Neutrophil elastase inhibitor prevents ischemic brain damage via reduction of vasogenic edema

Ikegame, Yuka; Yamashita, Kentaro; Hayashi, Shinichiro; Yoshimura, Shinichi; Nakashima, Shigeru; Iwama, Toru

doi:10.1038/hr.2010.58

Cited by 54 publications

(39 citation statements)

References 29 publications

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“…Neutrophils, and neutrophil-derived NE in particular, have been implicated in edema formation in the ischemic brain (Stowe et al, 2009; Ikegame et al, 2010). We therefore examined the effect of genetic deficiency of NE on vasogenic edema in the immature injured brain.…”

Section: Resultsmentioning

confidence: 99%

“…Consistent with our results, treatment with the same NE inhibitor at 0 and 4 h during reperfusion after transient middle cerebral artery occlusion in mice reduced infarct volume, BBB disruption and edema by 24 h (Stowe et al, 2009). Other inhibitors of NE (ONO-5046 or sivelestat) have also shown efficacy at reducing neuronal loss, edema and vascular permeability after focal ischemia in rats or rabbits (Shimakura et al, 2000; Matayoshi et al, 2009; Ikegame et al, 2010). …”

Section: Discussionmentioning

confidence: 99%

“…That is, specific targeting of NE by genetic deletion or pharmacological inhibition is acutely neuroprotective in rodent and rabbit models of transient focal ischemia (Shimakura et al, 2000; Matayoshi et al, 2009; Stowe et al, 2009; Ikegame et al, 2010), as well as traumatic and ischemic spinal cord injury (Tonai et al, 2001; Iwamoto et al, 2009). This is the first study to define the role of NE in the unique setting of the developing brain, where injury produces an age-specific pro-inflammatory state superimposed on an environment that is rapidly undergoing both structural and behavioral maturation.…”

Section: Introductionmentioning

confidence: 99%

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Neutrophil elastase mediates acute pathogenesis and is a determinant of long-term behavioral recovery after traumatic injury to the immature brain

Semple

Trivedi

Gimlin

et al. 2015

Neurobiology of Disease

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While neutrophil elastase (NE), released by activated neutrophils, is a key mediator of secondary pathogenesis in adult models of brain ischemia and spinal cord injury, no studies to date have examined this protease in the context of the injured immature brain, where there is notable vulnerability resulting from inadequate antioxidant reserves and prolonged exposure to infiltrating neutrophils. We thus reasoned that NE may be a key determinant of secondary pathogenesis, and as such, adversely influence long-term neurological recovery. To address this hypothesis, wild-type (WT) and NE knockout (KO) mice were subjected to a controlled cortical impact at post-natal day 21, approximating a toddler-aged child. To determine if NE is required for neutrophil infiltration into the injured brain, and whether this protease contributes to vasogenic edema, we quantified neutrophil numbers and measured water content in the brains of each of these genotypes. While leukocyte trafficking was indistinguishable between genotypes, vasogenic edema was markedly attenuated in the NE KO. To determine if early pathogenesis is dependent on NE, indices of cell death (TUNEL and activated caspase-3) were quantified across genotypes. NE KO mice showed a reduction in these markers of cell death in the injured hippocampus, which corresponded to greater preservation of neuronal integrity as well as reduced expression of heme oxygenase-1, a marker of oxidative stress. WT mice, treated with a competitive inhibitor of NE at 2, 6 and 12 h post-injury, likewise showed a reduction in cell death and oxidative stress compared to vehicle-treated controls. We next examined the long-term behavioral and structural consequences of NE deficiency. NE KO mice showed an improvement in long-term spatial memory retention and amelioration of injury-induced hyperactivity. However, volumetric and stereological analyses found comparable tissue loss in the injured cortex and hippocampus independent of genotype. Further, WT mice treated acutely with the NE inhibitor showed no long-term behavioral or structural improvements. Together, these findings validate the central role of NE in both acute pathogenesis and chronic functional recovery, and support future exploration of the therapeutic window, taking into account the prolonged period of neutrophil trafficking into the injured immature brain.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Neutrophil elastase mediates acute pathogenesis and is a determinant of long-term behavioral recovery after traumatic injury to the immature brain

Semple

Trivedi

Gimlin

et al. 2015

Neurobiology of Disease

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“…This observation is supported by findings in pharmacologic and transgenic mice models of neutrophil inhibition. 40,41 In a therapeutic setting, neutralization of IL-17A even 3 hours after stroke resulted in diminished neutrophil infiltration and in a better neurologic outcome in mice. Thus, IL-17A provides an ideal target because its main appearance in stroke is short-lived and has, to our knowledge, only proinflammatory effects.…”

Section: Discussionmentioning

confidence: 99%

Neutralization of the IL-17 axis diminishes neutrophil invasion and protects from ischemic stroke

Gelderblom¹,

Weymar²,

Bernreuther³

et al. 2012

Blood

392

367

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The devastating effect of ischemic stroke is attenuated in mice lacking conventional and unconventional T cells, suggesting that inflammation enhances tissue damage in cerebral ischemia. We explored the functional role of ␣␤ and ␥␦ T cells in a murine model of stroke and distinguished 2 different T cell-dependent proinflammatory pathways in ischemiareperfusion injury. IFN-␥ produced by IntroductionIschemic stroke represents a major cause of disability and death in the western world. 1 Although infiltration of inflammatory leukocytes is a well-described feature of human stroke, 2 the perspective that activation of the immune systems is a bystander phenomenon secondary to ischemic tissue damage has changed. Currently, the activation of the immune system is recognized as a major element in all stages of the pathophysiology of stroke, including long lasting regenerative processes. 1,3 Release of danger molecules, local expression of proinflammatory cytokines, the subsequent expression of endothelial adhesion molecules, and breakdown of the blood-brain barrier are among the initial events after arterial occlusion. 3 These events are followed by an amplification of the postischemic inflammation that involves both resident brain cells and infiltrating immune cells. With the use of a mouse model of middle cerebral artery occlusion (MCAO), our group has previously shown a sequentially organized accumulation of immune cells of both the innate and adaptive immune systems in the ischemic brain. 4 The cellular infiltrate is dominated by neutrophils, macrophages, and microglia, but also includes T, natural killer, and dendritic cells.At this early stage, different T-cell subpopulations play important roles even if their absolute abundance in the ischemic brain is low. CD4 ϩ and CD8 ϩ T cells, as well as ␥␦ T cells, promote further tissue damage, 5-8 whereas regulatory T cells and B cells are protective. 9,10 Cytokines involved in the proinflammatory response include IL-1␤, IL-12, and IL-23, as well as interferon ␥ (IFN-␥), IL-17A, and TNF-␣. In contrast IL-4, TGF-␤, and mostly IL-10 are part of protective pathways. 9,11,12 However, the specific integration of each cell type and cytokine in the postischemic inflammatory network still has to be elucidated.In sterile inflammations, including ischemia, IL-17A can be crucial for chemokine induction. 13,14 Importantly, IL-17A can be rapidly released by ␥␦ T cells in response to cytokine activation or engagement of innate receptors, in the absence of TCR activation. 15 Beside IL-17A, IFN-␥ pathways are also implicated in ischemia/reperfusion (I/R) injury. 13,16 In autoimmunity, IFN-␥ production is associated with induction of MHCII expression, production of chemokines, and activation of macrophages. 17 Our analysis of the evolving local and systemic inflammatory responses after stroke has yielded 2 new distinct and crosslinked pathways: First, IFN-␥ produced by ␣␤ T cells induces the expression of TNF-␣ in macrophages. Second, ␥␦ T cells lead to neutrophil infiltration via the IL-1...

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“…Using an in vitro model of BBB (Weksler et al 2005), we have recently reported that HDLs could limit the deleterious, elastase-mediated role of activated neutrophils under oxygen-glucose deprivation conditions leading to BBB disruption (Bao . In stroke, inhibition of neutrophil elastase may be a therapeutic target, as shown by using specific inhibitors (Ikegame et al 2010). …”

Section: Anti-inflammatory and Antiprotease Propertiesmentioning

confidence: 99%

High-Density Lipoproteins in Stroke

Meilhac

2014

High Density Lipoproteins

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Neutrophil elastase inhibitor prevents ischemic brain damage via reduction of vasogenic edema

Cited by 54 publications

References 29 publications

Neutrophil elastase mediates acute pathogenesis and is a determinant of long-term behavioral recovery after traumatic injury to the immature brain

Neutrophil elastase mediates acute pathogenesis and is a determinant of long-term behavioral recovery after traumatic injury to the immature brain

Neutralization of the IL-17 axis diminishes neutrophil invasion and protects from ischemic stroke

High-Density Lipoproteins in Stroke

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