Effects of Necrostatin-1, an Inhibitor of Necroptosis, and its Inactive Analogue Nec-1i on Basal Cardiovascular Function

Szobi, Adrián; Rajtík, Tomáš; Adameová, Adriana

doi:10.33549/physiolres.933393

Cited by 17 publications

(12 citation statements)

References 16 publications

(10 reference statements)

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“…When considering the concentration levels found in the pharmacokinetic study of Nec-1 (see the Introduction section) [ 13 ], the developed HPLC-Q-TOF method seems to be enough sensitive (see Section 2.2 Method validation) and, by that, easily applicable also for similar pharmacological and clinical studies of Nec-1s (even if Nec-1s exhibits 2-times higher inhibition activity than Nec-1). More specifically, the method could be useful for discovery of relationships and correlations between plasma concentrations of Nec-1s and its selected pharmacological effects (e.g., influence of the contractile and electrical activity of the heart as described in [ 11 ], or stabilization of pre-existing aneurisms [ 12 ]). Such knowledge could lead to further therapy optimization.…”

Section: Resultsmentioning

confidence: 99%

“…However, its relatively low kinase selectivity evidenced by the concomitant inhibition of indoleamine 2,3-dioxygenase (IDO), a potent immunomodulatory enzyme [ 9 ], may significantly influence the outcomes of such studies, mainly those associated with inflammatory response [ 10 ]. In addition, we have indicated that Nec-1, may also influence protein kinases regulating excitation-contraction coupling (ECC) of the heart and thereby its contractile and electrical activity [ 11 ]. An inactive analogue, Nec-1i (Nec-1i, N-demethylated thiohydantoin analogue of Nec-1), lacking the capability to inhibit RIP1 and probably also other protein kinases without any effects on ECC [ 11 ], can serve as a suitable control.…”

Section: Introductionmentioning

confidence: 99%

“…In addition, we have indicated that Nec-1, may also influence protein kinases regulating excitation-contraction coupling (ECC) of the heart and thereby its contractile and electrical activity [ 11 ]. An inactive analogue, Nec-1i (Nec-1i, N-demethylated thiohydantoin analogue of Nec-1), lacking the capability to inhibit RIP1 and probably also other protein kinases without any effects on ECC [ 11 ], can serve as a suitable control. However, this compound was also found to be an IDO inhibitor [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

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Determination of Novel Highly Effective Necrostatin Nec-1s in Rat Plasma by High Performance Liquid Chromatography Hyphenated with Quadrupole-Time-of-Flight Mass Spectrometry

et al. 2018

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Necrostatins have been shown to retard necroptosis, a programmed necrotic-like cell death, which has been shown to underlie pathophysiology of various diseases. Nec-1s, a novel highly effective necrostatin, overcomes some drawbacks of former necrostatin analogues. The determination of Nec-1s in biological system, however, has not been carried out so far. Therefore, this study was undertaken to optimize and validate the HPLC-DAD-Q-TOF method for the assessment of Nec-1s levels in the plasma what is the necessity for designing its proper dosing regimen for in vivo studies. Benefits of the proposed analytical protocol include: (i) simple sample preparation (precipitation of plasma proteins, evaporation of acetonitrile, reconstitution in mobile phase), (ii) fast, selective and sensitive analysis due to a highly orthogonal LC-MS system providing less than 8 min analysis time, (iii) detection of Nec-1s without any matrix interferences, and quantitation of very low concentration levels of Nec-1s (LLOQ ~ 20 ng/mL), (iv) high reliability of Nec-1s determination with precision and accuracy values meeting the FDA criteria for biomedical analysis. The proposed analytical protocol is suitable for routine use in relevant biological studies, and, in this work, it was successfully applied for monitoring of Nec-1s plasma levels in rats providing reproducible and consistent results. Based on pharmacokinetic features, which can also be assessed due to the results of this study, there will be efforts to perform both acute and chronic in vivo studies and potential clinical safety studies first.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Determination of Novel Highly Effective Necrostatin Nec-1s in Rat Plasma by High Performance Liquid Chromatography Hyphenated with Quadrupole-Time-of-Flight Mass Spectrometry

et al. 2018

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“…Its inactive variant Nec-1i lacks the RIP1-targeting effects, however, it retains the ability to inhibit IDO (Degterev et al 2013;Takahashi et al 2012). In addition, we have recently reported that Nec-1 likely exerts off-target pharmacodynamic effects modulating basal heart function (Szobi et al 2016). In fact, after a bolus application, Nec-1 increased systolic and diastolic blood pressure as well as heart rate.…”

Section: R a F Tmentioning

confidence: 99%

Evidence of necroptosis in hearts subjected to various forms of ischemic insults

Adameová

Hrdlička

Szobi

et al. 2017

Can. J. Physiol. Pharmacol.

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Long-lasting ischemia can result in cell loss; however, repeated episodes of brief ischemia increase the resistance of the heart against deleterious effects of subsequent prolonged ischemic insult and promote cell survival. Traditionally, it is believed that the supply of blood to the ischemic heart is associated with release of cytokines, activation of inflammatory response, and induction of necrotic cell death. In the past few years, this paradigm of passive necrosis as an uncontrolled cell death has been re-examined and the existence of a strictly regulated form of necrotic cell death, necroptosis, has been documented. This controlled cell death modality, resembling all morphological features of necrosis, has been investigated in different types of ischemia-associated heart injuries. The process of necroptosis has been found to be dependent on the activation of RIP1-RIP3-MLKL axis, which induces changes leading to the rupture of cell membrane. This pathway is activated by TNF-α, which has also been implicated in the cardioprotective signaling pathway of ischemic preconditioning. Thus, this review is intended to describe the TNF-α-mediated signaling leading to either cell survival or necroptotic cell death. In addition, some experimental data suggesting a link between heart dysfunction and the cellular loss due to necroptosis are discussed in various conditions of myocardial ischemia.

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“…Indeed, pThr287‐CaMKIIδ expression was the greatest in the PC+N group. Intriguingly, in the absence of I/R damage (Figure E), Nec‐1s perfusion increased CaMKIIδ phosphorylation at Thr287 suggesting that RIP1 kinase may modulate the activity of this protein kinase even under baseline conditions …”

Section: Resultsmentioning

confidence: 93%

Cardioprotection of ischaemic preconditioning is associated with inhibition of translocation of MLKL within the plasma membrane

Szobi

Farkašová-Ledvényiová

Lichý

et al. 2018

J Cellular Molecular Medi

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Necroptosis, a form of cell loss involving the RIP1‐RIP3‐MLKL axis, has been identified in cardiac pathologies while its inhibition is cardioprotective. We investigated whether the improvement of heart function because of ischaemic preconditioning is associated with mitigation of necroptotic signaling, and these effects were compared with a pharmacological antinecroptotic approach targeting RIP1. Langendorff‐perfused rat hearts were subjected to ischaemic preconditioning with or without a RIP1 inhibitor (Nec‐1s). Necroptotic signaling and the assessment of oxidative damage and a putative involvement of CaMKII in this process were analysed in whole tissue and subcellular fractions. Ischaemic preconditioning, Nec‐1s and their combination improved postischaemic heart function recovery and reduced infarct size to a similar degree what was in line with the prevention of MLKL oligomerization and translocation to the membrane. On the other hand, membrane peroxidation and apoptosis were unchanged by either approach. Ischaemic preconditioning failed to ameliorate ischaemia–reperfusion‐induced increase in RIP1 and RIP3 while pSer229‐RIP3 levels were reduced only by Nec‐1s. In spite of the additive phosphorylation of CaMKII and PLN because of ditherapy, the postischaemic contractile force and relaxation was comparably improved in all the intervention groups while antiarrhythmic effects were observed in the ischaemic preconditioning group only. Necroptosis inhibition seems to be involved in cardioprotection of ischaemic preconditioning and is comparable but not intensified by an anti‐RIP1 agent. Changes in oxidative stress nor CaMKII signaling are unlikely to explain the beneficial effects.

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Effects of Necrostatin-1, an Inhibitor of Necroptosis, and its Inactive Analogue Nec-1i on Basal Cardiovascular Function

Cited by 17 publications

References 16 publications

Determination of Novel Highly Effective Necrostatin Nec-1s in Rat Plasma by High Performance Liquid Chromatography Hyphenated with Quadrupole-Time-of-Flight Mass Spectrometry

Determination of Novel Highly Effective Necrostatin Nec-1s in Rat Plasma by High Performance Liquid Chromatography Hyphenated with Quadrupole-Time-of-Flight Mass Spectrometry

Evidence of necroptosis in hearts subjected to various forms of ischemic insults

Cardioprotection of ischaemic preconditioning is associated with inhibition of translocation of MLKL within the plasma membrane

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