Abstract W P412: Metabolic Syndrome Alters Cerebrovascular Architecture: Relevance to Cognitive Deficits and Stroke Outcomes

Cerebrovascular complications of diabetes: focus on cognitive dysfunction

The incidence of diabetes has more than doubled in the United States in the last 30 years and the global disease rate is projected to double by 2030. Cognitive impairment has been associated with diabetes, worsening quality of life in patients. The structural and functional interaction of neurons with the surrounding vasculature is critical for proper function of the central nervous system including domains involved in learning and memory. Thus, in this review we explore cognitive impairment in patients and experimental models, focusing on links to vascular dysfunction and structural changes. Lastly, we propose a role for the innate immunity-mediated inflammation in neurovascular changes in diabetes.

Impact of Comorbidities on Acute Injury and Recovery in Preclinical Stroke Research: Focus on Hypertension and Diabetes

Human ischemic stroke is very complex, and no single preclinical model can comprise all the variables known to contribute to stroke injury and recovery. Hypertension, diabetes, and hyperlipidemia are leading comorbidities in stroke patients. The use of predominantly young adult and healthy animals in experimental stroke research has created a barrier for translation of findings to patients. As such, more and more disease models are being incorporated into the research design. This review highlights the major strengths and weaknesses of the most commonly used animal models of these conditions in preclinical stroke research. The goal is to provide guidance in choosing, reporting, and executing appropriate disease models that will be subjected to different models of stroke injury.

Relationship of endothelin-1 and NLRP3 inflammasome activation in HT22 hippocampal cells in diabetes

Diabetes increases the risk and worsens the progression of cognitive decline. Diabetic rats treated with the dual endothelin receptor antagonist bosentan, have been shown to improve hippocampal-based cognitive deficits. The NLRP3 inflammasome has been implicated in vascular complications of diabetes. We hypothesized that diabetes-mediated increase in endothelin-1 (ET-1) in hippocampal cells causes NLRP3 activation and inflammation. An in vitro model was employed by exposing HT22 hippocampal cells to normal (25mM), low (5.5mM) and high (50mM) glucose conditions with and without palmitate (200μM) in the presence and absence of 10μM bosentan for 24h. NLRP3 activity was measured by western blotting for cryopyrin and caspase-1. ET-1 and IL-1β expression was determined by ELISA. HT22 cells synthesize high levels of ET-1 in normal conditions, which was reduced with palmitate and bosentan as well as low and high glucose conditions. Decreased ET-1 levels were associated with greater activation of NLRP3 and IL-1β in normal glucose. High glucose increased NLRP3 markers and activation compared to normal and low glucose. These data suggest that ET-1 may be protective to neurons. Although endothelin antagonism may be beneficial in improving vascular dysfunction and cognitive impairment, its impact on hippocampal neurons should be further explored.