In:
Circulation, Ovid Technologies (Wolters Kluwer Health), Vol. 116, No. suppl_16 ( 2007-10-16)
Abstract:
Deletion of C1q protects developing brain against hypoxia-ischemia (HI) (Ten V et al; 2005). Hypothesis. C1q mediates HI-brain injury by: Activation of terminal complement or/and Exacerbation of mitochondrial dysfunction. Hypothesis (1) P7 WT (C57Bl/6j) pre-treated with vehicle or sCD59; progenies of C1q+/-, Factor B/C2-/-/-/- inter-mating were subjected to HI: ligation of right carotid artery + hypoxic exposure. At 24 hr of reperfusion the extent of damage, cerebral deposition of C1q, C3, iC3b and C9 were assessed. Hypothesis (2) In C1q-/-and WT mice cerebral ATP-content, mitochondrial O2-consumption rate, H2O2-production and membrane potential (î»m) were studied immediately after HI. At 12 hr electron microscopy for co-staining of C1q and gC1qR/p33 in neurons was performed. WT and C1q-/- cortical and granule neurons in culture were subjected to glutamate or energy failure stress (EFS), glucose deprivation and exposure to 5 mM Na azide. At 24 hr after stress cellular viability, C1q protein and C9 mRNA expression were examined. Results. C1q-/- mice were significantly protected against HI compared to +/+ counterparts. This was associated with robust attenuation of deposition of C3, iC3b and C9 in brain. However, no protection was detected in FB/C2-/ -/ -/ - and sCD59-pretreated mice, although C9-deposition in the injured brain was significantly decreased compared to controls. C1q-/ - mice exhibited a stunning preservation of ATP in the ischemic brain immediately after HI. This was associated with higher O2-consumption rate in state 3 and significantly (two-folds) less production of H2O2 by C1q-/ - mitochondria compared to WT-counterparts without difference in the î»m. In WT-mice HI resulted in intraneuronal, and intramitochondrial accumulation of C1q and gC1qR/p33 only in the ischemic hemisphere. C1q-/ - vs WT cultured neurons were significantly protected against excitotoxic and EFS in the absence of C9-mRNA in cellular lysate. Conclusion. C1q mediates HI-injury. Terminal complement activation has no role in C1q-mediated neuronal damage. The presence of C1q is associated with significantly increased mitochondrial ROS-production in HI-brain. This may represent a novel mechanism for HI-neurodegeneration.
Type of Medium:
Online Resource
ISSN:
0009-7322
,
1524-4539
DOI:
10.1161/circ.116.suppl_16.II_580-c
Language:
English
Publisher:
Ovid Technologies (Wolters Kluwer Health)
Publication Date:
2007
detail.hit.zdb_id:
1466401-X
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