Differential expression of glucose transporters during chick embryogenesis

The patterns of Glut1 and Glut3 glucose transporter protein and mRNA expression were assessed during embryogenesis of chicken brain and skeletal muscle, Glut4 protein levels were also evaluated in skeletal muscle and heart, and Glut1 was examined in the developing heart and liver. Glut1 protein expression was detectable throughout brain ontogeny but was highest during early development. Glut1 mRNA levels in the brain remained very high throughout development. Glut3 protein was highest very early and very late and mRNA was highest during the last half of development. In embryonic skeletal muscle, the levels of Glut1and Glut3 proteins and mRNA were highest very early, and declined severely by mid-development. Glut1 protein and mRNA in the heart also peaked early and then decreased steadily. Although Glut1 mRNA levels were consistently high in the embryonic liver, Glut1 protein expression was not detected. These results suggest that (1) Glut1 is developmentally regulated in chick brain, skeletal muscle, and heart, (2) Glut1 mRNA is present in liver but does not appear to be translated, (3) Glut3 in brain increases developmentally but is virtually absent in muscle, and (4) Glut4 protein and mRNA appear to be absent from chick heart and skeletal muscle. Received 11 January 2001; accepted 14 February 2001     

Differences in luteinizing hormone release stimulated in rat anterior pituitary cells by leukotriene C4 and by gonadotropin-releasing hormone in vitro

Continuous administration of leukotriene C4 (LTC4, 10(-10) M) to superfused rat anterior pituitary cells increased LH release for 40 min only, whereas in a parallel experiment gonadotropin-releasing hormone (GnRH, 10(-9) M) evoked a continuous increase in hormone secretion. In contrast to GnRH, LTC4 did not desensitize rat anterior pituitary cells. The secretory action resulting from the administration of LTC4 (10(-10) M) was abolished for 40 min after previous stimulation. The results documented the dual action of LTC4 on LH exocytosis.     

Molecular basis of cardiotoxicity upon cobra envenomation

Various clinical manifestations leading to death have been documented in most cases of bites caused by venomous snakes. Cobra envenomation is an extremely variable process and known to cause profound neurological abnormalities. The complexity of cobra venom can induce multiple-organ failure, leading to death in case of severe envenomation. Intramuscular administration of Malayan spitting cobra (Naja sputatrix) crude venom at 1 g/g dose caused death in mice in approximately 3 h. Analysis of gene expression profiles in the heart, brain, kidney, liver and lung revealed 203 genes whose expression was altered by at least 3-fold in response to venom treatment. Of these, 50% were differentially expressed in the heart and included genes involved in inflammation, apoptosis, ion transport and energy metabolism. Electrocardiogram recordings and serum troponin T measurements indicated declining cardiac function and myocardial damage. This not only sheds light on the cardiotoxicity of cobra venom but also reveals the molecular networks affected during envenomation.Received 7 August 2004; received after revision 11 October 2004; accepted 4 November 2004     

Functional and biochemical characteristics of mitochondrial fractions from rat liver in cold-induced oxidative stress

We determined characteristics of rat liver mitochondrial fractions, resolved at 1000 (M₁), 3000 (M₃), and 10,000 g (M₁₀) after 2 and 10 days cold exposure. In all groups, the M₁ fraction exhibited the highest oxidative capacity, oxidative damage, H₂O₂ production rate, and susceptibility to stress conditions, and the lowest antioxidant levels. Cold exposure increased cytochrome oxidase activity in all fractions and succinate-supported O₂ consumption in the M₁ and M₁₀ fractions during state 3 and state 4 respiration, respectively. With succinate, the H₂O₂ release rate increased in all fractions during state 4 and state 3 respiration, whereas with pyruvate/malate, it increased only during state 4 respiration. Increases in tissue mitochondrial proteins caused a faster H₂O₂ flow from the mitochondrial to cytosolic compartment, which was limited by the reduction in the M₁ fraction. Despite increased liposoluble antioxidant levels, cold also caused enhanced oxidative damage and susceptibility to oxidative challenge and Ca²⁺-induced swelling in all fractions. These changes leading to elimination of H₂O₂-overproducing mitochondria avoided excessive tissue damage. We propose that triiodothyronine, whose levels increase in the cold environment, brings about the biochemical changes producing oxidative damage and those limiting its extent.Received 16 July 2004; received after revision 27 September 2004; accepted 18 October 2004     

Differences in luteinizing hormone release stimulated in rat anterior pituitary cells by leukotriene C4 and by gonadotropin-releasing hormone in vitro

Summary Continuous administration of leukotriene C₄ (LTC₄, 10^–10 M) to superfused rat anterior pituitary cells increased LH release for 40 min only, whereas in a parallel experiment gonadotropin-releasing hormone (GnRH, 10^–9 M) evoked a continuous increase in hormone secretion. In contrast to GnRH, LTC₄ did not desensitize rat anterior pituitary cells. The secretory action resulting from the administration of LTC₄ (10^–10 M) was abolished for 40 min after previous stimulation. The results documented the dual action of LTC₄ on LH exocytosis.     

Multiple flavonoid-binding sites within multidrug resistance protein MRP1

Recombinant nucleotide-binding domains (NBDs) from human multidrug resistance protein MRP1 were overexpressed in bacteria and purified to measure their direct interaction with high-affinity flavonoids, and to evaluate a potential correlation with inhibition of MRP1-mediated transport activity and reversion of cellular multidrug resistance. Among different classes of flavonoids, dehydrosilybin exhibited the highest affinity for both NBDs, the binding to N-terminal NBD1 being prevented by ATP. Dehydrosilybin increased vanadate-induced 8-N₃-[-³²P]ADP trapping, indicating stimulation of ATPase activity. In contrast, dehydrosilybin strongly inhibited leukotriene C₄ (LTC₄) transport by membrane vesicles from MRP1-transfected cells, independently of reduced glutathione, and chemosensitized cell growth to vincristine. Hydrophobic C-isoprenylation of dehydrosilybin increased the binding affinity for NBD1, but outsite the ATP site, lowered the increase in vanadate-induced 8-N₃-[-³²P]ADP trapping, weakened inhibition of LTC₄ transport which became glutathione dependent, and induced some cross-resistance. The overall results indicate multiple binding sites for dehydrosilybin and its derivatives, on both cytosolic and transmembrane domains of MRP1.Received 1 May 2003; received after revision 18 June 2003; accepted 24 June 2003     

Reserpin und Glykogengehalt der Organe

Summary In fasted white mice, 1–18 h after the injection of 5 mg/kg Reserpine the glycogen content of brain, heart, skeletal muscle and liver is significantly increased (about 100%, in liver nearly 300%). It is suggested that this is due to an enhanced synthesis of glycogen from non-carbohydrate material.Concerning the underlying mechanism, it is pointed out that after reserpine there occurs a release of catecholamines from the adrenal medulla and-by stimulation of the anterior pituitary-an enhanced production of corticoids.Simultaneously with the increase of the brain glycogen, the level of lactic acid is decreased, whereas the ATP-, ADP- and AMP-content of the brain remains practically unaffected.

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Ausgeführt mit Unterstützung der Deutschen Forschungsgemeinschaft.     

Extraadrenal adrenaline formation by two separate enzymes

Summary Adrenaline (A) is synthesized in the adrenal medullae by the enzyme phenylethanolamine-N-methyltransferase (PNMT). After surgical removal of the adrenal medullae tissue A levels ranged from 22% of control in the heart to 125% of control in the liver. Use of a novel assay to measure tissue A formation revealed that many tissues can synthesize A using PNMT and another enzyme that N-methylates both noradrenaline and dopamine. These enzymes are non-neuronal, inducible and synthesize a major fraction of tissue and urine A.     

Molecular cloning and characterisation of DESC4, a new transmembrane serine protease

Type II transmembrane serine proteases (TTSPs) are a growing family of multidomain proteins. Among the TTSPs, a new subfamily of HAT/DESC1-like ( human airway trypsin-like protease/ differentially expressed in squamous cell carcinoma gene 1) proteases is emerging consisting so far of four members: DESC1–3 and HAT. The cDNA of a new member of this subfamily, named DESC4, was isolated from rat tongue tissue and characterised. Analysis of selected tissues by RT-PCR demonstrated expression of DESC4 in brain, colon, heart, liver, lung and tongue. At the cellular level, DESC4 expression is confined to epithelial cells within the cleft of the circumvallate papillae extending into the ducts of minor salivary glands, the respiratory epithelium of the nasal cavity and tear gland ducts of the eyes as analysed by in situ hybridisation of sensory organ tissues. In transfected mammalian cells, DESC4 is localised to the plasma membrane as shown by immunocytochemistry and subcellular fractionation experiments. Our results suggest that we have identified a protease that is an important constituent of sensory systems and other organs.Received 20 June 2004; received after revision 3 September 2004; accepted 17 September 2004     

COPD大鼠肺组织中 LTB4水平、5 LOmRNA表达及齐留通的干预作用

目的探讨慢性阻塞性肺疾病(chronicobstructivepulmonarydisease,COPD)大鼠模型肺组织中白三烯 B4(LeukotrieneB4, LTB4)含量与5 脂氧合酶(5 LO,5 lipoxygenase)mRNA水平的变化,以及给予齐留通干预的影响.方法36只健康雄性 Wistar大鼠随机分为对照组、模型组、药物组,采用被动吸烟法制作 COPD大鼠模型,给予药物组鼻饲齐留通,测定肺功能,各组肺组织匀浆检测其 LTB4含量及髓过氧化物酶(Myeloperoxidase,MPO)活性,RT PCR法检测5 LOmRAN的表达.结果模型组、药物组的0.3秒用力呼吸容积(Forcedexpiratoryvolumeinthe0.3second,FEV0.3)/用力肺活量(Forcedvitalcapacity,FVC)%较对照组显著下降(P<0.001),吸气相阻力(Inspiratoryphaseresistance,Ri)和呼气相阻力(expiratoryphaseresistance,Re)较对照组显著增加(P<0.001,P<0.05);模型组较药物组 FEV0.3/FVC%下降程度更低,Ri、Re更高,两组间差异有显著性(P<0.05).比较各组大鼠肺组织 LTB4水平,MPO活性及5 LOmRNA表达:模型组、药物组较对照组显著升高(P<0.001);与模型组比较,齐留通干预使得三项指标均有显著降低(P<0.001).结论 LTB4及5 LO参与 COPD的气道炎症过程.5 LOX抑制剂齐留通可部分抑制减少 COPD大鼠肺组织中 LTB4产生,其机制可能为抑制5 LO表达     

Extraadrenal adrenaline formation by two separate enzymes

Adrenaline (A) is synthesized in the adrenal medullae by the enzyme phenylethanolamine-N-methyltransferase (PNMT). After surgical removal of the adrenal medullae tissue A levels ranged from 22% of control in the heart to 125% of control in the liver. Use of a novel assay to measure tissue A formation revealed that many tissues can synthesize A using PNMT and another enzyme that N-methylates both noradrenaline and dopamine. These enzymes are non-neuronal, inducible and synthesize a major fraction of tissue and urine A.     

Effects of Freund's complete adjuvant on the dirunal rhythms of neuroendocrine processes and ornithine decarboxylase activity in various tissues of male rats

The aim of this study was to investigate the effects of Freund's complete adjuvant (FCA) on the diurnal rhythms of hormonal parameters in serum and ornithine decarboxylase (ODC) activity in various tissues of male rats. On days 1–2 after FCA, increase of ODC activity (used to evaluate the level of activation) was observed in the hypothalamus, pituitary gland, adrenal medulla, adrenal cortex, liver and lymphoid tissues, while the ODC activity in the kidney was reduced. This was accompanied by an increase in serum corticosterone. On days 3–4 after FCA, ODC activity remained elevated in the pituitary gland, liver and lymphoid tissues, while the ODC activity in the testes and panceas was reduced; kidney ODC activity returned to baseline. This was associated with increased serum levels of prolactin (Prl) and luteinizing hormone, but decreased growth hormone, testosterone and insulin. The increase in ODC activity in the thymus, as well as the reduced ODC activity in the testes and kidney, can be obtained with paraffin. Furthermore, bromocryptine microcapsules (CBLA) reduced the FCA-induced increase of ODC activity in the pituitary gland, liver and lymphoid tissues (days 3–4) but did not affect the changes in other tissues. The increase in ODC activity in the pituitary gland, liver and lymphoid tissues is specific for FCA. A role for Prl in the induction of ODC in liver and lymphoid tissues is suggested by the fact that CBLA suppresses this enhancement.     

The corticotropin-releasing factor (CRF) family of peptides as local modulators of adrenal function

Corticotropin-releasing factor (CRF), also termed corticotropin-releasing hormone (CRH) or corticoliberin, is the major regulator of the adaptive response to internal or external stresses. An essential component of the adaptation mechanism is the adrenal gland. CRF regulates adrenal function indirectly through the central nervous system (CNS) via the hypothalamic-pituitary-adrenal (HPA) axis and via the autonomic nervous system by way of locus coeruleus (LC) in the brain stem. Accumulating evidence suggests that CRF and its related peptides also affect the adrenals directly, i.e. not through the CNS but from within the adrenal gland where they form paracrine regulatory loops. Indeed, CRF and its related peptides, the urocortins (UCNs: UCN1, UCN2 and UCN3), their receptors CRF type 1 (CRF₁) and 2 (CRF₂) as well as the endogenous pseudo-receptor CRF-binding protein (CRF-BP) are all expressed in adrenal cortical, medullary chromaffin and resident immune cells. The intra-adrenal CRF-based regulatory system is complex and depends on the balance between the local concentration of CRF ligands and the availability of their receptors. Received 19 December 2006; received after revision 20 February 2007; accepted 26 March 2007     

Demonstration of high affinity binding of estradiol in adrenal cortex tissue]

Evidence is presented demonstrating the presence of a high affinity (Ka10(8)M-1), limited capacity (3-4 pmoles/mg protein) estradiol binder in the soluble fraction of the Bovine, Rat and Human adrenal cortex. The binding appears specific to the estrogen structure whereas C19 and C21 steroids do not bind. Upon sucrose density gradient centrifugation, the estradiol binder sedimented at 9 S at low ionic strength and was shifted to 4.5 S in the presence of 0.5 M KCl. This demonstration of a receptor-like moiety for estradiol in the adrenal cortex lends biochemical support to previous observations suggesting that adrenal cortex functions may be modulated by a direct effect of gonadal steroid hormones.     

Effects of photoperiod,temperature and testosterone-treatment on plasma T3 and T4 levels in the Djungarian hamster,Phodopus sungorus

Summary The effects of photoperiod, temperature and testosterone treatment on plasma T₃ and T₄ levels were investigated in the Djungarian hamster. Plasma T₃ level was affected by temperature (25°C<7°C) but not by photoperiod. Plasma T₄ level was affected by photoperiod (short day < long day) at 25°C. Administration of testosterone increased plasma T₄ level under short photoperiod at 25°C. Thus, higher plasma T₄ level under long photoperiod at 25°C might be induced by testosterone.     

Metabolism of C21 steroids by incubated adrenals of ACTH treated rats

Resumen En animales tratados crónicamente con ACTH se aumentan o activan los sistemas de la adrenal que catabolizan la corticosterona y los que hidroxilan en C²¹, a la vez que disminuye la cantidad de radioactividad incorporada a la 18 OH DOC. Esto indica que el ACTH in vivo tiene sobre la adrenal incubada una acción distinta, a veces opuesta, a la del ACTH exógeno agregado in vitro al principio de la incubación.

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This investigation was supported by U.S.P.H.S. grant No. 1-RO5-TWO0200-01.     

Glykogenbildung nach Thymektomie

Summary (1) No differences were found in the glycogen contents in liver, heart, and various other muscles between thymectomized and normal rats.(2) There are likewise no differences in glycogen synthesis in the diaphragm in the presence of glucose, alone and with insulin, between thymectomized and normal rats.(3) The weight of adrenal glands, absolute as well as in relation to the body-weight, shows no difference too between thymectomized and normal rats.     

Central IL-1 differentially regulates peripheral IL-6 and TNF synthesis

Centrally given interleukin (IL)-1 is known to induce a rapid rises in blood IL-6. To extend this and to examine the mechanism by which this occurs, the effects of intracerebroventricular (icv) injection of human recombinant IL-1β on mRNA expression of IL-6 and tumour necrosis factor (TNF) in the spleen and liver were examined in rats. Icv injection of IL-1 produced a rapid rise of the tissue mRNA levels of IL-6 and TNF in both organs, prior to and/or in parallel with an increase in their serum levels. Pretreatment with chlorisondamine, a ganglionic blocking agent, inhibited the IL-6 responses, while it had little influence on the TNF responses. The results suggest that brain IL-1 induces peripheral production of IL-6, but not of TNF, through autonomic nervous system activation. Received 27 October 1997; received after revision 15 December 1997; accepted 12 January 1998     

Pharmakologische Untersuchungen bei Thiaminmangel I. Änderungen des Katecholamingehalts im Gewebe

Summary (1) The increased tissue catecholamine level of the thiamine deficient rat was shown in the atrium, the ventricle, the brain cortex and in the spleen but not in the brain stem and the adrenal gland. (2) The increased response to tyramine of the thiamine deficient heart is most probably due to the high catecholamine level caused by thiamine deficiency. (3) The increased catecholamine content in the thiamine deficient rat does not result from the increased pyruvic acid.

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Herrn Professor Dr.F. Th. von Brücke zum 60. Geburtstag im Januar 1968 gewidmet.     

Effect of stress on choline acetyltransferase activity of the brain and the adrenal of the rat

Choline acetyltransferase (ChAT) activity was determined in cerebral cortex, hypothalamus, hippocampus, cerebellum, medulla oblongata, midbrain and adrenal gland of rats exposed to acute or chronic stress. The exposure of animals to acute immobilization and cold stress (4°C) for one hour resulted in a significant decline of ChAT activity in all brain regions examined except for the medulla oblongata. Moreover, the exposure to acute stress resulted in significant increase of the same enzyme in the adrenal gland. However, chronic exposure of animals to cold stress (4°C) for 7 days resulted in no significant changes of ChAT activity in all tissues examined except for a decline in the midbrain and an increase in the medulla oblongata. The administration of corticosterone (2.0 mg/kg) 1 h prior to sacrificing caused an effect similar to that of acute stress on ChAT activity in all brain regions except for the hypothalamus and the cerebellum. It was concluded from this experiment that stress-induced changes in the ChAT activity of specific brain regions might be mediated by the adrenal steroids.This work was supported by a grant from the National Aeronautics and Space Administration (NSG 2183 and NAG 2-411), a grant from the National Institutes of Health (NIH RR 0811) and a grant from the Division of Research Resources (NIH grant RR 03020).