Inhibition of KV7 Channels Protects the Rat Heart against Myocardial Ischemia and Reperfusion Injury

Hedegaard, Elise Røge; Johnsen, Jacob; Povlsen, Jonas Agerlund; Jespersen, Nichlas Riise; Shanmuganathan, Jeffrey A; Laursen, Mia R; Kristiansen, Steen Buus; Simonsen, Ulf; Bøtker, Hans Erik

doi:10.1124/jpet.115.230409

Cited by 15 publications

(22 citation statements)

References 59 publications

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“…K v 7 channels (in particular K v 7.1 and K v 7.5) are highly expressed in left coronary arteries of rats, and their down‐regulation by diabetes critically determines the sensitivity (forskolin and hypoxia) to key regulators of coronary tone . Conversely, inhibition of K V 7 channels (K v 7.1, K v 7.4 and/or K v 7.5) has been found to exert cardioprotection and opening of K V 7 channels to abrogate cardioprotection by ischemic preconditioning . Down‐regulation of K v 7.4 has been implicated in primary and angiotensin II infusion‐induced hypertension .…”

Section: Kcnq Channels and Arterial Vascular Tonementioning

confidence: 99%

Perivascular adipose tissue and the dynamic regulation of K_v7 and K_ir channels: Implications for resistant hypertension

2018

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potential for potassium ions; EPAC, exchange protein directly activated by cAMP; KCNQ channels, voltage-gated potassium channels encoded by KCNQ genes; K ir channels, inwardly rectifying potassium channels; K v channels, voltage-gated potassium channels; PVAT, perivascular adipose tissue; VSMC, vascular smooth muscle cell; XE991, 10,10-bis(4-pyridinylmethyl)-9(10H)-anthracenone dihydrochloride.*Equal contribution as senior authors. AbstractResistant hypertension is defined as high blood pressure that remains uncontrolled despite treatment with at least three antihypertensive drugs at adequate doses.

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Section: Kcnq Channels and Arterial Vascular Tonementioning

confidence: 99%

Perivascular adipose tissue and the dynamic regulation of K_v7 and K_ir channels: Implications for resistant hypertension

2018

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“…Taken together, the findings of the present study support the concept that linopirdine‐supplementation of resuscitation fluids is a safe and effective approach to reduce fluid requirements and tissue oedema formation during resuscitation from haemorrhagic shock. Linopirdine has previously been described to antagonize kynurenine induced hypotension, a natural tryptophan metabolite implicated in the pathophysiology of sepsis, and to protect against myocardial ischaemia‐reperfusion injury . Thus, it might be speculated that the efficacy profile of linopirdine extends beyond haemorrhagic hypovolemic shock.…”

Section: Discussionmentioning

confidence: 99%

“…Linopirdine has previously been described to antagonize kynurenine induced hypotension, a natural tryptophan metabolite implicated in the pathophysiology of sepsis, 39 and to protect against myocardial ischaemia-reperfusion injury. 40 Thus, it might be speculated that the efficacy profile of linopirdine extends beyond haemorrhagic hypovolemic shock. Considering that linopirdine has a short systemic half-life after intravenous injection and its fluid-sparing effects wear off within three plasma half-lives, linopirdine appears to be a drug that is easily controllable if adverse effects would occur.…”

Section: Discussionmentioning

confidence: 99%

Effects of the Kv7 voltage‐activated potassium channel inhibitor linopirdine in rat models of haemorrhagic shock

Nassoiy

Babu

LaPorte

et al. 2018

Clin Exp Pharma Physio

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Recently, we demonstrated that Kv7 voltage-activated potassium channel inhibitors reduce fluid resuscitation requirements in short-term rat models of haemorrhagic shock. The aim of the present study was to further delineate the therapeutic potential and side effect profile of the Kv7 channel blocker linopirdine in various rat models of severe haemorrhagic shock over clinically relevant time periods. Intravenous administration of linopirdine, either before (1 or 3 mg/kg) or after (3 mg/kg) a 40% blood volume haemorrhage, did not affect blood pressure and survival in lethal haemorrhage models without fluid resuscitation. A single bolus of linopirdine (3 mg/kg) at the beginning of fluid resuscitation after haemorrhagic shock transiently reduced early fluid requirements in spontaneously breathing animals that were resuscitated for 3.5 hours. When mechanically ventilated rats were resuscitated after haemorrhagic shock with normal saline (NS) or with linopirdine-supplemented (10, 25 or 50 μg/mL) NS for 4.5 hours, linopirdine significantly and dose-dependently reduced fluid requirements by 14%, 45% and 55%, respectively. Lung and colon wet/dry weight ratios were reduced with linopirdine (25/50 μg/mL). There was no evidence for toxicity or adverse effects based on measurements of routine laboratory parameters and inflammation markers in plasma and tissue homogenates. Our findings support the concept that linopirdine-supplementation of resuscitation fluids is a safe and effective approach to reduce fluid requirements and tissue oedema formation during resuscitation from haemorrhagic shock.

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“…Recently, we discovered that pharmacological inhibition of Kv7.1-5 by XE991 and linopirdine protects the heart from IR injury. 14 Flupirtine, an activator of Kv7.2-5, has also been reported to protect against cardiac IR injury when administered prior to the onset of ischemia. 15 Both studies implicate that Kv7 channels are involved in IR injury.…”

Section: Introductionmentioning

confidence: 99%

“…The protective effects of Kv7 channel inhibition is additive to protection by IPC suggesting that Kv7 channel inhibition may act independently of the interactive pathways of protection by IPC. 14 We therefore investigated whether the RISK and SAFE pathways are involved in cardioprotection by Kv7 channel inhibition.…”

Section: Introductionmentioning

confidence: 99%

<p>Impact of Administration Time and Kv7 Subchannels on the Cardioprotective Efficacy of Kv7 Channel Inhibition</p>

Hansen¹,

Johnsen²,

Nielsen³

et al. 2020

DDDT

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The mechanism of cardioprotection by Kv7.1-5 (KCNQ1-5) channels inhibition by XE991 is unclear. We examined the impact of administration time on the cardioprotective efficacy of XE991, the involvement of key pro-survival kinases, and the importance of the Kv7 subchannels. Methods: Isolated perfused rat hearts were divided into five groups: 1) vehicle, 2) pre-, 3) post-or 4) pre-and post-ischemic administration of XE991 or 5) chromanol 293B (Kv7.1 inhibitor) followed by infarct size quantification. HL-1 cells undergoing simulated ischemia/ reperfusion were exposed to either a) vehicle, b) pre-, c) per-, d) post-ischemic administration of XE991 or pre-, per-and post-ischemic administration of e) XE991, f) Chromanol 293B or g) HMR1556 (Kv7.1 inhibitor). HL-1 cell injury was evaluated by propidium iodide/Hoechst staining. Pro-survival kinase activation of Akt, Erk and STAT3 in XE991mediated HL-1 cell protection was evaluated using phosphokinase inhibitors. Kv7 subtype expression was examined by RT-PCR and qPCR. Results: XE991, but not Chromanol 293B, reduced infarct size and improved hemodynamic recovery in all isolated heart groups. XE991 protected HL-1 cells when administered during simulated ischemia. Minor activation of the survival kinases was observed in cells exposed to XE991 but pharmacological inhibition of kinase activation did not reduce XE991-mediated protection. Kv7 subchannels 1-5 were all present in rat hearts but predominately Kv7.1 and Kv7.4 were present in HL-1 cells and selective Kv7.1 did not reduce ischemia/reperfusion injury. Conclusion: The cardioprotective efficacy of XE991 seems to depend on its presence during ischemia and early reperfusion and do not rely on RISK (p-Akt and pErk) and SAFE (p-STAT3) pathway activation. The protective effect of XE991 seems mainly mediated through the Kv7.4 subchannel.

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Inhibition of KV7 Channels Protects the Rat Heart against Myocardial Ischemia and Reperfusion Injury

Cited by 15 publications

References 59 publications

Perivascular adipose tissue and the dynamic regulation of K_v7 and K_ir channels: Implications for resistant hypertension

Perivascular adipose tissue and the dynamic regulation of K_v7 and K_ir channels: Implications for resistant hypertension

Effects of the Kv7 voltage‐activated potassium channel inhibitor linopirdine in rat models of haemorrhagic shock

<p>Impact of Administration Time and Kv7 Subchannels on the Cardioprotective Efficacy of Kv7 Channel Inhibition</p>

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Inhibition of KV7 Channels Protects the Rat Heart against Myocardial Ischemia and Reperfusion Injury

Cited by 15 publications

References 59 publications

Perivascular adipose tissue and the dynamic regulation of Kv7 and Kir channels: Implications for resistant hypertension

Perivascular adipose tissue and the dynamic regulation of Kv7 and Kir channels: Implications for resistant hypertension

Effects of the Kv7 voltage‐activated potassium channel inhibitor linopirdine in rat models of haemorrhagic shock

<p>Impact of Administration Time and Kv7 Subchannels on the Cardioprotective Efficacy of Kv7 Channel Inhibition</p>

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Perivascular adipose tissue and the dynamic regulation of K_v7 and K_ir channels: Implications for resistant hypertension

Perivascular adipose tissue and the dynamic regulation of K_v7 and K_ir channels: Implications for resistant hypertension