Fixed-dose combination therapy with dutasteride and tamsulosin in the management of benign prostatic hyperplasia

Rationale: Diabetic hyperglycemia is associated with cardiac dysfunction and increased arrhythmia risk, and calcium/calmodulin-dependent protein kinase II (CaMKII) function has been implicated. CaMKII activity is promoted by both oxidation and O linked β-N-acetylglucosamine (O GlcNAc) of known CaMKII sites. Objective: To investigate which post-translational modifications occur in human diabetic hearts and how they alter electrophysiological and Ca 2+ handling properties in hyperglycemia. Methods and Results: We assessed echocardiography, electrophysiology, Ca 2+ -handling, and protein expression in site-specific CaMKII mutant mice (O GlcNAc-resistant S280A and oxidation-resistant MM281/2VV knock-ins, and global and cardiac-specific knockouts), in myocytes subjected to acute hyperglycemia and angiotensin II (Ang-II) and mice after streptozotocin injections (to induce diabetes). Human patients with diabetes exhibit elevated CaMKII O GlcNAcylation but not oxidation. In mice, acute hyperglycemia increased spontaneous diastolic Ca 2+ sparks and waves and arrhythmogenic action potential changes (prolongation, alternans and delayed afterdepolarizations), all of which required CaMKII-S280 O GlcNAcylation. Ang-II effects were dependent on NADPH oxidase 2 (NOX2)-mediated CaMKII MM281/2 oxidation. Diabetes led to much greater Ca 2+ leak, RyR2 S2814 phosphorylation, electrophysiological remodeling, and increased susceptibility to in vivo arrhythmias, requiring CaMKII activation, predominantly via S280 O GlcNAcylation and less via MM281/2 oxidation. These effects were present in myocytes at normal glucose, but were exacerbated with the in-vivo high circulating glucose. Phospholamban (PLB) O-GlcNAcylation was increased and coincided with reduced PLB S16 phosphorylation in diabetes. Dantrolene, that reverses CaMKII-dependent proarrhythmic RyR-mediated Ca 2+ leak, also prevented hyperglycemia-induced APD prolongation and delayed afterdepolarizations. Conclusions: We found that CaMKII-S280 O GlcNAcylation is required for increased arrhythmia susceptibility in diabetic hyperglycemia, which can be worsened by an additional angiotensin II-NOX2-CaMKII MM281/2 oxidation pathway. CaMKII-dependent RyR2 S2814 phosphorylation markedly increases proarrhythmic Ca 2+ leak and PLB O-GlcNAcylation may limit SR Ca 2+ reuptake, leading to impaired excitation-contraction coupling and arrhythmogenesis in diabetic hyperglycemia.

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Cardiac CaMKII activation promotes rapid translocation to its extra-dyadic targets

Wood

Simon

Galice

et al. 2018

Journal of Molecular and Cellular Cardiology

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Calcium-calmodulin dependent protein kinase IIδ (CaMKIIδ) is an important regulator of cardiac electrophysiology, calcium (Ca) balance, contraction, transcription, arrhythmias and progression to heart failure. CaMKII is readily activated at mouths of dyadic cleft Ca channels, but because of its low Ca-calmodulin affinity and presumed immobility it is less clear how CaMKII gets activated near other known, extra-dyad targets. CaMKII is typically considered to be anchored in cardiomyocytes, but while untested, mobility of active CaMKII could provide a mechanism for broader target phosphorylation in cardiomyocytes. We therefore tested CaMKII mobility and how this is affected by kinase activation in adult rabbit cardiomyocytes. We measured translocation of both endogenous and fluorescence-tagged CaMKII using immunocytochemistry, fluorescence recovery after photobleach (FRAP) and photoactivation of fluorescence. In contrast to the prevailing view that CaMKII is anchored near its myocyte targets, we found CaMKII to be highly mobile in resting myocytes, which was slowed by Ca chelation and accelerated by pacing. At low [Ca], CaMKII was concentrated at Z-lines near the dyad but spread throughout the sarcomere upon pacing. Nuclear exchange of CaMKII was also enhanced upon pacing- and heart failure-induced chronic activation. This mobilization of active CaMKII and its intrinsic memory may allow CaMKII to be activated in high [Ca] regions and then move towards more distant myocyte target sites.

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Ecology shapes the evolutionary trade‐off between predator avoidance and defence in coral reef butterflyfishes

et al. 2018

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Antipredator defensive traits are thought to trade-off evolutionarily with traits that facilitate predator avoidance. However, complexity and scale have precluded tests of this prediction in many groups, including fishes. Using a macroevolutionary approach, we test this prediction in butterflyfishes, an iconic group of coral reef inhabitants with diverse social behaviours, foraging strategies and antipredator adaptations. We find that several antipredator traits have evolved adaptively, dependent primarily on foraging strategy. We identify a previously unrecognised axis of diversity in butterflyfishes where species with robust morphological defences have riskier foraging strategies and lack sociality, while species with reduced morphological defences feed in familiar territories, have adaptations for quick escapes and benefit from the vigilance provided by sociality. Furthermore, we find evidence for the constrained evolution of fin spines among species that graze solely on corals, highlighting the importance of corals, as both prey and structural refuge, in shaping fish morphology.

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Nitrosylation of cardiac CaMKII at Cys290 mediates mechanical afterload‐induced increases in Ca²⁺ transient and Ca²⁺ sparks

Alim

Hernández

et al. 2022

The Journal of Physiology

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S-nitrosylation of CaMKII cys273 suppresses CaMKII activation and translocation within cardiac myocytes

Alim

Ko²,

Bossuyt³

et al. 2023

Biophysical Journal

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Chidera C. Alim

CaMKII Serine 280 O-GlcNAcylation Links Diabetic Hyperglycemia to Proarrhythmia

Cardiac CaMKII activation promotes rapid translocation to its extra-dyadic targets

Ecology shapes the evolutionary trade‐off between predator avoidance and defence in coral reef butterflyfishes

Nitrosylation of cardiac CaMKII at Cys290 mediates mechanical afterload‐induced increases in Ca²⁺ transient and Ca²⁺ sparks

S-nitrosylation of CaMKII cys273 suppresses CaMKII activation and translocation within cardiac myocytes

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Chidera C. Alim

CaMKII Serine 280 O-GlcNAcylation Links Diabetic Hyperglycemia to Proarrhythmia

Cardiac CaMKII activation promotes rapid translocation to its extra-dyadic targets

Ecology shapes the evolutionary trade‐off between predator avoidance and defence in coral reef butterflyfishes

Nitrosylation of cardiac CaMKII at Cys290 mediates mechanical afterload‐induced increases in Ca2+ transient and Ca2+ sparks

S-nitrosylation of CaMKII cys273 suppresses CaMKII activation and translocation within cardiac myocytes

Contact Info

Product

Resources

About

Nitrosylation of cardiac CaMKII at Cys290 mediates mechanical afterload‐induced increases in Ca²⁺ transient and Ca²⁺ sparks