood-brain barrier dysfunction as an early mechanism for the development of white matter lesions. Bilateral carotid artery stenosis was used as a mouse model for cerebral hypoperfusion. Pimonidazole, a hypoxic cell marker, was injected prior to humane sacrifice at day 7. Myelin content, vascular density, blood-brain barrier leakages, and hypoxic cell density were quantified. Primary mouse oligodendrocyte precursor cells were exposed to hypoxia and RNA sequencing was performed. Vegfa gene expression and protein secretion was examined in an oligodendrocyte precursor cell line exposed to hypoxia. Additionally, human blood plasma VEGFA levels were measured and correlated to blood-brain barrier permeability in normal-appearing white matter and white matter lesions of cerebral small vessel disease patients and controls. Cerebral blood flow was reduced in the stenosis mice, with an increase in hypoxic cell number and blood-brain barrier leakages in the cortical areas but no changes in myelin content or vascular density. Vegfa upregulation was identified in hypoxic oligodendrocyte precursor cells, which was mediated via Hif1 & alpha; and Epas1. In humans, VEGFA plasma levels were increased in patients versus controls. VEGFA plasma levels were associated with increased blood-brain barrier permeability in normal appearing white matter of patients. Cerebral hypoperfusion mediates hypoxia induced VEGFA expression in oligodendrocyte precursor cells through Hif1 & alpha;/Epas1 signalling. VEGFA could in turn increase BBB permeability. In humans, increased VEGFA plasma levels in cerebral small vessel disease patients were associated with increased blood-brain barrier permeability in the normal appearing white matter. Our results support a role of VEGFA expression in cerebral hypoperfusion as seen in cerebral small vessel disease.
AB - Cerebral small vessel disease is characterised by decreased cerebral blood flow and blood-brain barrier impairments which play a key role in the development of white matter lesions. We hypothesised that cerebral hypoperfusion causes local hypoxia, affecting oligodendrocyte precursor cell-endothelial cell signalling leading to blood-brain barrier dysfunction as an early mechanism for the development of white matter lesions. Bilateral carotid artery stenosis was used as a mouse model for cerebral hypoperfusion. Pimonidazole, a hypoxic cell marker, was injected prior to humane sacrifice at day 7. Myelin content, vascular density, blood-brain barrier leakages, and hypoxic cell density were quantified. Primary mouse oligodendrocyte precursor cells were exposed to hypoxia and RNA sequencing was performed. Vegfa gene expression and protein secretion was examined in an oligodendrocyte precursor cell line exposed to hypoxia. Additionally, human blood plasma VEGFA levels were measured and correlated to blood-brain barrier permeability in normal-appearing white matter and white matter lesions of cerebral small vessel disease patients and controls. Cerebral blood flow was reduced in the stenosis mice, with an increase in hypoxic cell number and blood-brain barrier leakages in the cortical areas but no changes in myelin content or vascular density. Vegfa upregulation was identified in hypoxic oligodendrocyte precursor cells, which was mediated via Hif1 & alpha; and Epas1. In humans, VEGFA plasma levels were increased in patients versus controls. VEGFA plasma levels were associated with increased blood-brain barrier permeability in normal appearing white matter of patients. Cerebral hypoperfusion mediates hypoxia induced VEGFA expression in oligodendrocyte precursor cells through Hif1 & alpha;/Epas1 signalling. VEGFA could in turn increase BBB permeability. In humans, increased VEGFA plasma levels in cerebral small vessel disease patients were associated with increased blood-brain barrier permeability in the normal appearing white matter. Our results support a role of VEGFA expression in cerebral hypoperfusion as seen in cerebral small vessel disease.
KW - Vascular dementia
KW - Glial biology
KW - OPC
KW - Angiogenesis
KW - BBB
KW - cSVD
KW - WHITE-MATTER LESIONS
KW - SMALL VESSEL DISEASE
KW - MOUSE MODEL
KW - COGNITIVE IMPAIRMENT
KW - POTENTIAL MECHANISM
KW - PERMEABILITY
KW - ACTIVATION
KW - EXPRESSION
KW - LEAKAGE
KW - PHOSPHORYLATION
U2 - 10.1186/s40478-023-01627-5
DO - 10.1186/s40478-023-01627-5
M3 - Article
C2 - 37550790
SN - 2051-5960
VL - 11
JO - Acta neuropathologica communications
JF - Acta neuropathologica communications
IS - 1
M1 - 128
ER -