Muscle mitochondrial volume and aerobic capacity in a small marsupial (<i>Sminthopsis crassicaudata</i>) match those of 'athletic' placentals, reflecting flexible links between energy-use levels in mammals generally.

Dawson, Terence J.; Webster, Koa N.; Lee, Enhua; Buttemer, William A.

doi:10.1242/jeb.079087

Cited by 8 publications

(5 citation statements)

References 63 publications

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“…It has also been suggested that the increased metabolism of endotherms is due to mitochondrial oxidative capacity of muscle providing the upper limit to maximal rates of aerobic metabolism (Weibel et al, 2004;Weibel and Hoppeler, 2005;Dawson et al, 2013). More recently, Clarke and Pörtner (2010) proposed a modification of the aerobic capacity hypothesis suggesting that an increase in body temperature was the means by which aerobic scope was achieved.…”

Section: Introductionmentioning

confidence: 99%

A meta-analysis ofin vivovertebrate cardiac performance: implications for cardiovascular support in the evolution of endothermy

Hillman

Hedrick

2015

Journal of Experimental Biology

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Endothermy in birds and mammals is associated with high body temperatures, and high rates of metabolism that are aerobically supported by elevated rates of cardiovascular O 2 transport. The purpose of this meta-analysis was to examine cardiovascular data from ectothermic and endothermic vertebrates, at rest and during exercise, with the goal of identifying key variables that may have contributed to the role of the cardiovascular system in supporting high rates of O 2 transport associated with endothermy. Vascular conductance, cardiac power and stroke work were summarized and calculated from a variety of studies at rest and during exercise for five classes of vertebrates where data were available. Conductance and cardiac power were linearly related to cardiac output from rest to exercise and also interspecifically. Exercise cardiac power and stroke work were greater in the endothermic species, owing to increased flow resulting from increased heart rate and increased pressure. Increased relative ventricle mass (RVM) was related to increased stroke volume in both groups. However, the increased RVM of endotherms was related to the increased pressure, as stroke work per gram of ventricle during exercise was equivalent between the groups. Cardiac power was linearly related to aerobic metabolic power, with 158 mW aerobic power output achieved per mW of cardiac power input. This analysis indicates that the greatly increased heart rate and cardiac stroke work leading to increased blood flow rate and blood pressure was necessary to support the metabolic requirements of endothermy.

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Section: Introductionmentioning

confidence: 99%

A meta-analysis ofin vivovertebrate cardiac performance: implications for cardiovascular support in the evolution of endothermy

Hillman

Hedrick

2015

Journal of Experimental Biology

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“…Because ROS are reportedly the main cause of MMP collapse in various cells 16 , 37 , 38 , 40 , 41 , we examined the changes in intracellular ROS levels by incubation with 1% FBS using dihydrodichlorofluorescein diacetate (DCF-DA). As shown in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…This suggests that BAFF could regulate B cell survival by controlling MMP via BAFF-mediated activation of molecules. Because ROS are reportedly the main cause of MMP collapse in various cells16,37,38,40,41 , we examined the changes in intracellular ROS levels by incubation with 1% FBS using dihydrodichlorofluorescein diacetate (DCF-DA). As shown inFig.…”

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confidence: 99%

BAFF attenuates oxidative stress-induced cell death by the regulation of mitochondria membrane potential via Syk activation in WiL2-NS B lymphoblasts

Park

Jang

Moon

2020

Sci Rep

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BAff attenuates oxidative stress-induced cell death by the regulation of mitochondria membrane potential via Syk activation in WiL2-NS B lymphoblasts Sojin park, Ju-Won Jang & eun-Yi Moon * cell survival is facilitated by the maintenance of mitochondrial membrane potential (MMp). B cell activating factor (BAFF) plays a role in survival, differentiation, and maturation of B cells. In the present study, we examined whether BAff could attenuate oxidative stress-induced B cell death by the regulation of MMP collapse via spleen tyrosine kinase (Syk) activation using WiL2-NS human B lymphoblast cells. BAFF binds to receptors on WiL2-NS cells. When the cells were incubated in serum-deprived conditions with 1% fetal bovine serum (FBS), BAFF reduced the percentage of dead cells as determined through trypan blue staining and caspase 3 activity. BAFF also inhibited MMP collapse with 1% FBS, as indicated by a decrease in the number of cells with high-red fluorescence of MitoProbe™ JC-1 reagent or a decrease in the percentage of DiOC 6-stained cells. Reactive oxygen species (ROS) production was reduced by incubation with BAFF in the presence of 10% or 1% FBS. BAFF inhibited MMP collapse, cell growth retardation, dead cell formation, and caspase 3 activation caused by treatment with H 2 o 2. Syk phosphorylation on tyrosine (Y) 525/526 was increased in cells incubated with 1% FBS in the presence of BAFF than cells incubated with 1% FBS or BAFF alone. BAY61-3606, a Syk inhibitor reduced the effect of BAFF on MMP collapse, caspase 3 activation, cell growth retardation, and dead cell formation. together, these data demonstrate that BAff might attenuate oxidative stress-induced B cell death and growth retardation by the maintenance of MMp through Syk activation by Y525/526 phosphorylation. Therefore, BAFF and Syk might be therapeutic targets in the pathogenesis of B cell-associated diseases such as autoimmune disease.

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“…Increased aerobic capacity is one among the determinants of successful migration. The oxidative capacity of muscle and the dynamics of fat storage in different parts of the body have a cumulative effect on the bird’s aerobic capacity during migration . The aerobic production of CO, H, O, and ATP from the lipolytic β-oxidation pathway in migrating birds is an important energy pathway.…”

Section: Discussionmentioning

confidence: 99%

Night Migratory Songbirds Exhibit Metabolic Ability to Support High Aerobic Capacity during Migration

et al. 2020

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Aerobic metabolism in night migratory songbirds exhibit seasonal plasticity, which depends not only on annual life history stages (LHSs), viz., migratory/nonmigratory or breeding/ nonbreeding, but also on the time of the day. Initially, we studied daily changes in behavior/physiology alongside aerobic metabolism intermediates using gas chromatography−mass spectrometrybased chemometric analyses of serum of migratory male redheaded buntings during low-energy wintering, that is, the nonmigrating LHS. Then, the metabolic phenotype of nonmigrating birds was compared with that of photostimulated migrating buntings, the latter representing the high-energy LHS. Diurnal changes such as daytime feeding and activity were reflected by increased fatty acid (FA, viz., palmitic, oleic, and linoleic acids) levels and protein catabolites, whereas higher night-time levels of short-chain FAs indicated lipolysis in night-fasted birds. High night-time levels of taurine, a sulfur amino acid, suggested the endogenous metabolite rendering an adaptive advantage to hyperglycaemic night migratory songbirds during the LHS with low daily energy expenditure. Conversely, migrating birds, largely night-active, exhibited higher circulatory FA, its mobilization, and increased aerobic catabolism, and the adipocyte-secreted lipid, palmitoylethanolamide (PEA), capable of activating the peroxisome proliferator-activated receptor α−PGCα axis, showed elevated levels throughout the day. PEA is known for anti-inflammatory and cannabinomimetic properties, and we show, for the first time, circadian changes in PEA levels in any migrating bird. Significantly higher levels of pyridoxal phosphate also suggested the bird's protective ability to combat metabolic stress through high aerobic capacity during migration. This study elucidates putative "serum biomarkers" with a protective role in stress accrued by enhanced aerobic capacity requirements at the organismal level.

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Muscle mitochondrial volume and aerobic capacity in a small marsupial (Sminthopsis crassicaudata) match those of 'athletic' placentals, reflecting flexible links between energy-use levels in mammals generally.

Cited by 8 publications

References 63 publications

A meta-analysis ofin vivovertebrate cardiac performance: implications for cardiovascular support in the evolution of endothermy

A meta-analysis ofin vivovertebrate cardiac performance: implications for cardiovascular support in the evolution of endothermy

BAFF attenuates oxidative stress-induced cell death by the regulation of mitochondria membrane potential via Syk activation in WiL2-NS B lymphoblasts

Night Migratory Songbirds Exhibit Metabolic Ability to Support High Aerobic Capacity during Migration

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