Myocardial morphometric characteristics in swine.

Singh, Sarjant; White, Fred N.; Bloor, Colin M.

doi:10.1161/01.res.49.2.434

Cited by 27 publications

(10 citation statements)

References 43 publications

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“…These data are consistent with several morphology studies on the density of cardiac mitochondria in the rat (1), dog (16), sheep (24), cat (10), and pig (22 vol% LV and 21 vol% RV) (23), which show that the relative cytosolic volume of mitochondria are identical across species. The enzymatic activities of aconitase and Mn-SOD were the same in porcine RV and LV, when normalized by cardiomyocyte content, consistent with previous measures of metabolic enzyme activities between the ventricles (6,7,26).…”

Section: Discussionsupporting

confidence: 91%

Homogenous protein programming in the mammalian left and right ventricle free walls

Phillips

Aponte

Covián

et al. 2011

Physiological Genomics

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Despite identical cardiac outputs, the right (RV) and left ventricle (LV) have very different embryological origins and resting workload. These differences suggest that the ventricles have different protein programming with regard to energy metabolism and contractile elements. The objective of this study was to determine the relative RV and LV protein expression levels, with an emphasis on energy metabolism. The RV and LV protein contents of the rabbit and porcine heart were determined with quantitative gel electrophoresis (2D-DIGE), mass spectrometry, and optical spectroscopy techniques. Surprisingly, the expression levels for more than 600 RV and LV proteins detected were similar. This included proteins many different compartments and metabolic pathways. In addition, no isoelectric shifts were detected in 2D-DIGE consistent with no differential posttranslational modifications in these proteins. Analysis of the RV and LV metabolic response to work revealed that the metabolic rate increases much faster with workload in the RV compared with LV. This implies that the generally lower metabolic stress of the RV actually approaches LV metabolic stress at maximum workloads. Thus, identical levels of energy conversion and mechanical elements in the RV and LV may be driven by the performance requirements at maximum workloads. In summary, the ventricles of the heart manage the differences in overall workload by modifying the amounts of cytosol, not its composition. The constant myocyte composition in the LV and RV implies that the ratio of energy metabolism and contractile elements may be optimal for the sustained cardiac contractile activity in the mammalian heart.

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Section: Discussionsupporting

confidence: 91%

Homogenous protein programming in the mammalian left and right ventricle free walls

Phillips

Aponte

Covián

et al. 2011

Physiological Genomics

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“…Direct comparisons of the LV and RV in healthy young male rats found a 20% greater mitochondrial volume density in the RV as assessed by electron microscopy, but no difference in mitochondrial respiratory capacity in permeablized cardiomyocyte bundles or in the activity of complexes I-IV or citrate synthase in myocardial homogenates (29). In contrast, mitochondrial volume density was not different between LV and RV myocardium in healthy young pigs (52). Here we show that mitochondrial yield and functional differences between SSM and IFM were qualitatively similar in the LV and RV with responses to aging and aldosterone infusion (Figs.…”

Section: Discussionmentioning

confidence: 89%

Enhanced resistance to permeability transition in interfibrillar cardiac mitochondria in dogs: effects of aging and long-term aldosterone infusion

Asemu

O’Connell

Cox

et al. 2013

American Journal of Physiology-Heart and Circulatory Physiology

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Functional differences between subsarcolemmal and interfibrillar cardiac mitochondria (SSM and IFM) have been observed with aging and pathological conditions in rodents. Results are contradictory, and there is little information from large animal models. We assessed the respiratory function and resistance to mitochondrial permeability transition (MPT) in SSM and IFM from healthy young (1 yr) and old (8 yr) female beagles and in old beagles with hypertension and left ventricular (LV) wall thickening induced by 16 wk of aldosterone infusion. MPT was assessed in SSM and IFM by Ca(2+) retention and swelling. Healthy young and old beagles had similar mitochondrial structure, respiratory function, and Ca(2+)-induced MPT within SSM and IFM subpopulations. On the other hand, oxidative capacity and resistance to Ca(2+)-induced MPT were significantly greater in IFM compared with SSM in all groups. Old beagles treated with aldosterone had greater LV wall thickness and worse diastolic filling but normal LV chamber volume and systolic function. Treatment with aldosterone did not alter mitochondrial respiratory function but accelerated Ca(2+)-induced MPT in SSM, but not IFM, compared with healthy old and young beagles. In conclusion, in a large animal model, oxidative capacity and resistance to MPT were greater in IFM than in SSM. Furthermore, aldosterone infusion increased susceptibility to MPT in SSM, but not IFM. Together this suggests that SSM are less resilient to acute stress than IFM in the healthy heart and are more susceptible to the development of pathology with chronic stress.

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“…The surface to volume ratio of a cell is reported as m [37], [38] in rat and rabbit myocytes, corresponding to a value of mm. The relative SR volume was set to of intracellular volume, giving an value of , based on reported values of of cell volume [37], [39], [40] in mouse, rat and swine. The relative mitochondrial volume () was set to based on an estimated mitochondrial cell volume fraction of [37], [40].…”

Section: Methodsmentioning

confidence: 99%

“…The relative SR volume was set to of intracellular volume, giving an value of , based on reported values of of cell volume [37], [39], [40] in mouse, rat and swine. The relative mitochondrial volume () was set to based on an estimated mitochondrial cell volume fraction of [37], [40]. The cytosol volume fraction was set to of the intracellular space, resulting in an value of .…”

Section: Methodsmentioning

confidence: 99%

Regulation of Ion Gradients across Myocardial Ischemic Border Zones: A Biophysical Modelling Analysis

Niederer

2013

PLoS ONE

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The myocardial ischemic border zone is associated with the initiation and sustenance of arrhythmias. The profile of ionic concentrations across the border zone play a significant role in determining cellular electrophysiology and conductivity, yet their spatial-temporal evolution and regulation are not well understood. To investigate the changes in ion concentrations that regulate cellular electrophysiology, a mathematical model of ion movement in the intra and extracellular space in the presence of ionic, potential and material property heterogeneities was developed. The model simulates the spatial and temporal evolution of concentrations of potassium, sodium, chloride, calcium, hydrogen and bicarbonate ions and carbon dioxide across an ischemic border zone. Ischemia was simulated by sodium-potassium pump inhibition, potassium channel activation and respiratory and metabolic acidosis. The model predicted significant disparities in the width of the border zone for each ionic species, with intracellular sodium and extracellular potassium having discordant gradients, facilitating multiple gradients in cellular properties across the border zone. Extracellular potassium was found to have the largest border zone and this was attributed to the voltage dependence of the potassium channels. The model also predicted the efflux of from the ischemic region due to electrogenic drift and diffusion within the intra and extracellular space, respectively, which contributed to depletion in the ischemic region.

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Myocardial morphometric characteristics in swine.

Cited by 27 publications

References 43 publications

Homogenous protein programming in the mammalian left and right ventricle free walls

Homogenous protein programming in the mammalian left and right ventricle free walls

Enhanced resistance to permeability transition in interfibrillar cardiac mitochondria in dogs: effects of aging and long-term aldosterone infusion

Regulation of Ion Gradients across Myocardial Ischemic Border Zones: A Biophysical Modelling Analysis

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