Stratégies de thermorégulation liées aux contraintes physiologiques et environnementales chez le manchot royal (Aptenodytes patagonicus) / Thermoregulation strategies related to physiological and environmental constraints in king penguin (Aptenodytes patagonicus)

Lewden, Agnès

20 October 2017

Les espèces endothermes amphibies font face à de fortes contraintes durant leurs séjours en mer dont l’augmentation des coûts de thermorégulation. La recherche alimentaire du manchot royal (Aptenodytes patagonicus) s’étend sur plusieurs jours alternant des plongées profondes de chasse et des périodes de repos à la surface de l’eau correspondant à deux stratégies de thermorégulation différentes. Durant les plongées, l’hypothermie des tissus suggère une économie d’énergie visant à augmenter la durée d’apnée. Cependant, l’utilité de la réaugmentation des températures corporelles durant les périodes de repos reste méconnue. Alors que la digestion débute durant les plongées, nous supposons que le stockage des acides gras dans les tissus adipeux périphériques ne peut se faire que par le retour à normothermie de ces tissus. Nous avons testé cette hypothèse en maintenant des individus équipés d’enregistreurs de températures (périphériques et interne) dans une piscine d’eau de mer afin d’étudier les variations de températures en fonction de l’état nutritionnel des manchots. De plus, nous avons mesuré, par respirométrie, les dépenses énergétiques en fonction des températures corporelles. Enfin, nous avons étudié les variations de flux sanguins à l’aide de thermographie infra-rouge afin de comprendre le retour à normothermie des tissus périphériques et les coûts énergétiques associés. / The energetic cost of foraging activities in King Penguin (Aptenodytes patagonicus) consists to reach favourable areas, realizes depth diving to attempt fish patch and resting in high latitude cold water. Several studies have shown that resting in cold water could be represent a more expensive cost than realized depth diving. Indeed, this paradox is probably linked with contrasting thermoregulation processes. During daylight, a general hypothermia occurs and is believed to reduce energy expenditure. At sunrise occurs a re-warming to normothermia, contributing to increase heat-loss during the night. We hypothesise an energetic conflict between thermoregulation and digestive processes. During daylight, the organism may be unable to assimilate the end product of prey digestion (free fatty acids) inside the peripheral subcutaneous adipose tissues (SAT), because skin is no more blood perfused. During the night, re-warming and re-connecting to blood circulation peripheral tissues could be inevitable to end the assimilation of FFA inside the SAT. In a first step, we have reproduced the conditions of a resting night at sea and events of rewarming skin temperature, using a sea water tank in which king penguins equipped with internal temperature loggers were maintained several days. In a second step, we have tested a generalisation of our hypothesis studying body temperature variations on penguins fast and feed. Finally, we have measured the cost to maintain normothermia in cold water with respirometry measures and investigated peripheral vasodilation with body temperature variations and infrared thermography.

Thermorégulation

Normothermie

Oiseaux marins

Vasodilatation

Energétique

Thermoregulation

Normothermia

Seabirds

Vasodilation

Energetic

571

591

The Roles of the Na+/K+-ATPase, NKCC, and K+ Channels in the Regulation Local Sweating and Cutaneous Blood Flow During Exercise in Humans in vivo

Louie, Jeffrey

January 2016

Na+/K+-ATPase has been shown to regulate the sweating and cutaneous vascular responses during exercise; however, similar studies have not been conducted to assess the roles of the Na-K-2Cl cotransporter (NKCC) and K+ channels. Additionally, it remains to be determined if these mechanisms underpinning the heat loss responses differ with exercise intensity. Eleven young (24±4 years) males performed three 30-min semi-recumbent cycling bouts at low (30% VO2peak), moderate (50% VO2peak), and high (70% VO2peak) intensity exercise, respectively, each separated by 20-min recovery periods. Using intradermal microdialysis, four forearm skin sites were continuously perfused with either: 1) lactated Ringer solution (Control), 2) 6 mᴍ ouabain (Na+/K+-ATPase inhibitor), 3) 10 mᴍ bumetanide (NKCC inhibitor), or 4) 50 mᴍ BaCl2 (non-specific K+ channel inhibitor); sites at which we assessed local sweat rate (LSR) and cutaneous vascular conductance (CVC). Inhibition of Na+/K+-ATPase attenuated LSR compared to Control during the moderate and high intensity exercise bouts (both P˂0.01), whereas attenuations with NKCC and K+ channel inhibition were only apparent during the high intensity exercise bout (both P≤0.05). Na+/K+-ATPase inhibition augmented CVC during all exercise intensities (all P˂0.01), whereas CVC was greater with NKCC inhibition during the low intensity exercise only (P˂0.01) and attenuated with K+ channel inhibition during the moderate and high intensity exercise conditions (both P˂0.01). We show that Na+/K+-ATPase, NKCC and K+ channels all contribute to the regulation of sweating and cutaneous blood flow but their influence is dependent on the intensity of exercise.

Na+/K+-ATPase

NKCC

K+ channels

heat loss

exercise

sweating

cutaneous vasodilation

Efeito do exercício físico aeróbio no relaxamento aórtico de ratos e no controle da biodisponibilidade do óxido nítrico / Effects of acute aerobic exercise on vasodilation response of rat aorta and regulation of nitric oxide biovalability

Leonardo Yuji Tanaka

29 August 2008

O presente estudo avaliou o efeito do exercício físico aeróbico na função vasomotora dependente do endotélio em aorta de ratos bem como os mecanismos envolvidos na regulação da biodisponibilidade do NO. Para tanto, um grupo de animais foi submetido a uma sessão de exercício (EX, n=17) enquanto o outro grupo permaneceu em repouso (CT, n=18). Imediatamente após o exercício, os ratos de ambos os grupos foram eutanasiados para a retirada da aorta torácica para análises funcionais e bioquímicas. Resultados: observamos que o grupo exercitado apresentou uma melhora no relaxamento dependente do endotélio com um efeito máximo de 12%, sendo esse efeito relacionado a um aumento na ativação da eNOS. Apesar de aumentar o NO, os animais do grupo EX apresentaram níveis aumentados de superóxido (28%), efeito que foi associado à maior ativação do complexo enzimático NAD(P)H oxidase. Além do superóxido, o peróxido de hidrogênio também foi aumentado nos animais exercitados porém a maior produção de espécies reativas de oxigênio não foi suficiente para causar um estresse oxidativo vascular. Esses resultados demonstram que uma única sessão de exercício físico aeróbico é capaz de melhorar a vasodilatação dependente do endotélio por aumentar a biodisponibilidade de NO e que a produção de espécies reativas oxigênio também aumenta porém em níveis controlados . / The present study evaluated the effect of aerobic physical exercise on endothelium-dependent vasomotor function of rat aorta as well the mechanisms involved in nitric oxide bioavalability control. One group of rats was submitted to one bout of exercise (EX, n=17) while the other one was placed on the treadmill without running (CT, n=18). Immediately after exercise both group were sacrificed and the thoracic aorta was removed for functional and biochemical analysis. Results: we observed that EX group showed an improvement on endothelium-dependent relaxation (12%) and it was related to increase on eNOS activation. Despite increased nitric oxide levels, EX group demonstrated higher superoxide production (28%) that was associated to NAD(P)H oxidase activation. Additionally, hydrogen peroxide also increased in EX group but the increase in reactive oxygen species was not enough to cause oxidative stress. Theses results demonstrate that one bout of aerobic exercise can improve endothelium-dependent vasodilation by increasing NO bioavalability, and that reactive oxygen species also increases but in a controlled fashion

Espécies reativas de oxigênio

Exercício físico

Óxido nítrico

Vasodilatação

Nitric oxide

Physical exercise

Reactive oxygen species

Vasodilation

Vascular Reactivity in Newly-Formed and Mature Arterialized Collateral Capillaries

Hellstrom, Sara K

01 December 2014

Peripheral arterial occlusive disease (PAOD) is a globally-prevalent cardiovascular disease in which atherosclerotic plaques narrow arterial lumen diameters and restrict blood flow to downstream tissues. The impact of these occlusions can be mitigated by collateral vessels that connect parallel arterial branches and act as natural bypasses to maintain perfusion. In animal models that lack collateral arterioles, capillaries that connect terminal arteriolar segments can arterialize and form functional collaterals following an ischemic event; however, in the early stages of development, vasodilation is impaired. We explored the mechanism of impaired vasodilation in arterialized collateral capillaries (ACCs) and pre-existing collaterals (PECs) by evaluating endothelial-dependent vasodilation and endothelial-independent reactivity at day seven following the ischemic event. We also evaluated functional vasodilation in mature ACCs and PECs at day 21 by applying vasodilation inhibitors during the electrical stimulation of muscle contraction. Arterial occlusion was performed by ligating the cranial-lateral spinotrapezius feed artery in Balb/C mice, a strain that either lacks native arteriolar collaterals or contains a single collateral arteriole (~50% of mice), as opposed to the C57Bl/6 strain, which each contain 10 or more collateral arterioles. At seven days post-surgery, both vasodilation and vasoconstriction were impaired in ACCs when compared to terminal arterioles of similar size in unoperated limbs, but still exhibited significant changes when compared to baseline. The comparable reactivity in both endothelial-dependent and independent vasodilation at day-seven in ACCs indicates that vascular smooth muscle cells are likely responsible for the impairment, as they may still be developing, rearranging, or both, and are not yet fully capable of regulating diameter in immature ACCs. However, by 21 days post-ligation, ACCs regained the capacity to dilate in response to muscle contraction, and utilized similar vasodilation pathways as control vessels. At seven days post-ligation, PECs had impaired endothelialindependent dilation, but successful endothelial-dependent dilation, indicating the use of alternative pathways to dilate. Unlike ACCs, the PECs never completely restored vasodilation capabilities by day 21, which may be due to a variation in smooth muscle phenotype, sensitivity to vasoactive agents, and/or limited growth factor expression. For future work, evaluating collateral formation and vasodilation in a diseased model and investigating molecular variations in the smooth muscle may yield additional knowledge that can improve therapies for patients during ischemic events.

arteriogenesis

arterialization

ischemia

peripheral arterial occlusive disease

vasodilation

spinotrapezius

Biological Engineering

The Impacts of Arterial Occlusion, Sex, and Exercise on Arteriogenesis and Functional Vasodilation

Chu, Megan Tze-Mei

01 December 2016

The most frequent clinical presentation of peripheral arterial occlusive disease (PAOD) is intermittent claudication, which may be caused by impaired vasodilation. Patients demonstrate both local and systemic impairments in vasodilation, but as the collateral circulation is the primary site of resistance to the ischemic zone, impaired collateral vasodilation would have the greatest potential to induce claudication. Collateral function following arterial occlusion is not well defined, but immature collaterals may demonstrate impaired vasodilation in animal models, although this is potentially improved with exercise training. Furthermore, as females exhibit poorer physical function with ischemia and less improvement with therapeutic exercise, there appears to be a sexually dimorphic response to PAOD, warranting a comparison in collateral vasodilation between sexes. In this study, the femoral artery was ligated to induce chronic ischemia in sedentary and exercise-trained mice, and at 7 or 28 days post-surgery, the diameter of the gracilis collateral arteriole was measured at rest and after gracilis muscle contraction using intravital microscopy. No major sex differences were observed in any group. At day 7, both the resting and dilated diameters were increased, while vascular reactivity was minimal. By day 28, resting diameter decreased while maximal diameter was unchanged, causing an increase in functional vasodilation. Exercise training also improved vasodilation by decreasing collateral resting diameter. These results are consistent with reported trends in endothelium-dependent and smooth muscle-dependent vasodilation, which are impaired in immature vessels and improved with maturation and exercise, but the significance of the observed variations in resting diameter remains unclear. Large resting diameters at day 7 could be due to a loss of sympathetic tone or the proliferative and non-contractile state of smooth muscle cells, while decreased resting diameters at day 28 could indicate that a smooth muscle contractile phenotype has been restored, or that the gracilis collateral is no longer the primary collateral. However, the further research is required to determine the functional relevance of collateral resting diameter and its importance in the ischemic limb circulation.

Collateral circulation

exercise training

ischemia

sexual dimorphism

vasodilation

The effect of photobiomodulation on cerebral blood flow

Iennaco, Maria

15 May 2021

Photobiomodulation (PBM) therapy involves the irradiation of tissues with red to near- infrared (NIR) light at low power densities to stimulate healing, reduce inflammation, and promote optimal cellular functioning. These beneficial effects are thought to occur due to the absorption of NIR light by the chromophore, and terminal enzyme in the mitochondrial electron transport chain, cytochrome c oxidase (CCO). It is hypothesized that increased oxygen consumption due to the photostimulation of CCO, as well as photodissociation of the vasodilator nitric oxide from its binding site in the binuclear center of CCO, contribute to improved tissue healing by increasing blood flow to the irradiated region. Applied to the brain, PBM therapy has the potential to improve many neurological injuries and diseases for which reduced cerebral blood flow (CBF) is a common finding. This study examines whether cortical irradiation with NIR light has an impact on CBF in mice. Mice were administered brain PBM via 810nm, 190mW LED for 18 minutes. CBF was measured before, during, and after treatment using Doppler Optical Coherence Tomography. Results from 16 trials demonstrated a significant, 40% increase in CBF during NIR treatment. This CBF increase was not observed during control trials. Additionally, irradiation with a 730nm LED did not increase CBF, indicating that the blood flow increase observed with 810nm irradiation was not simply due to tissue heating. These findings provide support for the value of PBM therapy for the treatment of neurological conditions. / 2023-05-14T00:00:00Z

Biomedical engineering

Cytochrome C oxidase

Light therapy

Near-infrared light therapy

Optical coherence tomography

Stroke

Vasodilation

Effects of Guinea Pig Vasoactive Intestinal Peptide on the Isolated Perfused Guinea Pig Heart

Hoover, Donald B.

01 January 1989

The parmacological effects of guinea pig vasoactive intestinal peptide (VIP) were studied in isolated perfused guinea pig hearts. Bolus injections of VIP produced a dose-dependent tachycardia that was not affected by atenolol. A decrease in amplitude of ventricular contractions occurred in response to all doses of VIP. This response was preceded by a small increase in amplitude in 3 of 6 hearts at the highest dose. VIP produced a decrease in perfusion pressure which was prominent after coronary tone was elevated with [Arg8]-vasopressin. The present findings support speculation that VIP may have a role in the regulation of heart rate and coronary blood flow.

chronotropic response

coronary vasodilation

guinea pig

inotropic response

species difference

vasoactive intestinal peptide (VIP)

Biomedical Sciences

Vasodilatační účinky bisfenolu AF ex vivo / Vasodilatory effects of bisphenol AF ex vivo

Kuchařová, Nela

January 2021

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Nela Kuchařová Supervisor: PharmDr. Jana Pourová, Ph.D. Title of diploma thesis: Vasodilatory effects of bisphenol AF ex vivo Bisphenols are organic compounds used in the manufacture of plastics, resins, varnishes and lot of other products. However, their effects on human body are associated with a number of adverse effect that need to be investigated in more detail. The aim of this diploma thesis was to determine whether bisphenol AF has vasodilating effects ex vivo and to verify the mechanism of the relaxing effect. The experiments were performed on an isolated thoracic aorta of a Wistar rat. Bisphenol AF was added cumulatively to the precontracted aorta at increasing concentrations and we monitored whether vasodilation was induced. In testing the mechanism of action, we used inhibitors of the mechanisms tested during the experiment. The obtained results were evaluated using the GraphPad Prism program. The results show that bisphenol AF has a dose-dependent ex vivo vasodilatory effect (EC50 = 57.16 μmol/l). The mechanism of this effect is the blockage of voltagegated calcium channels on the vascular smooth muscle cell. The participation of other tested mechanisms has not been confirmed. Key...

The Role of Nitric Oxide, Acetylcholine, and Vasoactive Intestinal Peptide on Skin Blood Flow During In-Vivo Electrical Field Stimulation

Thiebaud, Robert S.

02 August 2010

The purpose of this study was to characterize a novel technique to study neurogenic control of cutaneous vasodilation. We monitored skin blood flow (SkBF) during in-vivo electrical stimulation (e-stim) intended to activate cutaneous nerves and used intradermal microdialysis to deliver receptor antagonists to characterize their contribution to cutaneous vasodilation. We examined the role of acetylcholine receptors (RACh), nitric oxide (NO), and vasoactive intestinal peptide receptors (RVIP) on the cutaneous vasodilation induced by e-stim in the absence of the sympathetic adrenergic nervous system. Six men and three women participated in the study. Three intradermal microdialysis probes were placed in the skin of the dorsal side of their forearm. The adrenergic nervous system was eliminated by delivery of a cocktail of phentolamine (0.01 mg/ml), propranolol (1 mM), and BIBP-3226 (10 µM). At one skin site atropine (0.1 mg/ml) was delivered to block RACh. At a second site we blocked nitric oxide synthase (NOS, 10 mM L-NAME) and RACh. Finally at the third site, we blocked RACh, NOS, and RVIP (0.47 mg/ml VIP10-28). The SkBF response to 1 minute stages of graded increases in frequency (0.2, 1, 2, 4, 8, and 32 Hz) at a current of 1.0 ± 0.1 mA was used to generate a stimulus-response curve before and after drug delivery. At skin site 1 RACh blockade decreased the area under curve (AUC) by 4% from 614 ± 279 to 591 ± 331 (p>0.05). Nitric oxide synthase and RACh blockade reduced the vasodilator response to e-stim by 23% from 1036 ± 457 to 801 ± 448 AUC (p>0.05). Combined NOS, RACh, and RVIP blockade reduced the vasodilator response by 48% from 802 ± 412 to 418 ± 268 AUC (p=0.07). RACh blockade had no effect on the vasodilator response to e-stim. However, in these preliminary studies both NOS and RVIP blockade provided some attenuation of the cutaneous vasodilator response associated with e-stim. Additional studies will focus on these two neurotransmitters as this novel method is refined. Advantages of e-stim include activating the sympathetic nervous system without activating local and humoral factors and studying neurotransmitters in an in-vivo setting during rest, thermal stress, or exercise.

Cutaneous circulation

microdialysis

sympathetic

adrenergic

vasodilation

intradermal

nitric oxide synthase

Exercise Science

Soluble Protein Oligomers Induce Endoplasmic Reticulum Stress in Mesenteric Resistance Arteries of Male and Female Mice

Waigi, Emily Wanjiku

January 2021

No description available.

Biomedical Research

Molecular Biology