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Physiological Circumstances (physiological + circumstance)
Selected AbstractsAMP-activated protein kinase in the regulation of hepatic energy metabolism: from physiology to therapeutic perspectivesACTA PHYSIOLOGICA, Issue 1 2009B. Viollet Abstract As the liver is central in the maintenance of glucose homeostasis and energy storage, knowledge of the physiology as well as physiopathology of hepatic energy metabolism is a prerequisite to our understanding of whole-body metabolism. Hepatic fuel metabolism changes considerably depending on physiological circumstances (fed vs. fasted state). In consequence, hepatic carbohydrate, lipid and protein synthesis/utilization are tightly regulated according to needs. Fatty liver and hepatic insulin resistance (both frequently associated with the metabolic syndrome) or increased hepatic glucose production (as observed in type 2 diabetes) resulted from alterations in substrates oxidation/storage balance in the liver. Because AMP-activated protein kinase (AMPK) is considered as a cellular energy sensor, it is important to gain understanding of the mechanism by which hepatic AMPK coordinates hepatic energy metabolism. AMPK has been implicated as a key regulator of physiological energy dynamics by limiting anabolic pathways (to prevent further ATP consumption) and by facilitating catabolic pathways (to increase ATP generation). Activation of hepatic AMPK leads to increased fatty acid oxidation and simultaneously inhibition of hepatic lipogenesis, cholesterol synthesis and glucose production. In addition to a short-term effect on specific enzymes, AMPK also modulates the transcription of genes involved in lipogenesis and mitochondrial biogenesis. The identification of AMPK targets in hepatic metabolism should be useful in developing treatments to reverse metabolic abnormalities of type 2 diabetes and the metabolic syndrome. [source] Identification of a 250 kDa putative microtubule-associated protein as bovine ferritinFEBS JOURNAL, Issue 3 2005Evidence for a ferritin, microtubule interaction We reported previously on the purification and partial characterization of a putative microtubule-associated protein (MAP) from bovine adrenal cortex with an approximate molecular mass of 250 kDa. The protein was expressed ubiquitously in mammalian tissues, and bound to microtubules in vitro and in vivo, but failed to promote tubulin polymerization into microtubules. In the present study, partial amino acid sequencing revealed that the protein shares an identical primary structure with the widely distributed iron storage protein, ferritin. We also found that the putative MAP and ferritin are indistinguishable from each other by electrophoretic mobility, immunological properties and morphological appearance. Moreover, the putative MAP conserves the iron storage and incorporation properties of ferritin, confirming that the two are structurally and functionally the same protein. This fact led us to investigate the interaction of ferritin with microtubules by direct electron microscopic observations. Ferritin was bound to microtubules either singly or in the form of large intermolecular aggregates. We suggest that the formation of intermolecular aggregates contributes to the intracellular stability of ferritin. The interactions between ferritin and microtubules observed in this study, in conjunction with the previous report that the administration of microtubule depolymerizing drugs increases the serum release of ferritin in rats [Ramm GA, Powell LW & Halliday JW (1996) J Gastroenterol Hepatol11, 1072,1078], support the probable role of microtubules in regulating the intracellular concentration and release of ferritin under different physiological circumstances. [source] Aspects on the relief of living surfaces using atomic force microscopy allow "art" to imitate natureINTEGRATIVE ZOOLOGY (ELECTRONIC), Issue 3 2010Rosa POLYMENI Abstract The visualization of the surface of biological samples using an atomic force microscope reveals features of the external relief and can resolve very fine and detailed features of the surface. We examined specimens from the skin of the amphibians Salamandra salamandra Linnaeus, 1758, Lyciasalamandra luschani basoglui Baran & Atatür, 1980 and Mesotriton alpestris Laurenti, 1768, and from the surface of pollen grains of the plant species Cyclamen graecum Link, 1835 and Cistus salviifolius Linnaeus, 1753, which exhibit certain interesting features, imaged at the nanoscale level. It is likely that the relief influences the attributes of the interfaces between the tissues and the environment. We found that the microsculpture increases in size the surface of the examined tissues and this might be particularly important for their performance in the field. Microsculpturing of amphibians' skin may affect water regulation, dehydration and rehydration, and cutaneous gas exchange. Pollen grain relief might affect the firmness of the contact between pollen surface and water droplets. High resolution imaging of the external relief showed that roughening might induce wetting and influence the water status of the specimens. In addition, roughness affects the radius of water droplets retained in between the projections of the external relief. Roughness of the tissues was highly correlated with their vertical distance, whereas surface distances were highly correlated with horizontal distances. By enabling a more detailed characterization of the external sculptures, through sophisticated techniques, a more comprehensive examination of the samples indicates similarities among different living tissues, originated from different kingdoms, which can be attributed to environmental conditions and physiological circumstances. [source] Steady-State versus Non-Steady-State QT-RR Relationships in 24-hour Holter RecordingsPACING AND CLINICAL ELECTROPHYSIOLOGY, Issue 3 2000GILLES LANDE The aim of the present study was to investigate the QT-RR interval relationship in ambulatory ECG recordings with special emphasis on the physiological circumstances under which the QT-RR intervals follow a linear relation. Continuous ECG recordings make it possible to automatically measure QT duration in individual subjects under various physiological circumstances. However, identification of QT prolongation in Holter recordings is hampered by the rate dependence of QT duration. Comparison of QT duration and QT interval rate dependence between different individuals implies that the nature of the QT-RR relationship is defined in ambulatory ECG. Holter recordings were performed in healthy volunteers at baseline and after administration of dofetilide, a Class III antiarrhythmic drug. After dofetilide, beat-to-beat automated QT measurements on Holter tapes were compared with manually measured QT intervals on standard ECGs matched by time. The QT-RR relationship was analyzed at baseline in individual and group data during three different periods: 24-hour, daytime, and nighttime. Data were collected under steady-state or non-steady-state conditions of cycle length and fitted with various correction formulae. Our study demonstrated an excellent agreement between manually and automated measurements. The classic Bazett correction formula did not fit the QT-RR data points in individual or group data. When heart beats were selected for a steady rhythm during the preceding minute, QT-RR intervals fit a linear relationship during the day and night periods, but not during the 24-hour period in both individual and group data. In contrast, in the absence of beat selection, data fit a more complex curvilinear relationship irrespective of the period. Our study provides the basis for comparison of QT interval durations and QT-RR relationships between individuals and between groups of subjects. [source] The influence of bladder filling on anorectal functionCOLORECTAL DISEASE, Issue 3 2003J. J. Crosbie Abstract Objective The aim of this study was to develop a technique to simultaneously evaluate bladder and anorectal function. In particular, this study was designed to determine if anal sphincter resting pressure, anal sphincter squeeze pressure and rectal sensation change with bladder filling. Patient and methods A pilot study of ten female patients who presented to the pelvic physiology unit for assessment of urinary symptoms was performed. All patients completed a symptom questionnaire and quality of life assessment form. Following informed consent a baseline urodynamic test was performed with the bladder empty and subsequently followed by an anorectal manometric test. Changes in anal sphincter resting pressure, squeeze pressure and rectal pressure were recorded over a ten-minute period. With the patient lying in the left lateral position, the bladder was then filled with isotonic saline at room temperature at a constant rate of 30ml/min. A continuous assessment of changes in anal sphincter resting pressure during bladder filling was made. Anal sphincter squeeze pressure and rectal sensation were measured at fixed intervals during bladder filling (50, 100, 150 ml etc.) and at fixed intervals relative to bladder capacity (25, 50, 75 and 100% capacity) by stopping bladder filling at the appropriate level. Results , There was no significant change in anal sphincter resting pressure (Mean difference(s.d.) between bladder full and empty = 2.7(5.6) P = 0.92*), squeeze pressure (Mean(s.d.) difference = 9.5(26.3) P = 0.86*) and rectal sensation (Mean difference(s.d.) first sensation 10(15.2) P = 0.958; Mean difference(s.d.) urgency = 10(17.8) P = 0.07*) on bladder filling. Conclusion , Under normal physiological circumstances, bladder filling does not influence anorectal function. *Stastistical analysis: Wilcoxon signed rank sum test. P < 0.05 considered significant. Units = mmHg [source] | |||||||||||||