Thinn Hlaing scite author profile

Cardiac calsequestrin (Casq2) is thought to be the key sarcoplasmic reticulum (SR) Ca 2+ storage protein essential for SR Ca 2+ release in mammalian heart. Human CASQ2 mutations are associated with catecholaminergic ventricular tachycardia. However, homozygous mutation carriers presumably lacking functional Casq2 display surprisingly normal cardiac contractility. Here we show that Casq2-null mice are viable and display normal SR Ca 2+ release and contractile function under basal conditions. The mice exhibited striking increases in SR volume and near absence of the Casq2-binding proteins triadin-1 and junctin; upregulation of other Ca 2+ -binding proteins was not apparent. Exposure to catecholamines in Casq2-null myocytes caused increased diastolic SR Ca 2+ leak, resulting in premature spontaneous SR Ca 2+ releases and triggered beats. In vivo, Casq2-null mice phenocopied the human arrhythmias. Thus, while the unique molecular and anatomic adaptive response to Casq2 deletion maintains functional SR Ca 2+ storage, lack of Casq2 also causes increased diastolic SR Ca 2+ leak, rendering Casq2-null mice susceptible to catecholaminergic ventricular arrhythmias.

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Ablation of triadin causes loss of cardiac Ca ²⁺ release units, impaired excitation–contraction coupling, and cardiac arrhythmias

Chopra

Yang

Asghari

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

136

174

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Heart muscle excitation-contraction (E-C) coupling is governed by Ca 2؉ release units (CRUs) whereby Ca 2؉ influx via L-type Ca 2؉ channels (Cav1.2) triggers Ca 2؉ release from juxtaposed Ca 2؉ release channels (RyR2) located in junctional sarcoplasmic reticulum (jSR). Although studies suggest that the jSR protein triadin anchors cardiac calsequestrin (Casq2) to RyR2, its contribution to E-C coupling remains unclear. Here, we identify the role of triadin using mice with ablation of the Trdn gene (Trdn ؊/؊ ). The structure and protein composition of the cardiac CRU is significantly altered in Trdn ؊/؊ hearts. jSR proteins (RyR2, Casq2, junctin, and junctophilin 1 and 2) are significantly reduced in Trdn ؊/؊ hearts, whereas Cav1.2 and SERCA2a remain unchanged. Electron microscopy shows fragmentation and an overall 50% reduction in the contacts between jSR and T-tubules. Immunolabeling experiments show reduced colocalization of Cav1.2 with RyR2 and substantial Casq2 labeling outside of the jSR in Trdn ؊/؊ myocytes. CRU function is impaired in Trdn ؊/؊ myocytes, with reduced SR Ca 2؉ release and impaired negative feedback of SR Ca 2؉ release on Cav1.2 Ca 2؉ currents (ICa). Uninhibited Ca 2؉ influx via ICa likely contributes to Ca 2؉ overload and results in spontaneous SR Ca 2؉ releases upon ␤-adrenergic receptor stimulation with isoproterenol in Trdn ؊/؊ myocytes, and ventricular arrhythmias in Trdn ؊/؊ mice. We conclude that triadin is critically important for maintaining the structural and functional integrity of the cardiac CRU; triadin loss and the resulting alterations in CRU structure and protein composition impairs E-C coupling and renders hearts susceptible to ventricular arrhythmias.cardiac muscle ͉ sarcoplasmic reticulum ͉ calsequestrin ͉ Cav1.2 ͉ RyR2

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Biochemical markers of bone turnover – uses and limitations

2014

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Bone turnover markers of resorption and formation are released during the process of bone remodelling. These markers have been extensively studied in a number of therapeutic trials of osteoporosis during the past decade. This has led to better understanding of their physiology, clinical applications and possible ways to optimize analytical techniques. Bone markers can complement the results of bone mineral density in the management of osteoporosis, but their use in clinical practice is challenged by pre-analytical and analytical variability. This review will discuss different types of bone markers, their limitations, use in different metabolic bone diseases and current recommendations from the International Osteoporosis Foundation and the International Federation of Clinical Chemistry and Laboratory Medicine bone marker standards working group.

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Modest Reductions of Cardiac Calsequestrin Increase Sarcoplasmic Reticulum Ca ²⁺ Leak Independent of Luminal Ca ²⁺ and Trigger Ventricular Arrhythmias in Mice

Chopra

Kannankeril

Yang

et al. 2007

Circulation Research

115

102

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Abstract-Cardiac calsequestrin-null mice (Casq2 Ϫ/Ϫ ) display catecholaminergic ventricular tachycardia akin to humans with CASQ2 mutations. However, the specific contribution of Casq2 deficiency to the arrhythmia phenotype is difficult to assess because Casq2 Ϫ/Ϫ mice also show significant reductions in the sarcoplasmic reticulum (SR) proteins junctin and triadin-1 and increased SR volume. Furthermore, it remains unknown whether Casq2 regulates SR Ca 2ϩ release directly or indirectly by buffering SR luminal Ca 2ϩ . To address both questions, we examined heterozygous (Casq2 ϩ/Ϫ ) mice, which have a 25% reduction in Casq2 but no significant decrease in other SR proteins. Casq2

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Phase 2 Reentry as a Trigger to Initiate Ventricular Fibrillation During Early Acute Myocardial Ischemia

et al. 2004

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Background-Phase 2 reentry caused by heterogeneous loss of the transient outward potassium current (I to )-mediated epicardial action potential (AP) dome can produce a closely coupled R-on-T extrasystole leading to ventricular fibrillation (VF) under conditions of ST-segment elevation unrelated to ischemia. The present study examined the role of phase 2 reentry in the initiation of VF during early myocardial ischemia. Methods and Results-Regional myocardial ischemia was produced in an isolated, arterially perfused canine right ventricular wedge preparation. Transmembrane APs from 2 epicardial sites at each side of the ischemic border were simultaneously recorded together with measurements of extracellular potassium concentration ([K ϩ ] o ) and a transmural ECG. Loss of the I to -mediated epicardial AP dome in the ischemic zone but not in the perfused tissue resulted in phase 2 reentry and associated R-on-T extrasystoles capable of initiating VF in 7 of 15 preparations during the first 3 to 9 minutes of myocardial ischemia, with marked ST-segment elevation and [K ϩ ] o accumulation. The I to and phase 1 magnitude of epicardium contributed importantly to the onset of VF. Phase 1 magnitude and I to density at ϩ30 mV in the group with phase 2 reentry-related R-on-T extrasystoles were 32.2Ϯ1.3 mV and 30.3Ϯ0.5 pA/pF (nϭ7), respectively, significantly greater than those (24.0Ϯ1.8 mV and 23.2Ϯ1.0 pA/pF) in the group without the extrasystoles (nϭ8, PϽ0.01). Conclusions-Acute regional myocardial ischemia results in markedly heterogeneous loss of I to -mediated epicardial AP domes across the ischemic border, leading to phase 2 reentry. Phase 2 reentry can in turn produce an R-on-T extrasystole capable of initiating VF.

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ECG Repolarization Waves: Their Genesis and Clinical Implications

Hlaing

DiMino

Kowey

et al. 2005

Noninvasive Electrocardiol

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The electrocardiographic (ECG) manifestation of ventricular repolarization includes J (Osborn), T, and U waves. On the basis of biophysical principles of ECG recording, any wave on the body surface ECG represents a coincident voltage gradient generated by cellular electrical activity within the heart. The J wave is a deflection with a dome that appears on the ECG after the QRS complex. A transmural voltage gradient during initial ventricular repolarization, which results from the presence of a prominent action potential notch mediated by the transient outward potassium current (I to ) in epicardium but not endocardium, is responsible for the registration of the J wave on the ECG. Clinical entities that are associated with J waves (the J-wave syndrome) include the early repolarization syndrome, the Brugada syndrome and idiopathic ventricular fibrillation related to a prominent J wave in the inferior leads. The T wave marks the final phase of ventricular repolarization and is a symbol of transmural dispersion of repolarization (TDR) in the ventricles. An excessively prolonged QT interval with enhanced TDR predisposes people to develop torsade de pointes. The malignant "Ron-T" phenomenon, i.e., an extrasystole that originates on the preceding T wave, is due to transmural propagation of phase 2 reentry or phase 2 early afterdepolarization. A pathological "U" wave as seen with hypokalemia is the consequence of electrical interaction among ventricular myocardial layers at action potential phase 3 of which repolarization slows. A physiological U wave is thought to be due to delayed repolarization of the Purkinje system. A.N.E. 2005;10(2):211-223electrocardiography; J wave; T wave; U wave

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Skeletal fluorosis due to excessive tea and toothpaste consumption

et al. 2010

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We describe the case of a 53-year-old woman who presented with a metatarsal fracture and was found to have a bone mineral density (BMD) T-score of +11 in the lumbar spine and +7.6 in the hip. Subsequent investigation revealed very high serum, urine and tissue fluoride levels, associated with excessive tea and toothpaste consumption. The case emphasises the need to exclude fluorosis in individuals with unexpectedly high BMD levels.

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The QT and Tp-e intervals in left and right chest leads: comparison between patients with systemic and pulmonary hypertension

Hlaing

Guo

Zhao

et al. 2005

Journal of Electrocardiology

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Thinn Hlaing

Casq2 deletion causes sarcoplasmic reticulum volume increase, premature Ca2+ release, and catecholaminergic polymorphic ventricular tachycardia

Ablation of triadin causes loss of cardiac Ca ²⁺ release units, impaired excitation–contraction coupling, and cardiac arrhythmias

Biochemical markers of bone turnover – uses and limitations

Modest Reductions of Cardiac Calsequestrin Increase Sarcoplasmic Reticulum Ca ²⁺ Leak Independent of Luminal Ca ²⁺ and Trigger Ventricular Arrhythmias in Mice

Phase 2 Reentry as a Trigger to Initiate Ventricular Fibrillation During Early Acute Myocardial Ischemia

ECG Repolarization Waves: Their Genesis and Clinical Implications

Skeletal fluorosis due to excessive tea and toothpaste consumption

The QT and Tp-e intervals in left and right chest leads: comparison between patients with systemic and pulmonary hypertension

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Thinn Hlaing

Casq2 deletion causes sarcoplasmic reticulum volume increase, premature Ca2+ release, and catecholaminergic polymorphic ventricular tachycardia

Ablation of triadin causes loss of cardiac Ca 2+ release units, impaired excitation–contraction coupling, and cardiac arrhythmias

Biochemical markers of bone turnover – uses and limitations

Modest Reductions of Cardiac Calsequestrin Increase Sarcoplasmic Reticulum Ca 2+ Leak Independent of Luminal Ca 2+ and Trigger Ventricular Arrhythmias in Mice

Phase 2 Reentry as a Trigger to Initiate Ventricular Fibrillation During Early Acute Myocardial Ischemia

ECG Repolarization Waves: Their Genesis and Clinical Implications

Skeletal fluorosis due to excessive tea and toothpaste consumption

The QT and Tp-e intervals in left and right chest leads: comparison between patients with systemic and pulmonary hypertension

Contact Info

Product

Resources

About

Ablation of triadin causes loss of cardiac Ca ²⁺ release units, impaired excitation–contraction coupling, and cardiac arrhythmias

Modest Reductions of Cardiac Calsequestrin Increase Sarcoplasmic Reticulum Ca ²⁺ Leak Independent of Luminal Ca ²⁺ and Trigger Ventricular Arrhythmias in Mice