Investigating the role of impaired glucose uptake and hyperinsulinaemia in endocrinopathic laminitis

Katie Asplin

Unknown Date

Background: A number of conditions are associated with laminitis in horses, such as corticosteroid administration, equine Cushing’s syndrome and equine metabolic syndrome. In common to these conditions are disturbed glucose and insulin metabolism and importantly, the development of insulin resistance. Insulin resistance is seen when the insulin-responsive glucose transport proteins (GLUTs) that are largely responsible for glucose disposal in tissues such as skeletal muscle begin to fail. Aims: 1. The aim of this thesis was to determine the relationship between disturbed carbohydrate metabolism and laminitis in horses and test the hypothesis that impaired glucose uptake in the hoof lamellae is involved in the pathogenesis of laminitis, by investigating the mechanisms that control glucose uptake in hoof lamellae. 2. Having determined that glucose uptake in the hoof occurs independently of insulin, the hypothesis was re-examined, with the aim of determining the effects of hyperinsulinaemia, in the absence of cortisol manipulation, dietary modification, or hyperglycaemia on lamellar integrity in the hooves of healthy ponies. Methods: 1. An in vitro lamellar explant model was used to investigate the effects of insulin on glucose uptake in hoof lamellae. The β-adrenoceptor (β-AR) populations in equine lamellae were characterised using the radioligand binding technique and the glucose uptake response to stimulation with a potent β-AR agonist (l-isoprenaline) in the hoof was investigated. Further, the mRNA expression of both GLUT1 and GLUT4 in lamellar tissue was determined via PCR analysis. 2. Clinically healthy ponies were randomly allocated to either treatment (n = 5) or control (n = 4) groups. Treatment involved a prolonged (72 h) euglycaemic-hyperinsulinaemic clamp technique while control ponies received an equivalent volume infusion of 0.9% saline. Ponies were euthanased at the onset of Obel grade 2 laminitis (treatment) or at 72 hours (controls). Lamellar tissue was obtained from all ponies and analysed via gelatin zymography, histopathology and immunohistochemistry. Results: 1. The predominant β-AR subtype in lamellae was the β2-AR (90%), with β1-AR expression less abundant (10%). Furthermore, stimulation with l-isoprenaline inhibited glucose uptake by up to 30% in lamellae. This is consistent with the known effects of isoprenaline in other species and tissues, and supports the hypothesis that stimulation with adrenaline could result in reduced glucose uptake in hoof lamellae, suggesting a possible mechanism by which impaired glucose metabolism may be involved in laminitis. Glucose uptake in lamellar explants was not affected by either acute (10-120 min) or long-term (24 h) stimulation with porcine insulin. These results do not support a glucose deprivation model for laminitis, in which reduced insulin sensitivity results in impaired glucose uptake in the hoof. Further, exposing lamellar explants to increasing concentrations of glucose resulted in a GLUT saturation point indicative of predominantly insulin-independent GLUT1 proteins. GLUT1 mRNA expression was strong in brain, coronary band and lamellar tissue and weak in skeletal muscle in control animals and was similar in ponies with insulin-induced laminitis. In contrast, mRNA expression of the insulin-dependent GLUT4 was strong in skeletal muscle and was either absent or barely detectable in coronary band and lamellar tissue. These results are consistent with a predominantly GLUT1-mediated glucose transport system, and suggest that it is unlikely that the GLUT4 gene plays a substantial role in glucose uptake in the hoof. 2. Treated ponies all developed laminitis within 55.4  5.5 hours, while no laminitis occurred in control ponies. Insulin-induced laminitis indicated elongated, collapsed secondary epidermal lamellae (SEL), as well as enlarged and increased numbers of basal cell nuclei, mitotic figures and increased keratinisation in SELs. However, in contrast to the histological appearance of tissue obtained from oligofructose-induced laminitis, basement membrane disintegration was not a major finding. There was no increase in either active or latent forms of MMP-2 or -9 in lamellar homogenates obtained from ponies with insulin-induced laminitis compared with controls, except in one pony that demonstrated increased MMP-2 activity, which was euthanased five days after developing laminitis. Conclusions: Collectively, the research outlined in this thesis indicates that glucose uptake in the equine hoof is independent of insulin, utilising a predominantly GLUT1-mediated glucose transport system. However, a more complete understanding of the metabolic processes within equine hoof lamellae would involve further characterising the effects of other hormones, such as cortisol and IGF-1 on glucose transport, as these results indicate a possible role for adrenaline in reducing glucose uptake in lamellar tissue. Nevertheless, the results presented in this thesis do not support a glucose deprivation model for laminitis, in which reduced insulin sensitivity results in impaired uptake of glucose into hoof lamellar tissue. This research demonstrates that prolonged hyperinsulinaemia induces laminitis in normal ponies, independent of changes in blood glucose concentration. Preliminary studies investigating the pathophysiology of insulin-induced laminitis suggest the possible involvement of increased cellular proliferation and inflammation, rather than MMP activation. However, the exact mechanism by which hyperinsulinaemia induces laminitis awaits further investigation.

Laminitis

Hyperinsulinaemia

Insulin Resistance

Glucose

Euglycaemic-Hyperinsulinaemic Clamp

Optimization and use of a voltage clamp assay with insect midgut tissues

Steiger, DeAnna Lee Borchardt.

January 2006

Thesis (M.S.)--University of Delaware, 2006. / Principal faculty advisors: Clifford Keil and Vincent D'Amico, Dept. of Entomology & Wildlife Ecology. Includes bibliographical references.

Modulation of Kir6.1 channels heterologously expressed in HEK-293 cells by nicotine and acetylocholine

Hanna, Salma Toma

04 January 2005

ATP-sensitive K+ channels (KATP) channels were first described in the cardiac muscles. KATP channels are a complex of regulatory sulphonylurea receptor subunits and pore-forming inward rectifier subunits such as Kir6.1. Nicotine, an exogenous substance, adversely affects cardiovascular function in humans. Acetylcholine (ACh) is well known as a key neurotransmitter of the parasympathetic nervous system. ACh effects are usually related to binding to muscarinic receptors and stimulating second messengers that relay and direct the extracellular signals to different intracellular destinations, resulting in modulated cellular activity. We hypothesize that nicotine and ACh may modulate Kir6.1 channels via different mechanisms. Using the whole cell patch-clamp technique, the interactions of nicotine and ACh with Kir6.1 subunit permanently expressed in Human Embryonic Kidney (HEK-293) cells as well as the underlying mechanisms were studied.<p> Non-transfected HEK-293 cells possess an endogenous K+ current with current density of 3.2 ± 1.4 pA/pF at 150 mV (n = 9). Stable expression of Kir6.1 subunits cloned from rat mesenteric artery in HEK-293 cells yielded a detectable inward rectifier KATP current (-23.9 ± 1.6 pA/pF at 150 mV, n = 6). In the presence of 0.3 mM ATP in the pipette solution, nicotine at 30 and 100 µM increased the expressed Kir6.1 currents by 42 ± 11.8 and 26.2 ± 14.6%, respectively (n = 4-6, p<0.05). In contrast, nicotine at 1-3 mM inhibited Kir6.1 currents (p<0.05). Nicotine at 100 µM increased the production of superoxide anion (O2.-) by 20.3 ± 5.7% whereas at 1 mM it significantly decreased the production of O2.- by 37.7 ± 4.3%. The hypoxanthine/xanthine oxidase (HX/XO) reaction was used as a source of O2.-. Co-application of HX and XO to the transfected HEK-293 cells resulted in a significant and reproducible increase in Kir6.1 currents. Tempol, a scavenger of O2.-, abolished the stimulatory effect of HX/XO on Kir6.1 currents. Tempol also abolished the stimulatory effect of 30 mM nicotine on Kir6.1 currents (-28.3 ± 6.1 pA/pF vs. -31.2 ± 7.3 pA/pF at -150 mV, n = 6-9 for each group, p>0.05). <p> In the presence of 0.3 mM ATP in the pipette solution, ACh concentration-dependently increased the expressed Kir6.1 currents. At 1 µM, ACh increased Kir6.1 currents from -19 ± 2.5 to 31.7 ± 2.1 pA/pF (n = 8, p < 0.05). Pretreatment of the transfected HEK-293 cells with either 2 or 20 µM atropine, 100 nM a-bungarotoxin, 100 µM mecamylamine, 2 µM prazosin, 1 µM propranolol, or 10 µM dihydro-b-erythroidine hydrobromide did not alter the stimulatory effect of ACh on Kir6.1 currents (n = 4 - 5 for each group, p<0.05). When intracellular ATP was increased to 5 mM, ACh at 10 µM still exhibited its stimulatory effect (-16.4 ± 2.3 to 25.5 ± 3.8 pA/pF, n = 8, p<0.05). For the first time, the present study provides an insight for the interactions of nicotine and ACh with Kir6.1 subunits. Our data demonstrate that micromolar concentration of nicotine and ACh stimulated Kir6.1 channels. Nicotine at millimolar concentrations inhibited Kir6.1 channels. The dual effect of nicotine, not mediated by nAChR, are mediated partially by O2.- levels in the cells. The ACh excitatory effect is mediated neither by an AChR-dependent mechanism, nor by alteration in ATP metabolism. This study challenges the traditional explanations for the receptor-mediated effects of nicotine and ACh on ion channels and opens a new door to understand the effects of nicotine and ACh on KATP channels in many cellular systems.

HEK-293 cells

Kir6.1 channels

nicotine

ACh

patch-clamp

Modulation of Kir6.1 channels heterologously expressed in HEK-293 cells by nicotine and acetylocholine

Hanna, Salma Toma

04 January 2005

ATP-sensitive K+ channels (KATP) channels were first described in the cardiac muscles. KATP channels are a complex of regulatory sulphonylurea receptor subunits and pore-forming inward rectifier subunits such as Kir6.1. Nicotine, an exogenous substance, adversely affects cardiovascular function in humans. Acetylcholine (ACh) is well known as a key neurotransmitter of the parasympathetic nervous system. ACh effects are usually related to binding to muscarinic receptors and stimulating second messengers that relay and direct the extracellular signals to different intracellular destinations, resulting in modulated cellular activity. We hypothesize that nicotine and ACh may modulate Kir6.1 channels via different mechanisms. Using the whole cell patch-clamp technique, the interactions of nicotine and ACh with Kir6.1 subunit permanently expressed in Human Embryonic Kidney (HEK-293) cells as well as the underlying mechanisms were studied.<p> Non-transfected HEK-293 cells possess an endogenous K+ current with current density of 3.2 ± 1.4 pA/pF at 150 mV (n = 9). Stable expression of Kir6.1 subunits cloned from rat mesenteric artery in HEK-293 cells yielded a detectable inward rectifier KATP current (-23.9 ± 1.6 pA/pF at 150 mV, n = 6). In the presence of 0.3 mM ATP in the pipette solution, nicotine at 30 and 100 µM increased the expressed Kir6.1 currents by 42 ± 11.8 and 26.2 ± 14.6%, respectively (n = 4-6, p<0.05). In contrast, nicotine at 1-3 mM inhibited Kir6.1 currents (p<0.05). Nicotine at 100 µM increased the production of superoxide anion (O2.-) by 20.3 ± 5.7% whereas at 1 mM it significantly decreased the production of O2.- by 37.7 ± 4.3%. The hypoxanthine/xanthine oxidase (HX/XO) reaction was used as a source of O2.-. Co-application of HX and XO to the transfected HEK-293 cells resulted in a significant and reproducible increase in Kir6.1 currents. Tempol, a scavenger of O2.-, abolished the stimulatory effect of HX/XO on Kir6.1 currents. Tempol also abolished the stimulatory effect of 30 mM nicotine on Kir6.1 currents (-28.3 ± 6.1 pA/pF vs. -31.2 ± 7.3 pA/pF at -150 mV, n = 6-9 for each group, p>0.05). <p> In the presence of 0.3 mM ATP in the pipette solution, ACh concentration-dependently increased the expressed Kir6.1 currents. At 1 µM, ACh increased Kir6.1 currents from -19 ± 2.5 to 31.7 ± 2.1 pA/pF (n = 8, p < 0.05). Pretreatment of the transfected HEK-293 cells with either 2 or 20 µM atropine, 100 nM a-bungarotoxin, 100 µM mecamylamine, 2 µM prazosin, 1 µM propranolol, or 10 µM dihydro-b-erythroidine hydrobromide did not alter the stimulatory effect of ACh on Kir6.1 currents (n = 4 - 5 for each group, p<0.05). When intracellular ATP was increased to 5 mM, ACh at 10 µM still exhibited its stimulatory effect (-16.4 ± 2.3 to 25.5 ± 3.8 pA/pF, n = 8, p<0.05). For the first time, the present study provides an insight for the interactions of nicotine and ACh with Kir6.1 subunits. Our data demonstrate that micromolar concentration of nicotine and ACh stimulated Kir6.1 channels. Nicotine at millimolar concentrations inhibited Kir6.1 channels. The dual effect of nicotine, not mediated by nAChR, are mediated partially by O2.- levels in the cells. The ACh excitatory effect is mediated neither by an AChR-dependent mechanism, nor by alteration in ATP metabolism. This study challenges the traditional explanations for the receptor-mediated effects of nicotine and ACh on ion channels and opens a new door to understand the effects of nicotine and ACh on KATP channels in many cellular systems.

HEK-293 cells

Kir6.1 channels

nicotine

ACh

patch-clamp

The mechanism of beta-bungarotoxin on spontaneous transmitter release at developing neuromuscular synapse.

Kang, Kai-Hsiang

21 July 2003

beta-Bungarotoxin (beta-BuTx), the presynaptic neurotoxin purified from the venom of Bungarus multicinctus, consists of two dissimilar polypeptide subunits. A phospholipase A2 subunit named A chain, and a non-phospholipase A2 subunits named B chain. The A chain and B chain are covalently linked by one disulfide bridge. Although it has been widely accepted that the toxic effect of beta-BuTx is attributed to the disturbance of presynaptic transmitter release, however the inhibition of transmitter release by beta-BuTx is still obscure. Here we investigate the mechanism that mediates facilitation of transmitter release at the neuromuscular junction induced by beta-BuTx, using Xenopus nerve-muscle coculture. Application of beta-BuTx and isotoxins BM12, BM13 led to a marked increase in the frequency of spontaneous synaptic currents (SSCs) after a short period (12~18 min) of latency. The synaptic potentiation induced by these toxins was abolished when Ca2+ in the medium is substituted by Ba2+ (a potent phospholipase A2 inhibitor). Application of PLP-BM12 and PLP-BM13, which have been chemical-modification to lose their PLA2 activity from BM12 and BM13, failed to potentiate the transmitter release.

transmitter release

Xenopus

neuromuscular synapse

patch clamp

bungarotoxin

Caractérisation électrophysiologique in situ à l'aide de la technique de Patch-Clamp de la cellule musculaire striée du Nématode Caenorhabditis Elegans

Jospin, Maëlle Allard, Bruno

January 2004

Reproduction de : Thèse de doctorat : Biologie cellulaire et moléculaire : Lyon 1 : 2004. / Titre provenant de l'écran titre. 256 réf. bibliogr.

Einfluss von SDF 1-[alpha] [1-Alpha] auf den Ca2+-aktivierten K+-Kanal mit grosser Leitfähigkeit und die daraus resultierenden Auswirkungen auf die Proliferation, Migration, NO- und Ca2+-Homöostase humaner Endothelzellen

Reinhold, Lars Henning

January 2007

Zugl.: Giessen, Univ., Diss., 2007

ADIPONECTIN MODULATES EXCITABILITY OF SUBFORNICAL ORGAN NEURONS AT DIFFERENT ENERGY STATES

Alim, Ishraq

01 April 2009

Adiponectin (ADP) is an adipokine, which acts as an insulin sensitizing hormone. Recent studies have shown that adiponectin receptors (AdipoR1, AdipoR2) are present in the CNS; however, there is some debate as to whether or not ADP crosses the blood brain barrier (BBB). Circumventricular organs (CVO) are CNS sites outside the BBB, and thus represent sites at which circulating adiponectin may act to influence the CNS without having to cross the BBB. The subfornical organ (SFO) is a CVO that is responsive to a number of different circulating satiety signals including amylin, CCK, and ghrelin. We report here that the SFO also shows a high density of mRNA for both adiponectin receptors. These observations support the concept that the SFO may be a key player in sensing circulating ADP. To test the hypothesis that ADP influences the excitability of SFO neurons, we used current-clamp electrophysiology on dissociated SFO neurons to observe changes in membrane potential. ADP (10 nM) application effected the excitability of SFO neurons, where the cells either depolarized (8.9±0.9 mV, 21 of 97 cells) or hyperpolarized (-8.0±0.5 mV, 34 of 97 cells). Using single-cell RT-PCR we found that the majority of the responsive neurons expressed AdipoR1 or R2 and the non-responsive neurons expressed neither. In view of the recognized role of ADP in the regulation of energy balance, we next examined the effects of food deprivation for 48 hours on ADP signaling in the SFO. Our previous microarray analysis of SFO showed increases in AdipoR2 mRNA, with no significant change in AdipoR1 mRNA. We have also assessed the effects of such changes in receptor expression on ADP signaling in SFO neurons using calcium imaging and patch clamp techniques. In SFO neurons obtained from control animals, ADP induced increases in intracellular Ca2+ were observed in 25% of cells, while following food deprivation 0% of cells showed this response. Furthermore, 77% of neurons from starved animals showed clear depolarization, while no hyperpolarizing responses were observed. The results presented in this study suggest that adiponectin modulates the excitability of SFO neurons and that the response to ADP changes during starvation. / Thesis (Master, Neuroscience Studies) -- Queen's University, 2008-09-17 18:07:35.099

Adiponectin

Subfornical Organ

circumventricular organ

patch clamp

Energy homeostasis

Einfluss des Phosphodiesterase-Typ-5 Inhibitors Sildenafil auf den Ca 2+ -aktivierten K + -Kanal mit großer Leitfähigkeit in humanen Endothelzellen

Lüdders, Dörte Wiebke.

January 2007

Universiẗat, Diss., 2007--Giessen.

Einfluss von Endothelin-1 auf den Ca2+-aktivierten K+-Kanal mit grosser Leitfähigkeit, die Ca2+-Homöostase und die humane Endothelzellproliferation

Most, Astrid Kerstin

January 2007

Zugl.: Giessen, Univ., Diss., 2007