Contribution of astrocytic MMP9 toward progression of VCID pathology

Abstract

Listen

Translate article

AbstractBackgroundVascular contributions to cognitive impairment and dementia (VCID) is one of the leading causes of dementia. High levels of plasma homocysteine or hyperhomocysteinemia has been characterized as a risk factor for VCID however, the mechanism underlying the connection between hyperhomocysteinemia and development of VCID pathology remains elusive. I hypothesize that hyperhomocysteinemia initiates a pro‐inflammatory cascade that increases the activity of MMP9 causing both perivascular astrocytes to dissociate from their vessels and initiating the degradation of endothelial cell tight junction proteins, leading to blood brain barrier dysfunction and the progression toward VCID pathology.MethodFor in vivo studies, C57BL6 WT and MMP9KO mice were placed on a control diet or a diet deficient in folate, vitamins B6 and B12 and enriched in methionine to induce hyperhomocysteinemia for 4, 8, 12, and 16 weeks. For in vitro, experiments, primary astrocytes from WT and MMP9KO mice were treated with a 50μM homocysteine stimulus or an inflammatory stimulus (TNF‐a, IL‐1b and C1q) for 48 hours and the conditioned media was collected. This homocysteine or inflammatory astrocyte conditioned media was then used to treat WT endothelial cells. Immunohistochemistry and gene expression analysis were used to determine neuroinflammatory changes while histology was used to identify changes in astrocytic end‐feet proteins, tight junction proteins, vascular density and microhaemorrhages. Both gel and in situ zymography were used to assess proteinase activity of MMP9 and related gelatinases. Western blots were used to investigate substrates of MMP9 including claudin, occludin and β‐dystroglycan. Behaviour was assessed using rotarod, novel object recognition and spontaneous alternation testing. Transendothelial electrical resistance and sodium fluorescein assays were used to measure the integrity of endothelial cell tight junctions in vitro.ResultStudies are underway to examine changes in cognition, microhaemorrhages, neuroinflammation, astrocyte end‐foot integrity, tight junction protein integrity and activity of MMP9.ConclusionCollectively, our findings suggest that astrocytic MMP9 may play an integral role in the mechanism associating homocysteine induced neuroinflammation with vascular pathogenesis leading to VCID, highlighting this pathway as an important subject for future study.