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1.
Grzegorz Rosiński Ignacy Korczyński Małgorzata Słocińska Robert Kuźmiński 《Insect Science》2011,18(2):160-165
Abstract The peptides proctolin, crustacean cardioactive peptide (CCAP) and FMRFamide, which are known to modulate insect muscle contractions, were assayed for their action on oviduct contractions in Hylobius abietis. A video microscopy technique and computer‐based method of data acquisition and analysis were used to investigate the effects of theses peptides on spontaneous contractions of continuously perfused oviducts. All three peptides tested stimulate spontaneous contraction activity of the pine weevil oviduct, increasing the frequency and amplitude of phasic contractions in a dose‐dependent manner. Proctolin is more potent as a stimulator than CCAP. For proctolin a threshold response of oviduct muscles is at concentration of peptide 10?11–10?10 mol/L and for CCAP at concentration range 10?10–10?9 mol/L. FMRFamide exerts a weak stimulatory effect on the oviduct, and at higher concentrations of the peptide (above 10?8 mol/L). The peptides exert different responses on oviduct contractions and they may play a role as functional regulators in such processes as egg movement and oviposition. 相似文献
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Xiaolan Zhang Gerard P. McNeil Marla J. Hilderbrand‐Chae Tina M. Franklin Andrew J. Schroeder F. Rob Jackson 《Developmental neurobiology》2000,45(1):14-29
Molecular genetic analysis indicates that rhythmic changes in the abundance of the Drosophila lark RNA‐binding protein are important for circadian regulation of adult eclosion (the emergence or ecdysis of the adult from the pupal case). To define the tissues and cell types that might be important for lark function, we have characterized the spatial and developmental patterns of lark protein expression. Using immunocytochemical or protein blotting methods, lark can be detected in late embryos and throughout postembryonic development, from the third instar larval stage to adulthood. At the late pupal (pharate adult) stage, lark protein has a broad pattern of tissue expression, which includes two groups of crustacean cardioactive peptide (CCAP)‐containing neurons within the ventral nervous system. In other insects, the homologous neurons have been implicated in the physiological regulation of ecdysis. Whereas lark has a nuclear distribution in most cell types, it is present in the cytoplasm of the CCAP neurons and certain other cells, which suggests that the protein might execute two different RNA‐binding functions. Lark protein exhibits significant circadian changes in abundance in at least one group of CCAP neurons, with abundance being lowest during the night, several hours prior to the time of adult ecdysis. Such a temporal profile is consistent with genetic evidence indicating that the protein serves a repressor function in mediating the clock regulation of adult ecdysis. In contrast, we did not observe circadian changes in CCAP neuropeptide abundance in late pupae, although CCAP amounts were decreased in newly‐emerged adults, presumably because the peptide is released at the time of ecdysis. Given the cytoplasmic localization of the lark RNA‐binding protein within CCAP neurons, and the known role of CCAP in the control of ecdysis, we suggest that changes in lark abundance may regulate the translation of a factor important for CCAP release or CCAP cell excitability. © 2000 John Wiley & Sons, Inc. J Neurobiol 45: 14–29, 2000 相似文献
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Heather G. Marco Ottilie K. H. Katali Gerd Gäde 《Archives of insect biochemistry and physiology》2018,98(4)
The dorsal heart of the Indian stick insect, Carausius morosus, is responsible for the anterograde flow of hemolymph to the aorta and into the body cavity. The contraction frequency of the insect heart is known to be influenced by several substances of neural source. Here, a semi‐exposed heart assay was employed to study the effect of an aminergic substance (octopamine) and three neuropeptides (C. morosus hypertrehalosemic hormone [Carmo‐HrTH], crustacean cardioactive peptide [CCAP], and proctolin) on heart contraction. The contraction frequency was measured as beats per minute in adults ligated between the head and the prothorax. All three investigated neuropeptides had a stimulatory effect on heart contraction that lasted approximately 6 min, after which the normal heart beat rate was restored. Proctolin and CCAP stimulated the rate of heart beat also in unligated stick insects, whereas Carmo‐HrTH was active only in ligated insects. The latter could suggest that when the stick insect is not ligated, a competing substance may be released from the head of C. morosus; the competing substance is, apparently, not physiologically active but it binds or blocks access to the receptor of Carmo‐HrTH‐II, thereby rendering the HrTH peptide “not active.” In ligated stick insects, 6.7 × 10?8 M Carmo‐HrTH‐II significantly increased the heart beat rate; higher doses resulted in no further increase, suggesting the saturation of the HrTH receptor. Octopamine inhibited the rate at which the heart contracted in a dose‐dependent manner; inhibition was achieved with 10?4 M of octopamine. 相似文献
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Changes in the frequency of cardiac pulsations have been monitored in the decapitated body of adult P. americana before and 5 h after the injections of [Arg(7)]-corazonin and CCAP, using newly invented touch-free, noninvasive optocardiographic methods. Relatively large dosages of these peptides (10(-6) M concentrations in the body) had no effect on the rate of the heartbeat beyond the Ringer control limits. It has been concluded, therefore, that Corazonin and CCAP, which are currently cited in the literature as \"the most potent cardiostimulating peptides\" in insects, have no effect on the physiological regulation of cardiac functions in the living body. 相似文献
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Vermassen E Parys JB Mauger JP 《Biology of the cell / under the auspices of the European Cell Biology Organization》2004,96(1):3-17
The inositol 1,4,5-trisphosphate receptor (IP3R) is an intracellular Ca2+ channel that is for the largest part expressed in the endoplasmic reticulum. Its precise subcellular localization is an important factor for the correct initiation and propagation of Ca2+ signals. The relative position of the IP3Rs, and thus of the IP3-sensitive Ca2+ stores, to mitochondria, nucleus or plasma membrane determines in many cases the physiological consequences of IP3-induced Ca2+ release. Most cell types express more than one IP3R isoform and their subcellular distribution is cell-type dependent. Moreover, it was recently demonstrated that depending on the physiological status of the cell redistribution of IP3Rs and/or of IP3-sensitive Ca2+ stores could occur. This indicates that the cell must be able to regulate not only IP3R expression but also its distribution. The various proteins potentially determining IP3R localization and redistribution will therefore be discussed. 相似文献
8.
钙指示剂常被用于细胞及细胞器钙信号的检测,是钙信号转导研究中必不可少的工具.目前的钙指示剂分两大类,包括化学钙指示剂,如Fura-2、Indo-1、Fluo-4等,和基因编码的钙指示蛋白如D1ER、GCaMP、CEPIAler等.随着技术的发展及研究需求的不断提升,各版本的钙指示剂也在不断更新.本文对已有的钙指示剂进行... 相似文献
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Summary The aggregation, leakage, and fusion of pure PS (phosphatidylserine) and mixed PS/PC (phosphatidylcholine) sonicated vesicles were studied by light scattering, the release of encapsulated carboxyfluorescein, and a new fusion assay which monitors the mixing of the internal compartments of fusing vesicles. On a time scale of 1 min the extent of fusion was considerably greater than leakage. The Ca2+ and Mg2+ concentrations required to induce fusion increased when the PS content of the vesicles was decreased, and/or when the NaCl concentration was increased.Calculations employing a modified Gouy-Chapman equation and experimentally determined intrinsic binding constants of Na+ and Ca2+ to PS were shown to predict correctly the amount of Ca2+ bound in mixed PS/PC vesicles. For vesicles composed of either pure PS or of mixtures with PC in 100mM NaCl (41 and 21 PS/PC); the induction of fusion (on a time scale of minutes) occurred when the amount of Ca or Mg bound/PS molecule exceeded 0.35–0.39. The induction of fusion for both pure PS and PS/PC mixed vesicles (with PS exceeding 50%) can be explained by assuming that destabilization of these vesicles requires a critical binding ratio of divalent cations to PS. 相似文献
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Arturo Hernández-Cruz Ariel L. Escobar Nicolás Jiménez 《The Journal of general physiology》1997,109(2):147-167
The role of ryanodine-sensitive intracellular Ca2+ stores present in nonmuscular cells is not yet completely understood. Here we examine the physiological parameters determining the dynamics of caffeine-inducedCa2+ release in individual fura-2–loaded sympathetic neurons. Two ryanodine-sensitive release components weredistinguished: an early, transient release (TR) and a delayed, persistent release (PR). The TR component showsrefractoriness, depends on the filling status of the store, and requires caffeine concentrations ≥10 mM. Furthermore, it is selectively suppressed by tetracaine and intracellular BAPTA, which interfere with Ca2+-mediated feedback loops, suggesting that it constitutes a Ca2+-induced Ca2+-release phenomenon. The dynamics of release ismarkedly affected when Sr2+ substitutes for Ca2+, indicating that Sr2+ release may operate with lower feedbackgain than Ca2+ release. Our data indicate that when the initial release occurs at an adequately fast rate, Ca2+ triggers further release, producing a regenerative response, which is interrupted by depletion of releasable Ca2+ andCa2+-dependent inactivation. A compartmentalized linear diffusion model can reproduce caffeine responses:When the Ca2+ reservoir is full, the rapid initial Ca2+ rise determines a faster occupation of the ryanodine receptor Ca2+ activation site giving rise to a regenerative release. With the store only partially loaded, the slower initialCa2+ rise allows the inactivating site of the release channel to become occupied nearly as quickly as the activatingsite, thereby suppressing the initial fast release. The PR component is less dependent on the store''s Ca2+ content.This study suggests that transmembrane Ca2+ influx in rat sympathetic neurons does not evoke widespread amplification by CICR because of its inability to raise [Ca2+] near the Ca2+ release channels sufficiently fast to overcometheir Ca2+-dependent inactivation. Conversely, caffeine-induced Ca2+ release can undergo considerable amplification especially when Ca2+ stores are full. We propose that the primary function of ryanodine-sensitive stores inneurons and perhaps in other nonmuscular cells, is to emphasize subcellular Ca2+ gradients resulting from agonist-induced intracellular release. The amplification gain is dependent both on the agonist concentration and onthe filling status of intracellular Ca2+ stores. 相似文献
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J. Stangier C. Hilbich R. Keller 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》1989,159(1):5-11
Summary Using a radioimmunoassay developed for the determination of crustacean cardioactive peptide (CCAP), immunoreactive material was detected in extracts of locust nervous tissue. Serial dilutions of a brain extract gave a displacement curve parallel to the CCAP standard curve. One locust nervous system was calculated to contain approximately 1.4 pmol CCAP-like material.In order to investigate whether the immunoreactive substance was similar or identical to the crustacean neuropeptide, isolation and complete characterization was carried out using 800 locust nervous systems. The isolation procedure consisted of pre-purification of the crude extract on a Sep-Pak cartridge, affinity chromatography on a column which was prepared by coupling of anti-CCAP antibody to CNBr-activated Sepharose, and reversed phase high performance liquid chromatography (HPLC). In the HPLC-profile immunoreactivity was confined to a single peak which co-chromatographed with authentic CCAP. The peptide was carboxymethylated and analyzed in an automated gas-phase sequencer. Its amino acid sequence, is identical to that of CCAP fromCarcinus maenas.Synthetic CCAP was tested on the isolated locust hindgut in vitro. The peptide proved to be a potent enhancer of gut contractions, with a significant effect being observable at concentrations of 10–10
M. It is concluded that in the locust CCAP may function as a myotropic peptide. 相似文献
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Abstract. This review deals with those neuropeptidic hormones that are completely known in their primary structure together with the control processes that are linked directly or indirectly to development and reproduction. Actions are assessed for neuropeptides that regulate ecdysteroid and Juvenile Hormone production; oocyte growth or yolk deposition; and ecdysis and courtship behaviour. The combined data on the primary sequence, gene expression, biosynthesis, release, interaction with the receptor and mode of action provide an accurate account of the current knowledge on how these peptides function. 相似文献
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C.J.H. Elliott 《Journal of insect physiology》1981,27(10):695-704
(1) At the imaginal ecdysis of Schistocerca, the cuticle is viscoelastic rather than elastic. (2) The cuticle becomes softer just before emergence. It is suggested that this is due to an ‘eclosion hormone’. The softening permits the extrication of the appendages and an increase in the size of the locust. (3) The stiffness of the cuticle increases transiently at the end of emergence. (4) In the later part of wing expansion, the cuticle becomes elastic and its stiffness again increases. (5) Maximum pressures are recorded about 10 min into emergence, and pressures in the gut are greater than those in the tracheal system. (6) From these results it is concluded that the expansion of the wings initially depends on the high haemolymph pressure and low stiffness. Only in the last 15 min of wing expansion do the processes involved in autonomous expansion become important. 相似文献
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我们实验室以前发现,视网膜视锥与亮度型水平细胞(luminosity—type horizontal cell,LHC)之间的突触传递效率具有可塑性。重复性刺激红敏视锥增加了LHC对红光的超极化反应幅度,而且这种增强作用是可逆的。在本文中,我们运用细胞内记录技术和药理学分析的方法来考察重复性红光刺激引起的反应增强的可能机制。当通过胞内注射Ca^2+的螯合剂EGTA来降低LHC内的Ca^2+浓度后,重复性红光引起的反应增强被抑制,提示突触后钙信号是反应增强的一个重要因素。另外,反应增强现象还可以被钙离子通透的AMPA受体(Ca^2+-permeable AMPA receptor,CP-AMPAR)的拈抗剂阻断,说明通过钙离子通透的谷氨酸受体内流的Ca^2+与胞内Ca^2+浓度的改变有关。进一步发现,胞外灌流ryanodine或caffeine也可以消除反应增强现象,说明由钙诱导的钙释放(calcium—induced calcium release,CICR)引起的钙信号可能也参与了反应增强现象的产生。结果提示,CICR和CP—AMPAR与重复性红光刺激引起的LHC对红光的反应增强有关。 相似文献
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Calcium ions play critical roles in neuronal differentiation. We have recorded transient, repeated elevations of calcium in embryonic Xenopus spinal neurons over periods of 1 h in vitro and in vivo, confocally imaging fluo 3-loaded cells at 5 s intervals. Calcium spikes and calcium waves are found both in neurons in culture and in the intact spinal cord. Spikes rise rapidly to approximately 400% of baseline fluorescence and have a double exponential decay, whereas waves rise slowly to approximately 200% of baseline fluorescence and decay slowly as well. Imaging of fura 2-loaded neurons indicates that intracellular calcium increases from 50 to 500 nM during spikes. Both spikes and waves are abolished by removal of extracellular calcium. Developmentally, the incidence and frequency of spikes decrease, whereas the incidence and frequency of waves are constant. Spikes are generated by spontaneous calcium-dependent action potentials and also utilize intracellular calcium stores. Waves are produced by a mechanism that does not involve classic voltage-dependent calcium channels. Spikes are required for expression of the transmitter GABA and for potassium channel modulation. Waves in growth cones are likely to regulate neurite extension. The results demonstrate the roles of a novel signaling system in regulating neuronal plasticity, that operates on a time scale 104 times slower than that of action potentials. © 1995 John Wiley & Sons, Inc. 相似文献
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Mitochondria have long been known to sequester cytosolic Ca2+ and even to shape intracellular patterns of endoplasmic reticulum-based Ca2+ signaling. Evidence suggests that the mitochondrial network is an excitable medium which can demonstrate independent Ca2+ induced Ca2+ release via the mitochondrial permeability transition. The role of this excitability remains unclear, but mitochondrial Ca2+ handling appears to be a crucial element in diverse diseases as diabetes, neurodegeneration and cardiac dysfunction that also have bioenergetic components. In this paper, we extend the modular Magnus-Keizer computational model for respiration-driven Ca2+ handling to include a permeability transition based on a channel-like pore mechanism. We demonstrate both excitability and Ca2+ wave propagation accompanied by depolarizations qualitatively similar to those reported in cell and isolated mitochondria preparations. These waves depend on the energy state of the mitochondria, as well as other elements of mitochondrial physiology. Our results support the concept that mitochondria can transmit state dependent signals about their function across the mitochondrial network. Our model provides the tools for predictions about the internal physiology that leads to this qualitatively different Ca2+ excitability seen in mitochondria. 相似文献
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Abdülhadi Cihangir Uğuz Ahmi Öz Mustafa Nazıroğlu 《Journal of receptor and signal transduction research》2016,36(4):395-401
Neurological diseases such as Alzheimer’s and Parkinson’s diseases are incurable progressive neurological disorders caused by the degeneration of neuronal cells and characterized by motor and non-motor symptoms. Curcumin, a turmeric product, is an anti-inflammatory agent and an effective reactive oxygen and nitrogen species scavenging molecule. Hydrogen peroxide (H2O2) is the main source of oxidative stress, which is claimed to be the major source of neurological disorders. Hence, in this study we aimed to investigate the effect of curcumin on Ca2+ signaling, oxidative stress parameters, mitochondrial depolarization levels and caspase-3 and -9 activities that are induced by the H2O2 model of oxidative stress in SH-SY5Y neuronal cells. SH-SY5Y neuronal cells were divided into four groups namely, the control, curcumin, H2O2, and curcumin?+?H2O2 groups. The dose and duration of curcumin and H2O2 were determined from published data. The cells in the curcumin, H2O2, and curcumin?+?H2O2 groups were incubated for 24?h with 5?µM curcumin and 100?µM H2O2. Lipid peroxidation and cytosolic free Ca2+ concentrations were higher in the H2O2 group than in the control group; however, their levels were lower in the curcumin and curcumin?+?H2O2 groups than in the H2O2 group alone. Reduced glutathione (GSH) and glutathione peroxidase (GSH-Px) values were lower in the H2O2 group although they were higher in the curcumin and curcumin?+?H2O2 groups than in the H2O2 group. Caspase-3 activity was lower in the curcumin group than in the H2O2 group. In conclusion, curcumin strongly induced modulator effects on oxidative stress, intracellular Ca2+ levels, and the caspase-3 and -9 values in an experimental oxidative stress model in SH-SY5Y cells. 相似文献
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Richard I. Samuels Stuart E. Reynolds 《Archives of insect biochemistry and physiology》1993,24(1):33-44
Developmental profiles for a number of molting fluid (MF) enzyme activities were established and related to the progress of pupal cuticle degradation during the four days that precede the eclosion of adult tobacco hornworms. Cuticle degrading activity, molting fluid protease 1 (MFP-1), and molting fluid protease 2 (MFP-2) all increased in activity at the time that loss of material from the old cuticle occurred. In contrast, chitinase and β-acetylglucosaminidase activities did not parallel weight loss from the old cuticle. These results are consistent with the hypothesis that proteolytic activity is a prerequisite for the action of chitinase on cuticle chitin. © 1993 Wiley-Liss, Inc. 相似文献
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The present work focuses on the moult cycle of Armadillo officinalis. For a 100‐day period, 134 animals were observed and routinely examined with the aim of detecting distinctive morphological characters in the several stages and substages of the moult cycle and of disclosing their duration. Statistical tests and Poisson regression models with robust standard errors were used to investigate differences and relationships between moult and the size and gender of the animals. The appearance of the calcium carbonate deposits on the pereon sternites during the premoult stage was documented in detail, and three main substages were identified. The average duration of the premoult and of the biphasic ecdysis was about 12 and 1.5 days, respectively. This observation period, however, did not allow to establish a determined average duration of the intermoult stage, which was extremely variable. This stage lasted for 2 months or more in most of the cases observed, but about 1‐month‐long intermoult stages were also recorded. No statistically significant association was found between the number of moults and gender and size of the animals. 相似文献