Interneuronal organization in the flight system of the locust

In this paper we describe the characteristics, connections, resetting properties and organization of some identified interneurones in the flight system of the locust. The major conclusions are that: (1) the flight rhythm is generated at the interneuronal level and the flight oscillator is not continuously active (2) the interneurones in the flight pattern generator are distributed within at least 6 segmental ganglia (three thoracic and three fused abdominal ganglia) and are not organized into two homologous groups for the separate control of the forewing and the hindwing (3) this distribution of flight interneurones has no obvious functional significance but could be a consequence of flight having evolved from a segmentally distributed motor behaviour (4) there may be a functional hierarchy among flight interneurones such that premotor interneurones are separate from those generating the rhythm.     

Prosopis chilensis is a plant highly tolerant to heat shock

At temperatures between 25 and 35°C, 100% of Prosopis chilensis seeds germinated within 24 h. At higher temperatures, the germination rate was reduced; at 50°C, seeds did not germinate. After germination at 25°C, the optimal temperature for seedling growth was 35°C and the seedlings did not grow at a temperature of 50°C. However, when germination was at 35°C, the optimal temperature for seedling growth was 40°C and some seedlings grew at 50°C, suggesting that thermotolerance was induced during seed germination at 35°C. Further thermotolerance can be induced in seedlings germinated at 35°C, by exposing them to 40°C for 2h. Under these conditions, seedlings exhibited increased growth rate at 45 and 50°C. Fluorography of SDS-polyacrylamide gel electrophoresis of the proteins synthesized and accumulated during 2 h at temperatures of 35, 40, 45 and 50°C in the presence of [³⁵S]methionine revealed the expression of 11 proteins not detectable at 35°C. Most of the proteins present at 35°C also increased in expression. The temperature for maximal expression of these proteins was 45°C.     

Adaptation to heat of cardiomyoblasts in culture protects them against heat shock: role of nitric oxide and heat shock proteins

Dosed adaptation to environmental factors is an efficient non-drug means for increasing the resistance of organs or the body as a whole. We demonstrated earlier that nitric oxide (NO) plays an important role in adaptive defense of the organism, in particular due to activation of heat shock protein (HSP) synthesis. A key question remained open—to what extent the formation of adaptive defense depends on central mechanisms and to what extent on the intracellular mechanisms immediately responding to the adapting factor, and whether the NO-dependent activation of HSP synthesis plays a role in adaptation of isolated cells. In the present study we looked into the possibility of producing a protective effect of adaptation to heat in cell culture. A 6-day adaptation to heat limited to 17% the decrease in metabolic activity induced by heat shock in H9c2 cardiomyoblasts. The development of adaptation was associated with increased NO production. Treatment of cells with the inhibitor of NO synthase L-NNA (100 M) prevented the development of adaptive protection. Adaptation of cell culture enhanced synthesis of HSP70 but not HSP27. Blockade of HSP70 synthesis with quercetin (50 M) left unchanged the protective effect of adaptation. Inhibition of NO synthesis restricted the adaptation-induced HSP70 synthesis. Therefore, the formation of adaptation at the cell level may result from a direct action of an environmental factor without participation of neurohumoral factors. Such adaptation involves NO-dependent mechanisms divorced from the activation of HSP70 synthesis.     

Projected changes in elevational distribution and flight performance of montane Neotropical hummingbirds in response to climate change

The hovering flight of hummingbirds is one of the most energetically demanding forms of animal locomotion and is influenced by both atmospheric oxygen availability and air density. Montane Neotropical hummingbirds are expected to shift altitudinally upwards in response to climate change to track their ancestral climatic regime, which is predicted to influence their flight performance. In this study, we use the climate envelope approach to estimate upward elevational shifts for five Andean hummingbird species under two climate change scenarios. We then use field‐based data on hummingbird flight mechanics to estimate the resulting impact of climate change on aerodynamic performance in hovering flight. Our results show that in addition to significant habitat loss and fragmentation, projected upwards elevational shifts vary between 300 and 700 m, depending on climate change scenario and original mean elevation of the target species. Biomechanical analysis indicates that such upwards elevational shifts would yield a～2–5° increase in wing stroke amplitude with no substantial effect on wingbeat frequency. Overall, the physiological impact of elevational shifts of <1000 m in response to climate change is likely to be small relative to other factors such as habitat loss, changes in floristic composition, and increased interspecific competition.     

Small heat shock proteins and adaptation of various Drosophila species to hyperthermia

The dynamics and the level of accumulation of small heat shock proteins (sHSP group 21–27) after a heat exposure were studied in three Drosophila species differing in thermotolerance. The southern species Drosophila virilis, having the highest thermotolerance, surpassed thermosensitive D. lummei and D. melanogaster in the level of sHSPs throughout the temperature range tested. The results suggest an important role of sHSPs in the molecular mechanisms of adaptation to adverse environmental conditions, particularly to hyperthermia.     

热休克因子生理功能研究进展

热休克因子是调控真核细胞热休克基因转录的关键因子,在应激和正常生理条件下发挥重要作用,使其成为近年来的研究热点。该文简要综述热休克因子在抗炎反应、肿瘤发生与维持、生长发育、衰老等生理病理过程中的重要生理功能。     

Substrate utilization and flight speed during tethered flight in the locust

Mature laboratory locusts normally exhibit a characteristic pattern of change in flight speed with time. They fly at high speed for the first few minutes, during which carbohydrate forms the major fuel, but then slow to a cruising speed when lipid is used almost exclusively. Locusts flown for 30 min, rested for 2hr, and then reflown, exhibit an identical pattern of flight, even though they oxidise only half the amount of carbohydrate used in the first flight. The injection of adipokinetic hormone before the first flight elicits a low initial flight speed for 10 to 15 min but then the locusts accelerate to a constant higher speed. The injection of hormone before the second flight, when blood lipid levels are already high, reduces the utilization of carbohydrate by the flight muscles dramatically but results in constant high-speed flight.     

热激蛋白在昆虫生殖中的功能及作用机制

热激蛋白(Hsp)在生殖过程中有着至关重要的作用。近年来,Hsp在昆虫生殖相关功能与机制研究方面取得了重要进展。基于此,本文主要就Hsp在昆虫精子发生和精子保护、卵成熟和卵子保护、生殖应答以及衰老进化机制等方面的研究进展进行了综述,旨在为进一步深入研究Hsp与昆虫生殖的关系提供参考,并为害虫防治和益虫利用提供新思路。     

N-糖基化修饰对热休克蛋白gp96免疫学功能的影响

文中旨在以N-糖基化位点突变的重组热休克蛋白gp96为对象,研究N-糖基化修饰对其免疫功能的影响。首先利用昆虫表达系统表达野生型和突变型gp96蛋白,并检测其糖基化水平。进一步通过体外和体内实验,利用流式细胞术和酶联免疫吸附试验 (Enzyme linked immunosorbent assay,ELISA) 检测小鼠CD8+IFN-γ+ T细胞亚群和IFN-γ的分泌,查明糖基化对gp96抗原呈递功能的影响,进一步用ATPase试剂盒检测gp96的ATPase活性。最后通过小鼠免疫实验探究糖基化对gp96疫苗佐剂功能和活化流感疫苗特异性T细胞的影响。结果显示,N-糖基化修饰位点突变后,重组gp96蛋白总含糖量下降了27.8%。与野生型重组蛋白相比,突变gp96的抗原呈递能力减弱,同时ATPase活性明显降低。同时与野生型重组gp96相比,突变gp96佐剂活化流感疫苗特异性T细胞水平也明显减少。这些结果表明,N-糖基化修饰参与调节gp96的ATPase活性和抗原呈递功能,进而影响其疫苗佐剂功能,为开发基于gp96的佐剂疫苗提供了依据。     

Expression levels of heat shock factors are not functionally coupled to the rate of expression of heat shock genes

The expression patterns of two mammalian heat shock factors (HSFs) were analysed in cell systems known to reflect an altered heat shock response. For being able to discriminate between the two closely related factors HSF 1 and HSF 2, specific cDNA sequences were cloned and used to generate antisense RNAs as hybridization probes. In general, in various cell lines expression of the two heat shock factors was clearly different. These expression patterns of the HSF genes were not influenced by retinoic acid-induced differentiation of human NT2 and mouse F9 teratocarcinoma cells. Generally, HSF 2 expression was extremely low, whereas the significantly higher expression of HSF 1 revealed cell specific differences. The highest expression rates of both HSFs were observed in 293 cells. To examine whether these high levels are involved in the constitutive expression of heat shock genes in these cells, we analysed the binding pattern of 293 cell proteins to the heat shock elements (HSEs). As with other cells, HSE-binding activity in 293 cells was only observed after heat shock treatment. This points to an HSE-independent way for high level expression of heat shock genes in these cells.     

钙-钙调素信号系统参与热激信号转导的研究

根据作者实验室的研究工作结合国内外的研究动态讨论热激信号转导的Ca2 -CaM途径。作者实验室的工作表明,钙一钙调素(Ca^2 -CaM)信号系统参与植物热激信号转导。激光共聚焦扫描显微镜的观察结果表明,37℃热激可引起小麦胞内自由Ca。’浓度迅速提高。在Ca^2 存在条件下,热激也引起小麦CaM基因CaM1-2表达及CaM蛋白含量增加。Ca^2 可促进小麦热激基因hsp26和mp70表达和热激蛋白合成,而Ca^2 螯合剂EGTA、Ca^2 通道阻断剂异搏定和LaCl3、CaM抑制剂W7、TFP和CPZ明显降低热激基因hsp26和mp70表达和热激蛋白合成。EGTA、异搏定、TFP或CPZ也阻止小麦耐热性的获得。小麦CaM基因与热激基因的表达动力学研究表明CaM位于热激信号转导的上游,而Ca^2 是启动热激反应的胞内关键因子。凝胶阻滞分析的结果表明,Ca^2 -CaM在热激信号转导中的作用是通过激活热激转录因子的DNA结合活性来实现的。根据大量实验证据,作者提出在植物细胞内存在一条新的热激信号转导途径——钙一钙调素途径。     

Differential responses of bovine oocytes and preimplantation embryos to heat shock

The authors sought to determine whether developmental differences in the magnitude of embryonic mortality caused by heat stress in vivo are caused by changes in resistance of embryos to elevated temperature. In this regard, responses of oocytes, two-cell embryos, four- to eight-cell embryos, and compacted morulae to heat shock were compared. An additional goal was to define further the role of cumulus cells and glutathione in thermoprotection of oocytes. In experiment 1, heat shock (41°C for 12 hr) decreased the number of embryos developing to the blastocyst stage for two-cell (26% vs. 0%) and four- to eight-cell (25% vs. 10%) embryos but did not affect morulae (37% vs. 42%). In experiment 2, exposure of two-cell embryos to 41°C for 12 hr reduced the number of four- to eight-cell embryos present 24 hr after the end of heat shock (88% vs. 62%). In experiment 3, heat shock reduced the number of two-cell embryos developing to blastocyst (49% vs. 8%) but did not affect subsequent development of oocytes when heat shock occurred during the first 12 hr of maturation (46% vs. 41% development to blastocyst); membrane integrity was not altered. In experiment 4, oocytes were cultured with an inhibitor of glutathione synthesis, _DL-buthionine-[S,R]-sulfoximine (BSO), for 24 hr and exposed to 41°C for the first 12 hr of maturation. Percentages of blastocysts were 35% (39°C), 18% (41°C), 17% (39°C+BSO), and 11% (41°C+BSO). For experiment 5, oocytes were either denuded or left with cumulus intact and were then radiolabeled with [³⁵S]methionine and [³⁵S]cysteine at 39°C or 41°C for 12 hr. Exposure of oocytes to 41°C for 12 hr reduced overall synthesis of ³⁵S-labeled TCA-precipitable intracellular proteins (18,160 vs. 14,594 dpm/oocyte), whereas presence of cumulus increased synthesis (9,509 vs. 23,246). Analysis by two-dimensional SDS PAGE and fluorography revealed that heat shock protein 68 (HSP68) and two other putative heat shock proteins, P71 and P70, were synthesized by all oocytes regardless of treatment. Heat shock did not alter the synthesis of HSP68 or P71 but decreased amounts of newly synthesized P70. Cumulus cells increased synthesis of P71 and P70. Results indicate there is a biphasic change in resistance to elevations in temperature as oocytes mature, become fertilized, and develop. Resistance declines from the oocyte to the two-cell stage and then increases. Evidence suggests a role for cumulus cells in increasing HSP70 molecules and protein synthesis. Data also indicate a role for glutathione in oocyte function. Mol Reprod Dev 46:138–145, 1997. © 1997 Wiley-Liss, Inc.