Joshua D. Lovelock

Uncoupled Cardiac Nitric Oxide Synthase Mediates Diastolic Dysfunction

Background— Heart failure with preserved ejection fraction is 1 consequence of hypertension and is caused by impaired cardiac diastolic relaxation. Nitric oxide (NO) is a known modulator of cardiac relaxation. Hypertension can lead to a reduction in vascular NO, in part because NO synthase (NOS) becomes uncoupled when oxidative depletion of its cofactor tetrahydrobiopterin (BH4) occurs. Similar events may occur in the heart that lead to uncoupled NOS and diastolic dysfunction. Methods and Results— In a hypertensive mouse model, diastolic dysfunction was accompanied by cardiac oxidation, a reduction in cardiac BH4, and uncoupled NOS. Compared with sham-operated animals, male mice with unilateral nephrectomy, with subcutaneous implantation of a controlled-release deoxycorticosterone acetate pellet, and given 1% saline to drink were mildly hypertensive and had diastolic dysfunction in the absence of systolic dysfunction or cardiac hypertrophy. The hypertensive mouse hearts showed increased oxidized biopterins, NOS-dependent superoxide production, reduced NO production, and dephosphorylated phospholamban. Feeding hypertensive mice BH4 (5 mg/d), but not treating with hydralazine or tetrahydroneopterin, improved cardiac BH4 stores, phosphorylated phospholamban levels, and diastolic dysfunction. Isolated cardiomyocyte experiments revealed impaired relaxation that was normalized with short-term BH4 treatment. Targeted cardiac overexpression of angiotensin-converting enzyme also resulted in cardiac oxidation, NOS uncoupling, and diastolic dysfunction in the absence of hypertension. Conclusions— Cardiac oxidation, independently of vascular changes, can lead to uncoupled cardiac NOS and diastolic dysfunction. BH4 may represent a possible treatment for diastolic dysfunction.

A Proliferative Burst During Preadolescence Establishes the Final Cardiomyocyte Number

It is widely believed that perinatal cardiomyocyte terminal differentiation blocks cytokinesis, thereby causing binucleation and limiting regenerative repair after injury. This suggests that heart growth should occur entirely by cardiomyocyte hypertrophy during preadolescence when, in mice, cardiac mass increases many-fold over a few weeks. Here, we show that a thyroid hormone surge activates the IGF-1/IGF-1-R/Akt pathway on postnatal day 15 and initiates a brief but intense proliferative burst of predominantly binuclear cardiomyocytes. This proliferation increases cardiomyocyte numbers by ~40%, causing a major disparity between heart and cardiomyocyte growth. Also, the response to cardiac injury at postnatal day 15 is intermediate between that observed at postnatal days 2 and 21, further suggesting persistence of cardiomyocyte proliferative capacity beyond the perinatal period. If replicated in humans, this may allow novel regenerative therapies for heart diseases.

Ranolazine Improves Cardiac Diastolic Dysfunction Through Modulation of Myofilament Calcium Sensitivity

Rationale: Previously, we demonstrated that a deoxycorticosterone acetate (DOCA)-salt hypertensive mouse model produces cardiac oxidative stress and diastolic dysfunction with preserved systolic function. Oxidative stress has been shown to increase late inward sodium current (INa), reducing the net cytosolic Ca2+ efflux. Objective: Oxidative stress in the DOCA-salt model may increase late INa, resulting in diastolic dysfunction amenable to treatment with ranolazine. Methods and Results: Echocardiography detected evidence of diastolic dysfunction in hypertensive mice that improved after treatment with ranolazine (E/E′:sham, 31.9±2.8, sham+ranolazine, 30.2±1.9, DOCA-salt, 41.8±2.6, and DOCA-salt+ranolazine, 31.9±2.6; P=0.018). The end-diastolic pressure-volume relationship slope was elevated in DOCA-salt mice, improving to sham levels with treatment (sham, 0.16±0.01 versus sham+ranolazine, 0.18±0.01 versus DOCA-salt, 0.23±0.2 versus DOCA-salt+ranolazine, 0.17±0.0 1 mm Hg/L; P<0.005). DOCA-salt myocytes demonstrated impaired relaxation, &tgr;, improving with ranolazine (DOCA-salt, 0.18±0.02, DOCA-salt+ranolazine, 0.13±0.01, sham, 0.11±0.01, sham+ranolazine, 0.09±0.02 seconds; P=0.0004). Neither late INa nor the Ca2+ transients were different from sham myocytes. Detergent extracted fiber bundles from DOCA-salt hearts demonstrated increased myofilament response to Ca2+ with glutathionylation of myosin binding protein C. Treatment with ranolazine ameliorated the Ca2+ response and cross-bridge kinetics. Conclusions: Diastolic dysfunction could be reversed by ranolazine, probably resulting from a direct effect on myofilaments, indicating that cardiac oxidative stress may mediate diastolic dysfunction through altering the contractile apparatus.

Generator replacement is associated with an increased rate of ICD lead alerts

BACKGROUND Lead malfunction is an important cause of morbidity and mortality in patients with an implantable cardioverter-defibrillator (ICD). We have shown that the failure of recalled high-voltage leads significantly increases after ICD generator replacement. However, generator replacement has not been recognized as a predictor of lead failure in general. OBJECTIVE The purpose of this study is to assess the effect of ICD generator exchange on the rate of ICD lead alerts. METHODS A time-dependent Cox proportional hazards model was used to analyze a database of remotely monitored ICDs. The model assessed the impact of generator exchange on the rate of lead alerts after ICD generator replacement. RESULTS The analysis included 60,219 patients followed for 37 ± 19 months. The 5-year lead survival was 99.3% (95% confidence interval 99.2%-99.4%). Of 60,219 patients, 7458 patients (12.9%) underwent ICD generator exchange without lead replacement. After generator replacement, the rate of lead alerts was more than 5-fold higher than in controls with leads of the same age without generator replacement (hazard ratio 5.19; 95% confidence interval 3.45-7.84). A large number of lead alerted within 3 months of generator replacement. Lead alerts were more common in patients with single- vs dual-chamber ICDs and in younger patients. Sex was not associated with lead alerts. CONCLUSION Routine generator replacement is associated with a 5-fold higher risk of lead alert compared to age-matched leads without generator replacement. This suggests the need for intense surveillance after generator replacement and the development of techniques to minimize the risk of lead damage during generator replacement.

Pulse Generator Exchange Does Not Accelerate the Rate of Electrical Failure in a Recalled Small Caliber ICD Lead

St. Jude Riata/Riata ST defibrillator leads (St. Jude Medical, Sylmar, CA, USA) were recalled by the Food and Drug Administration in 2011 for an increased rate of failure. More than 227,000 leads were implanted and at least 79,000 patients still have active Riata leads. Studies have examined clinical predictors of lead failure in Riata leads, but none have addressed the effect of implantable cardioverter defibrillator (ICD) generator exchange on lead failure. The purpose of this study is to assess the effect of ICD generator exchange on the rate of electrical failure in the Riata lead at 1 year.

Reply to letter regarding article, uncoupled cardiac nitric oxide synthase mediates diastolic dysfunction

We agree with the proposal by Antoniades et al that folate supplementation may be an effective way of restoring cardiovascular tetrahydrobiopterin (BH4) concentrations. On the other hand, a pilot study from our group demonstrated that oral BH4 improves endothelial nitric oxide bioavailability in hypertensive patients. …