Inhibition of Beta2 Integrin-mediated Leukocyte Adhesion Attenuates the Inflammatory Response and is Neuroprotective Following Global Cerebral Ischemia

Salewski, Ryan Paul Francis

22 September 2009

Leukocyte adhesion to cerebral endothelial cells plays a critical role in the inflammatory response following transient global cerebral ischemia but its contribution to delayed neuronal cell death is not completely understood. We compared ischemic mice treated with a monoclonal antibody to β2-integrin adhesion receptors (anti-CD18) or a non-binding control antibody following ischemia. Inflammation was characterized by increased CD18 expression on leukocytes and inflammatory mediators in the peripheral blood and brain tissue. Notably, interleukin-1β, which has been shown to mediate cell death in neurons, was elevated in the blood and brain. Anti-CD18 blocked leukocyte adhesion as well as the inflammatory responses, including interleukin-1β expression in neurons. Blocking leukocyte adhesion protected the structural integrity of the hippocampus, cerebral cortex and thalamus, and preserved spatial. Leukocytes adhesion to endothelial cells plays an important role in the evolution of neurological deficit in global cerebral ischemia despite the lack of transmigration of leukocytes across blood-brain-barrier.

Global Cerebral Ischemia

Integrins

Cytokines

Neuroprotection

0317

Inhibition of Beta2 Integrin-mediated Leukocyte Adhesion Attenuates the Inflammatory Response and is Neuroprotective Following Global Cerebral Ischemia

Salewski, Ryan Paul Francis

22 September 2009

Leukocyte adhesion to cerebral endothelial cells plays a critical role in the inflammatory response following transient global cerebral ischemia but its contribution to delayed neuronal cell death is not completely understood. We compared ischemic mice treated with a monoclonal antibody to β2-integrin adhesion receptors (anti-CD18) or a non-binding control antibody following ischemia. Inflammation was characterized by increased CD18 expression on leukocytes and inflammatory mediators in the peripheral blood and brain tissue. Notably, interleukin-1β, which has been shown to mediate cell death in neurons, was elevated in the blood and brain. Anti-CD18 blocked leukocyte adhesion as well as the inflammatory responses, including interleukin-1β expression in neurons. Blocking leukocyte adhesion protected the structural integrity of the hippocampus, cerebral cortex and thalamus, and preserved spatial. Leukocytes adhesion to endothelial cells plays an important role in the evolution of neurological deficit in global cerebral ischemia despite the lack of transmigration of leukocytes across blood-brain-barrier.

Global Cerebral Ischemia

Integrins

Cytokines

Neuroprotection

0317

The Endocannabinoid Antagonist AM251 as a Method of Protection Prior to Global Cerebral Ischemia: Implications for Dopamine Function, Neuronal Survival and Behaviour

Dunbar, Megan

24 July 2013

Implications for the endocannabinoid system in global cerebral ischemia has not been clearly defined. Ischemia produces an excitotoxic environment that is severely damaging to neurons, causing degradation of cell membrane and ultimately cell death. Contradicting research suggests both the benefits and adverse effects of endocannabinoids on neurological injury. Due to the excitotoxic nature of ischemic injury, and the mechanisms at play with endocannabinoid agonists, such as increased transmission of dopamine and glutamate, it is suspected that endocannabinoid antagonists, such as AM251, may a provide cell protection.40 male Wistar rats were separated into 4 groups (n=10/group). The first group of rats were administered AM251 (2 mg/kg, i.p) 30 minutes prior to global cerebral ischemia (four vessel occlusion), while the second group were given AM251, 30 minutes prior to sham surgery. Finally the last two groups were given a vehicle control instead of AM251 and given either ischemia or the sham surgery. Behavioural testing, open field test and elevated plus maze, took place after a five day recovery period following ischemia. Immunohistochemical analyses were performed using to mark tyrosine hydroxylase (TH) and dopamine receptor 1(DRD1) to compare dopamine function amongst groups. Cell survival was also evaluated using thionin staining. Ischemia induced significant reduction in dopamine within the mesolimbic circuit, including: ventral tegmental area, nucleus accumbens, CA3 & CA1 of the hippocampus, and basolateral amygdala. These reductions in dopamine transmission by global ischemia were partially or fully reversed when AM251 was given beforehand. Furthermore, cell survival was increased in the CA1 from treatment of AM251. Behavioural results show similar results that AM251 reversed emotional irregularities associated with ischemia insult. The endocannabinoid antagonist AM251 improves deficits in dopamine function, prevents cell death and regulates emotionality when given prior global cerebral ischemia.

Global Cerebral Ischemia

Stroke

Endocannabinoids

AM251

Dopamine

Excitotoxicity

Mesolimbic Circuit

Neuronal Survival

Behaviour

The Endocannabinoid Antagonist AM251 as a Method of Protection Prior to Global Cerebral Ischemia: Implications for Dopamine Function, Neuronal Survival and Behaviour

Dunbar, Megan

January 2013

Implications for the endocannabinoid system in global cerebral ischemia has not been clearly defined. Ischemia produces an excitotoxic environment that is severely damaging to neurons, causing degradation of cell membrane and ultimately cell death. Contradicting research suggests both the benefits and adverse effects of endocannabinoids on neurological injury. Due to the excitotoxic nature of ischemic injury, and the mechanisms at play with endocannabinoid agonists, such as increased transmission of dopamine and glutamate, it is suspected that endocannabinoid antagonists, such as AM251, may a provide cell protection.40 male Wistar rats were separated into 4 groups (n=10/group). The first group of rats were administered AM251 (2 mg/kg, i.p) 30 minutes prior to global cerebral ischemia (four vessel occlusion), while the second group were given AM251, 30 minutes prior to sham surgery. Finally the last two groups were given a vehicle control instead of AM251 and given either ischemia or the sham surgery. Behavioural testing, open field test and elevated plus maze, took place after a five day recovery period following ischemia. Immunohistochemical analyses were performed using to mark tyrosine hydroxylase (TH) and dopamine receptor 1(DRD1) to compare dopamine function amongst groups. Cell survival was also evaluated using thionin staining. Ischemia induced significant reduction in dopamine within the mesolimbic circuit, including: ventral tegmental area, nucleus accumbens, CA3 & CA1 of the hippocampus, and basolateral amygdala. These reductions in dopamine transmission by global ischemia were partially or fully reversed when AM251 was given beforehand. Furthermore, cell survival was increased in the CA1 from treatment of AM251. Behavioural results show similar results that AM251 reversed emotional irregularities associated with ischemia insult. The endocannabinoid antagonist AM251 improves deficits in dopamine function, prevents cell death and regulates emotionality when given prior global cerebral ischemia.

Global Cerebral Ischemia

Stroke

Endocannabinoids

AM251

Dopamine

Excitotoxicity

Mesolimbic Circuit

Neuronal Survival

Behaviour

Global Cerebral Ischemia in Male Long Evans Rats Impairs Dopaminergic/ΔFosB Signalling in the Mesocorticolimbic Pathway Without Altering Delay Discounting Rates

Morin, Alexandre

03 January 2024

Global cerebral ischemia (GCI) in rats has been shown to promote exploration of anxiogenic zones of the Elevated-Plus Maze (EPM) and Open Field Test (OFT). This study investigated changes in impulsive choice and/or defensive responses as possible contributors of heightened anxiogenic exploration observed after ischemia. Impulsivity was assessed using delay discounting (DD) paradigms, while the Predator Odour Test (PO) served to assess changes in defensive responses towards a naturally aversive stimulus. Male Long Evans rats underwent 9 days of autoshaping training and 24 days of DD training prior to GCI or sham surgery (n= 9/group). Post-surgery, rats completed the OFT, EPM, and PO, followed by 6 days of DD sessions. Blood droplets served to evaluate corticosterone secretion associated with PO exposure. With impulsivity being regulated through mesocorticolimbic monoaminergic pathways, we also characterized post-ischemic changes in the expression of dopamine D2 receptors (DRD2), dopamine transporters (DAT), and ΔFosB in the basolateral amygdala (BLA), nucleus accumbens core (NAcC) and shell (NAcS), and ventromedial prefrontal cortex (vmPFC) using immunohistofluorescence. Our findings revealed no impact of GCI on delay discounting rates, while PO approach behaviours were minimally affected. Nonetheless, GCI significantly reduced DRD2 and ΔFosB-ir in the NAcS and NAcC, respectively, while DAT-ir was diminished in both NAc subregions. Collectively, our findings refine the understanding of cognitive-behavioural and biochemical responses following stroke or cardiac arrest. They support significant alterations to the dopaminergic mesocorticolimbic pathway after ischemia, which are not associated with altered impulsive choice in a DD task but may influence locomotor exploration of the OFT and EPM.

Global cerebral ischemia

Impulsivity

Impulsive action

Impulsive choice

Delay discounting

Fear

Reward pathway

Dopamine

ΔFosB

Corticosterone

A role for CRH and HPA Activation in the Regulation of Plasticity Signaling, Neuroinflammation and Emotional/Mnesic Behavior Following Global Cerebral Ischemia in Rats

Barra de la Tremblaye, Patricia

January 2016

Depression occurs in about one third of patients with stroke and cardiac arrest. Hyperactivity of the stress system is the most commonly observed neuroendocrine change in major depressive disorder (MDD), which involves elevated levels in the cerebrospinal fluid of corticotropin-releasing hormone (CRH), a key stress neurohormone. Substantial evidence suggests that normalization of the stress system may be a requirement for successful treatment of MDD through region-specific changes in the mesocorticolimbic circuitry. Thus, alteration in the stress system may underlie the emotional and functional impairments observed following brain ischemic events. In addition, recent findings suggest that ischemic brain injury triggers a restorative process, creating a cerebral environment similar to that of early brain development, a period characterized by rapid neuronal growth and neuroplasticity, critical to optimize functional recovery of individuals post stroke. In particular brain-derived neurotrophic factor (BDNF), has been shown to play an important role in the pathophysiology of major depression and cerebral ischemia. However, whether CRH can mediate the expression of BDNF in the reparative process triggered by ischemic injury remains to be characterized. Therefore, the purpose of the current thesis is to characterize the effect of pharmacological blockade of CRH signaling at the onset of a global ischemic stroke, on emotional and cognitive behaviors, alteration in the neuroendocrine stress system, and markers of neuroplasticity including BDNF. To do this, an animal model of global cerebral ischemia with subsequent behavioral testing and postmortem brain analysis was used to determine underlying biochemical and behavioral changes modulated by CRH signaling following brain ischemia. This doctoral work will help elucidate the relationship between CRH and BDNF in the context of cerebral ischemia, and may provide insights for therapies targeting the stress system. These studies address considerations such as: the interplay between stress, neuroplasticity and emotionality, and whether global ischemia can affect mood via changes in the HPA axis response.

Global cerebral ischemia

Corticotropin releasing hormone

BDNF/TrkB

HPA dysregulation

Anxiety

Depression

Sociability

Learning & Memory

Neuroprotection

Neuroinflammation