Role of Caspase 1 in Ischemia/Reperfusion Injury of the Myocardium

Rauf, Ali; Shah, Mo; Yellon, Derek M.; Davidson, Sean M.

doi:10.1097/fjc.0000000000000694

Cited by 45 publications

(33 citation statements)

References 66 publications

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“…101,102 Conversely, it also reported that caspase-1 can directly initiate inflammatory-induced cell death through the activation of the gasdermin-D-induced pyroptosis pathway, which in turn results in cardiomyocyte death, excessive scar formation, and poor ventricular remodeling. 103 Other experimental studies on mice also reported that activation of NLRP3 inflammasome and caspase-1 may cause excessive cell death in cardiac ischemia. Thus, they suggested that inhibition of caspase-1 activation may have a great role in the progression of cardiac ischemia due to excessive cell death.…”

Section: Role Of Caspase-1 In Cardiovascular Diseasesmentioning

confidence: 98%

“…Surprisingly, in fibroblast cells, caspase-1 involves the maturation of IL-1β-mediated myofibroblast differentiation and collagen synthesis. 103,[116][117][118] In animals, fibroblasts are the most common cells of connective tissue that produce the structural framework of the tissue through the synthesis of extracellular matrix and collagen. Fibroblasts can also be involved in the inflammatory responses for tissue injuries or infections through the induction of chemokine synthesis.…”

Section: Role Of Caspase-1 In Cardiovascular Diseasesmentioning

confidence: 99%

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<p>Role of Caspase-1 in the Pathogenesis of Inflammatory-Associated Chronic Noncommunicable Diseases</p>

Molla

Akalu

Geto

et al. 2020

JIR

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Caspase-1 is the first and extensively studied inflammatory caspase that is activated through inflammasome assembly. Inflammasome is a cytosolic formation of multiprotein complex that aimed to start inflammatory response against infections or cellular damages. The process leads to an auto-activation of caspase-1 and consequent maturation of caspase-1 target molecules such as interleukin (IL)-1β and IL-18. Recently, the role of caspase-1 and inflammasome in inflammatory-induced noncommunicable diseases (NCDs) like obesity, diabetes mellitus (DM), cardiovascular diseases (CVDs), cancers and chronic respiratory diseases have widely studied. However, their reports are distinct and even they have reported contrasting role of caspase-1 in the development and progression of NCDs. A few studies have reported that caspase-1/inflammasome assembley has a protective role in the initiation and progression of these diseases through the activation of the noncanonical caspase-1 target substrates like gasdermin-D and regulation of immune cells. Conversely, others have revealed that caspase-1 has a direct/indirect effect in the development and progression of several NCDs. Therefore, in this review, we systematically summarized the role of caspase-1 in the development and progression of NCDs, especially in obesity, DM, CVDs and cancers.

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Section: Role Of Caspase-1 In Cardiovascular Diseasesmentioning

confidence: 98%

Section: Role Of Caspase-1 In Cardiovascular Diseasesmentioning

confidence: 99%

<p>Role of Caspase-1 in the Pathogenesis of Inflammatory-Associated Chronic Noncommunicable Diseases</p>

Molla

Akalu

Geto

et al. 2020

JIR

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“…Interaction of these proteins with cellular pattern recognition receptors can lead to the assembly of the intracellular NLRP3 inflammasome complex. The assembled NLRP3 inflammasome elicits auto‐proteolytic cleavage and activation of caspase‐1, which mediates the cleavage/maturation of the pro‐inflammatory cytokines, pro‐IL‐18 and pro‐IL‐1β, and cleaves/activates gasdermin‐D (GSDMD), releasing its N‐terminal fragment . Activated GSDMD‐N, as well as active caspase‐1, may induce the formation of membrane pores thus inducing cell lysis, called pyroptotic cell death .…”

Section: Pyroptosismentioning

confidence: 99%

Mitochondrial and mitochondrial‐independent pathways of myocardial cell death during ischaemia and reperfusion injury

Davidson

Adameová

Barile³

et al. 2020

J Cellular Molecular Medi

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130

108

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Acute myocardial infarction causes lethal injury to cardiomyocytes during both ischaemia and reperfusion (IR). It is important to define the precise mechanisms by which they die in order to develop strategies to protect the heart from IR injury. Necrosis is known to play a major role in myocardial IR injury. There is also evidence for significant myocardial death by other pathways such as apoptosis, although this has been challenged. Mitochondria play a central role in both of these pathways of cell death, as either a causal mechanism is the case of mitochondrial permeability transition leading to necrosis, or as part of the signalling pathway in mitochondrial cytochrome c release and apoptosis. Autophagy may impact this process by removing dysfunctional proteins or even entire mitochondria through a process called mitophagy. More recently, roles for other programmed mechanisms of cell death such as necroptosis and pyroptosis have been described, and inhibitors of these pathways have been shown to be cardioprotective. In this review, we discuss both mitochondrial and mitochondrial‐independent pathways of the major modes of cell death, their role in IR injury and their potential to be targeted as part of a cardioprotective strategy. This article is part of a special Issue entitled ‘Mitochondria as targets of acute cardioprotection’ and emerged as part of the discussions of the European Union (EU)‐CARDIOPROTECTION Cooperation in Science and Technology (COST) Action, CA16225.

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“…In mice and rats with permanent coronary ligation, a marked increase in NLRP3, IL-1β, and IL-18 mRNA expression was found in the LV from 3 to 21 days after CAO, primarily located in myocardial fibroblasts [106]. Caspase-1 activity is increased in the myocardium minutes after the onset of ischaemia and remains elevated for several days, leading to cardiomyocyte death and amplification of inflammation [100]. Mice lacking caspase-1 that were subject to CAO exhibited both improved peri-infarct survival and a decreased rate of ventricular dilatation, presumably due in part to a decrease in MMP-3 activity, IL-18 production, and a reduction in the rate of apoptosis [34].…”

Section: Ventricular Remodellingmentioning

confidence: 99%

Targeting myocardial ischaemic injury in the absence of reperfusion

Basalay¹,

Yellon²,

Davidson³

2020

Basic Res Cardiol

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Sudden myocardial ischaemia causes an acute coronary syndrome. In the case of ST-elevation myocardial infarction (STEMI), this is usually caused by the acute rupture of atherosclerotic plaque and obstruction of a coronary artery. Timely restoration of blood flow can reduce infarct size, but ischaemic regions of myocardium remain in up to two-thirds of patients due to microvascular obstruction (MVO). Experimentally, cardioprotective strategies can limit infarct size, but these are primarily intended to target reperfusion injury. Here, we address the question of whether it is possible to specifically prevent ischaemic injury, for example in models of chronic coronary artery occlusion. Two main types of intervention are identified: those that preserve ATP levels by reducing myocardial oxygen consumption, (e.g. hypothermia; cardiac unloading; a reduction in heart rate or contractility; or ischaemic preconditioning), and those that increase myocardial oxygen/blood supply (e.g. collateral vessel dilation). An important consideration in these studies is the method used to assess infarct size, which is not straightforward in the absence of reperfusion. After several hours, most of the ischaemic area is likely to become infarcted, unless it is supplied by pre-formed collateral vessels. Therefore, therapies that stimulate the formation of new collaterals can potentially limit injury during subsequent exposure to ischaemia. After a prolonged period of ischaemia, the heart undergoes a remodelling process. Interventions, such as those targeting inflammation, may prevent adverse remodelling. Finally, harnessing of the endogenous process of myocardial regeneration has the potential to restore cardiomyocytes lost during infarction.

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Role of Caspase 1 in Ischemia/Reperfusion Injury of the Myocardium

Cited by 45 publications

References 66 publications

<p>Role of Caspase-1 in the Pathogenesis of Inflammatory-Associated Chronic Noncommunicable Diseases</p>

<p>Role of Caspase-1 in the Pathogenesis of Inflammatory-Associated Chronic Noncommunicable Diseases</p>

Mitochondrial and mitochondrial‐independent pathways of myocardial cell death during ischaemia and reperfusion injury

Targeting myocardial ischaemic injury in the absence of reperfusion

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