mTOR regulates the nucleoplasmic diffusion of Xrn2 under conditions of heat stress

Stress induces various responses, including translational suppression and tRNA degradation in mammals. Previously, we showed that heat stress induces degradation of initiator tRNA^Met (iMet) through 5′–3′ exoribonuclease Xrn1 and Xrn2, respectively. In addition, we found that rapamycin inhibits the degradation of iMet under heat stress conditions. Here, we report that the mammalian target of rapamycin (mTOR) regulates the diffusion of Xrn2 from the nucleolus to the nucleoplasm, facilitating the degradation of iMet under conditions of heat stress. Our results suggest a mechanism of translational suppression through mTOR-regulated iMet degradation in mammalian cells.     

tRNA cleavage is a conserved response to oxidative stress in eukaryotes

Recent results have identified a diversity of small RNAs in a wide range of organisms. In this work, we demonstrate that Saccharomyces cerevisiae contains a small RNA population consisting primarily of tRNA halves and rRNA fragments. Both 5′ and 3′ fragments of tRNAs are detectable by Northern blot analysis, suggesting a process of endonucleolytic cleavage. tRNA and rRNA fragment production in yeast is most pronounced during oxidative stress conditions, especially during entry into stationary phase. Similar tRNA fragments are also observed in human cell lines and in plants during oxidative stress. These results demonstrate that tRNA cleavage is a conserved aspect of the response to oxidative stress.     

C-fos expression in rat brain during heat stress

Rats, under urethane anesthesia, 0, 20, 40 or 80 min after the start of heat stress (42°C) were sacrificed for determination of c-fos expression in different brain regions. In situ hybridization and immunocytochemistry methods were used, respectively, for determination of c-fos mRNA and protein, respectively. In general, either colon temperature (T_CO), mean arterial pressure (MAP), local cerebral blood flow (CBF) or c-fos expression in different brain regions (including the preoptic area, supraoptic nuclei, paraventricular nuclei, thalamus, amygdala, nucleus tract solitarii, area postrema and ventrolateral medulla) increased at 20–40 min after the start of heat exposure. However, the heatstroke, which appears as profound decreases in both MAP and local CBF and increases in T_CO, was produced 80 min after heat stress. The c-fos expression was heavily induced in all these brain regions after the onset of heatstroke. The data suggest that c-fos expression in rat brain during heatstroke is associated with hyperthermia, arterial hypotension or cerebral ischemia.     

戊糖片球菌热胁迫应答机制探究

目的 以发酵柚子皮中分离到的戊糖片球菌WPPE03、WPPE04作为研究对象,用标准株CGMCC1.2695作为对照,探索其热胁迫相关机制。方法 通过平板计数法,确定戊糖片球菌的热适应条件和热致死条件;采用扫描电子显微镜观察细胞热应激前后形态学变化;应用RT-qPCR分析热休克蛋白及细胞膜脂肪酸合成相关基因转录水平变化,阐明热胁迫机制。结果 确定了三株戊糖片球菌热适应条件（47℃,60 min）和热致死评价条件（62℃,15 min）;发现了热致死条件处理菌体,膜表面会出现凹陷、皱褶,部分菌体出现破裂、胞内物质外溢等现象,而热致死条件处理前先经过热适应处理,菌体破裂现象明显减少;同时,证明了热应激处理过程中,相关热休克蛋白基因表达显著上调（P<0.05）,脂肪酸合成相关基因表达发生了变化。结论 研究戊糖片球菌的热应答相关机制,可为合理开发、利用具有发酵性能的戊糖片球菌提供借鉴。     

Role of liposome on recognition and folding of oxidized and fragmented superoxide dismutase for its re-activation

The behaviors of adsorption and folding of oxidized superoxide dismutase (SOD) fragment on the liposome surface have been studied by varying the type of liposomes. The recognition of the SOD fragment by the liposome was found to be performed, depending on the membrane fluidity, surface charge density and, also, instability of the hydrogen bonds of the liposome surface. The conformational change of the SOD fragment on the liposome membrane was dependent on its adsorption although the variation of their secondary structures was observed. The SOD LIPOzyme (liposome with enzyme-like activity) with high SOD-like activity was obtained by the appropriate control of the recognition and folding of SOD fragment through the suitably-regulated interactions between the liposome and the peptide.     

"Heat shock lipid" in cyanobacteria during heat/light-acclimation

Parallel with the heat/light-induced thylakoid microdomain reorganization and thermal stabilization of photosynthesis we observed an increase in the level of the highly saturated monoglucosyldiacylglycerol (MGlcDG) in Synechocystis cells. The unusually high microviscosity obtained in thylakoid MGlcDG liposomes by monitoring DPH anisotropy was in good agreement with its exceptionally high acyl chain saturation. The MGlcDG membranes remained stable even at extreme high temperatures. Strikingly, in monolayer experiments, out of the five thylakoid polar lipids tested, MGlcDG expressed the strongest interaction with the thylakoid-stabilizing small Hsp from Synechocystis, Hsp17. The preferential interaction of Hsp17 with non-bilayer phase forming lipids supports our notion that sHsps counteract the formation of thermally induced local non-bilayer structures [Proc. Natl. Acad. Sci. USA 99 (2002) 13504] and thus implicated in microdomain organization and in the preservation of functional integrity of thylakoid membranes challenged by heat stress in the light. We also suggest that the highly saturated MGlcDG functions as a "heat shock lipid" and is of potential importance in the development of acquired thermotolerance of heat/light-primed cyanobacterial thylakoids.     

An overview of heat stress in tomato (Solanum lycopersicum L.)

Heat stress has been defined as the rise of temperature for a period of time higher than a threshold level, thereby permanently affecting the plant growth and development. Day or night temperature is considered as the major limiting factor for plant growth. Earlier studies reported that night temperature is an important factor in the heat reaction of the plants. Tomato cultivars capable of setting viable fruits under night temperatures above 21 °C are considered as heat-tolerant cultivars. The development of breeding objectives is generally summarized in four points: (a) cultivars with higher yield, (b) disease resistant varieties in the 1970s, (c) long shelf-life in 1980s, and (d) nutritive and taste quality during 1990s. Some unique varieties like the dwarf “Micro-Tom”, and the first transgenic tomato (FlavrSavr) were developed through breeding; they were distributed late in the 1980s.High temperature significantly affects seed, pollen viability and root expansion. Researchers have employed different parameters to evaluate the tolerance to heat stress, including membrane thermo stability, floral characteristics (Stigma exertion and antheridia cone splitting), flower number, and fruit yield per plant. Reports on pollen viability and fruit set/plant under heat stress by comparing the pollen growth and tube development in heat-treated and non-heat-stressed conditions are available in literature. The electrical conductivity (EC) have been used to evaluate the tolerance of some tomato cultivars in vitro under heat stress conditions as an indication of cell damage due to electrolyte leakage; they classified the cultivars into three groups: (a) heat tolerant, (b) moderately heat tolerant, and (c) heat sensitive.It is important to determine the range in genetic diversity for heat tolerance in tomatoes. Heat stress experiments under field conditions offer breeders information to identify the potentially heat tolerant germplasm.     

Heat adaptation from regular hot water immersion decreases proinflammatory responses,HSP70 expression,and physical heat stress

Hot-water immersion (HWI) is a type of thermal therapy for treating various diseases. In our study, the physiological responses to occasional and regular HWI have been explored. The rats were divided into a control group, occasional group (1D), and regular group (7D). The 1D and 7D groups received 42 °C during 15 mins HWI for 1 and 7 days, respectively. The blood samples were collected for proinflammatory cytokines examinations, the heart, liver and kidney were excised for subsequent IHC analysis to measure the level of heat shock protein 70 (HSP70). The results revealed that the body temperature increased significantly during HWI on Day 3 and significantly declined on Days 6 and 7. For the 7D group, body weight, heart rate, hematocrit, platelet, osmolarity, and lactate level were lower than those in the 1D group. Furthermore, the levels of granulocyte counts, tumor necrosis factor-α, and interleukin-6 were lower in the 7D group than in the 1D group. The induction of HSP70 in the 1D group was higher than in the other groups. Physiological responses to occasional HWI are disadvantageous because of heat stress. However, adaptation to heat from regular HWI resulted in decreased proinflammatory responses and physical heat stress.     

Antioxidant responses of the pest natural enemy Hylyphantes graminicola (Araneae: Linyphiidae) exposed to short-term heat stress

Temperature is a critical abiotic factor that causes physiological changes in arthropods. However, little is known about the effect of heat stress on the antioxidant responses of Araneae species. Hylyphantes graminicola is a dominant predator in many cropping systems in China. In the present study, the effect of short-term heat stress (36, 38, 40 or 42 °C) on the reactive oxygen species (ROS) levels, the activities of antioxidant enzymes (superoxide dismutase [SOD], catalase [CAT], peroxidases [POD] and glutathione-S-transferases GST]), total antioxidant capacity (TAC), malondialdehyde (MDA) concentrations and survival of H. graminicola spiderlings and adults were investigated. The results showed that H. graminicola adults had a significantly higher survival rate compared to spiderlings at 40 °C. The heat stress increased ROS contents in H. graminicola. The SOD, CAT, POD and GST activities increased in spiderlings and adults under heat stress. These data suggest a defensive function for these enzymes in alleviating oxidative damage. Specifically, SOD plays a key role in reducing the high level of superoxide radicals in spiderlings and adults. Moreover, the POD and CAT capabilities for scavenging H₂O₂ in spiderlings were similar, and CAT may play a more important role than POD in scavenging H₂O₂ in adults at 42 °C. The spiderling TAC increased significantly at 40 and 42 °C, and the adult TAC was stable at 36–40 °C but decreased at 42 °C. These data suggest that TAC was insufficient in H. graminicola adults under more severe stress conditions. These results further our understanding of the physiological response of Araneae species exposed to heat stress.     

tRNA核苷修饰与细胞胁迫应答

细胞的生长和功能发挥需要特定的内部条件。当外界条件发生变化时,细胞要想保持这种特定的内部环境,需要许多过程的参与,其中最重要的一个部分是RNA代谢调节,其通常涉及一般翻译水平的下降和应激反应,以有利基因翻译的增加。tRNA是翻译机制的一个基本组成部分,在蛋白质合成过程中,它将氨基酸传递给核糖体。tRNA的显著特征之一是高度修饰,这些修饰有大量用途,包括确保翻译的准确性和高效性、维持tRNA折叠或稳定性等。细胞在逆境胁迫条件下,tRNA修饰水平会发生显著变化,并通过不同的途径影响细胞的翻译。本文阐述了tRNA核苷修饰与细胞胁迫之间的相互关系,描述了tRNA修饰响应胁迫应答的可能机制。     

Oxidative Stress Triggers Selective tRNA Retrograde Transport in Human Cells during the Integrated Stress Response

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Thermoregulatory stress during rest and exercise in heat in patients with a spinal cord injury

Twelve subjects with spinal cord injuries and four controls (all male) were exposed to heat while sitting at rest or working at each of three environmental temperatures, 30, 35 and 40 degrees C, with a relative humidity of 50%. Exercise was accomplished at a load of 50 W on a friction-braked cycle ergometer which was armcranked or pedalled. Functional electrical stimulation of the legs was provided to the subjects with quadriplegia and paraplegia to allow them to pedal a cycle ergometer. The data showed that individuals with quadriplegia had the poorest tolerance for heat. As an example, in this group, accomplishing armcrank ergometry while working at an environmental temperature of 40 degrees C resulted in an increase in aural temperature of 2 degrees C in 30 min. The aural temperature of individuals with paraplegia working for the same length of time under the same conditions rose approximately 1 degree C. There was virtually no change in the aural temperature in the control subjects.     

Effect of heat stress on muscle blood flow during dynamic handgrip exercise

During exercise in a hot environment, blood flow in the exercising muscles may be reduced in favour of the cutaneous circulation. The aim of our study was to examine whether an acute heat exposure (65-70 degrees C) in sauna conditions reduces the blood flow in forearm muscles during handgrip exercise in comparison to tests at thermoneutrality (25 degrees C). Nine healthy men performed dynamic handgrip exercise of the right hand by rhythmically squeezing a water-filled rubber tube at 13% (light), and at 34% (moderate) of maximal voluntary contraction. The left arm served as a control. The muscle blood flow was estimated as the difference in plethysmographic blood flow between the exercising and the control forearm. Skin blood flow was estimated by laser Doppler flowmetry in both forearms. Oesophageal temperature averaged 36.92 (SEM 0.08) degrees C at thermoneutrality, and 37.74 (SEM 0.07) degrees C (P less than 0.01) at the end of the heat stress. The corresponding values for heart rate were 58 (SEM 2) and 99 (SEM 5) beats.min-1 (P less than 0.01), respectively. At 25 degrees C, handgrip exercise increased blood flow in the exercising forearm above the control forearm by 6.0 (SEM 0.8) ml.100 ml-1.min-1 during light exercise, and by 17.9 (SEM 2.5) ml.100 ml-1.min-1 during moderate exercise. In the heat, the increases were significantly higher: 12.5 (SEM 2.2) ml.100 ml-1.min-1 at the light exercise level (P less than 0.01), and 32.2 (SEM 5.9) ml.100 ml-1.min-1 (P less than 0.05) at the moderate exercise level.(ABSTRACT TRUNCATED AT 250 WORDS)     

Expression pattern of bta-mir-2898 miRNA and their correlation with heat shock proteins during summer heat stress among native vs crossbred cattle

Earlier studies identified the role of bta-mir-2898 in bovine. Our earlier study identified that, bta-mir-2898 can be over expressed in crossbred cattle during heat stress. Nevertheless the differential expression of bta-mir-2898 among native vs crossbred cattle during summer stress along with it's correlation with different heat shock proteins (HSPs) is not yet studied. In the present context, we studied the differential expression of bta-mir-2898 among Frieswal (Bos indicus x Bos taurus) and Sahiwal (Bos indicus) breeds of cattle during a range of environmental air temperatures and further investigated the correlation of bta-mir-2898 with different HSPs (HSP70, HSP90, HSP60. HSF, HSPB8 and HSP27). It was observed that, at peak air temperature the relative miRNA expression level (p < 0.05) of bta-mir-2898 was 3.4 ± 0.41 and 0.79 ± 0.22 among Frieswal and Sahiwal, respectively. We also observed significant levels (p < 0.05) of mRNA abundance of HSP70, HSP90, HSPB8 and HSP27 among the breeds. In all the cases Sahiwal found to exhibited higher level of HSPs in comparison to Frieswal. Studies revealed that the expression profile of bta-mir-2898 was negatively correlated with the expression of all the HSPs during thermal stress in post anti-mir2898 treated PBMC invitro cultured model originated from both Frieswal and Sahiwal cattle breeds. However, significantly (p < 0.05) higher negative correlations were observed between bta-mir-2898 and HSP70, HSP60 and HSPB8. Present findings highlighted the preliminary role of overexpressed bta-mir-2898 in cattle during thermal stress and its impact on different heat shock proteins.     

Water stress preconditioning and cotton root pressure-flux relationships

Summary A model was developed to describe interactive effects of exposure time and treatment on thermostability of excisedIllicium parviflorum Michx. root cell membranes using electrolyte leakage (L_c) procedures. Roots were moved from 25°C to treatment temperatures between 35°C and 60°C for 30 to 300 min. A sigmoidal response described L_c increases with increasing temperature at selected time exposures and the lethal exposure time decreased exponentially as temperature increased. The lethal temperature (52.0±1.1°C) for a 15 min exposure using this technique was comparable to the critical temperature (52.2±1.2°C) when roots were exposed to gradually increasing temperatures (4°C per h). Total protein content of roots began to decrease as temperatures increased from 35 to 40°C and the temperature corresponding to 50% reduction in total proteins was 49.1±2.2°C.