Effects of contingent versus yoked temperature feedback on voluntary temperature control and cold stress tolerance

Twenty-four male internals(locus of control) and 24 externals were instructed to increase finger temperature under one of three conditions:(1) contingent feedback(CF),(2) yoked sham feedback(YF), or(3) no feedback(NF). Five 13-min training sessions were given. Feedback was then removed and subjects tested for voluntary temperature control. Finally, the cold pressor test, a laboratory analogue of natural cold stress, was administered under no-feedback conditions. Results demonstrated voluntary control of peripheral temperature following contingent feedback training, but not after yoked feedback temperature training. Contrary to expectation, the acquisition of voluntary control did not attenuate the stress response to thermal pain. Differences between internals and externals throughout the study were generally insignificant.     

Electrodermal discrimination with visual feedback in two incompatible stressful situations. A yoked control comparison

One group (N = 14) of human volunteers received three sessions of discriminated avoidance and punishment with the skin resistance response (SRR) as the instrumental behavior. Each session consisted of three 7 minute periods of Sidman avoidance (response-stimulus [R-S] and stimulus-stimulus [S-S] = 40 sec) of a 0.5 second, 15 Hz square wave shock mixed with three periods of punishment with the same shock. The avoidance and punishment periods were differentially signaled by red and green lights, and a circle appeared superimposed on the discriminative stimuli during a criterion SRR. A second group (N = 14) was yoked to the first by recording shock events on magnetic tape and shocking the yoked subject in the same temporal sequence. In both groups the visual feedback stimulus was consistently related to the subject's ongoing electrodermal behavior. As in previous research, the contingent shock subjects made significantly more SRRs during avoidance than during punishment in all three sessions. For yoked subjects the discrimination did not appear until the third session. The findings imply that the discrimination is at least partly independent of the avoidance and punishment contingencies, and they raise questions about the role of the feedback stimulus.     

Effects of overproduction of tobacco MnSOD in maize chloroplasts on foliar tolerance to cold and oxidative stress

Transgenic maize plants have been generated by particle gun bombardment that overproduce a Nicotiana plumbaginifolia L. manganese superoxide dismutase (MnSOD). To target this mitochondrial enzyme into chloroplasts, the mature MnSOD-coding sequence was fused to a chloroplast transit peptide from a pea ribulose-1,5-bisphosphate carboxylase gene, whereas expression of the chimeric gene was driven by the CaMB 35S promoter. Transgenic MnSOD activity contributed to 20% of the total SOD activity. The presence of transgenic MnSOD had clear effects on foliar tolerance to chilling and oxidative stress. The results suggest that overproduction of MnSOD in the chloroplasts increases the antioxidant capacity of the leaves.     

Relationship between cold tolerance and generation of suppressor macrophages during acute cold stress

Kizaki, Takako, Tomomi Ookawara, Tetsuya Izawa, JunichiNagasawa, Shukoh Haga, Zsolt Radák, and Hideki Ohno.Relationship between cold tolerance and generation of suppressormacrophages during acute cold stress. J. Appl.Physiol. 83(4): 1116-1122, 1997.Acute coldstress induces suppressor macrophages expressing large numbers ofreceptors to the crystallizable fragment (Fc) portion ofimmunoglobulin G(MAC-1⁺FcRII/III^brightcells), resulting in the immunosuppression of splenocyte mitogenesis. The generation ofMAC-1⁺FcRII/III^brightcells is mediated by the action of glucocorticoids (GCs) through theGC-receptor. In the present study, the generation ofMAC-1⁺FcRII/III^brightcells in peritoneal exudate cells was closely related to the decreaseof rectal temperature during 3-day exposure to 5°C. We nextinvestigated the effects of improved cold tolerance on the generationofMAC-1⁺FcRII/III^brightcells during acute cold stress. Mice were adapted to cold by exposureto 5°C for 3 wk (cold-acclimated mice) and then reexposed to5°C for 3 h (acute cold stress) after living at 25°C for 24 h.The rectal temperature of cold-acclimated mice was not decreased by theacute cold stress. In addition, the proportion ofMAC-1⁺FcRII/III^brightcells in peritoneal exudate cell population from cold-acclimated micewas unaffected by the acute cold stress. The cold acclimation significantly attenuated the increases in serum corticosterone levelsand the expression of the GC-receptor mRNA on peritoneal exudate cellsin response to acute cold stress. These results suggest that thealtered GC response to acute cold stress by the improvement of coldtolerance inhibits the generation of suppressor macrophages duringacute cold stress.

     

温度对中华蜜蜂和意大利蜜蜂个体主要抗寒生理指标的影响

【目的】为了探究中华蜜蜂Apis cerana cerana和意大利蜜蜂Apis mellifera ligustica个体耐寒性差异的生理机制。【方法】本试验分别对20日龄的中华蜜蜂和意大利蜜蜂工蜂进行0、10、25℃持续4 h的温度处理,随后测定不同温度处理后两蜂种体内葡萄糖、甘油和氨基酸的含量。【结果】低温状态下中华蜜蜂体内葡萄糖含量显著降低,意大利蜜蜂在0℃组显著下降却在10℃组显著上升;中华蜜蜂体内甘油在低温环境下显著积累,意大利蜜蜂体内甘油水平在10℃时显著的上调却在0℃组无显著变化;中华蜜蜂体内17种氨基酸在各温度处理间显著变化,且多数的氨基酸含量表现出10℃组降低而0℃组积累的趋势,意大利蜜蜂体内只有15种氨基酸参与机体的抗寒机制,其中多数的氨基酸表现为低温环境下大量积累,仅有亮氨酸和精氨酸表现为低温时被转化消耗的现象。【结论】低温条件下可引起两蜂种体内葡萄糖、甘油和氨基酸含量的显著变化,初步推测蜜蜂体内可能存在"葡萄糖-甘油-氨基酸"的抗寒物质系统,但两蜂种在不同程度的低温处理后各生理指标的变化存在较大的差异,从一定程度上阐释两蜂种抗寒性的差异。本研究为蜜蜂个体抗寒生理机制的进一步研究提供基础数据,同时为蜜蜂抗寒新品系的选育提供理论依据。     

Effects of holding temperature and handling stress on the upper thermal tolerance of threadfin shad Dorosoma petenense

The critical thermal maxima (T_MAX) of threadfin shad Dorosoma petenense exposed to standardized stress (30 s handling in a dip‐net), simulating stressors endured during fish loading before transport, were measured over a range of holding temperatures (15, 20 and 25° C). Dorosoma petenense T_MAX showed a significant thermal effect, displaying mean ±s.d . critical thermal maxima of 26·5 ± 1·6, 30·9 ± 1·2 and 33·3 ± 1·4° C, when tested at temperatures of 15, 20 and 25° C, respectively. Dorosoma petenense T_MAX levels were also affected by stress, with handled fish showing significantly lower values than control fish exposed to 15 (mean ±s.d . T_MAX = 25·6 ± 2·0° C), 20 (27·6 ± 2·8° C) and 25° C (32·0 ± 2·6° C). In addition to providing basic information on D. petenense thermal tolerance, experimental results suggest that fishery managers should consider the whole suite of potential stressors, such as air exposure during handling and fish loading, when developing management criteria.     

Involvement of human basal ganglia in offline feedback control of voluntary movement

Practice makes perfect, but the neural substrates of trial-to-trial learning in motor tasks remain unclear. There is some evidence that the basal ganglia process feedback-related information to modify learning in essentially cognitive tasks , but the evidence that these key motor structures are involved in offline feedback-related improvement of performance in motor tasks is paradoxically limited. Lesion studies in adult zebra finches suggest that the avian basal ganglia are involved in the transmission or production of an error signal during song . However, patients with Huntington's disease, in which there is prominent basal ganglia dysfunction, are not impaired in error-dependent modulation of future trial performance . By directly recording from the subthalamic nucleus in patients with Parkinson's disease, we demonstrate that this nucleus processes error in trial performance at short latency. Local evoked activity is greatest in response to smallest errors and influences the programming of subsequent movements. Accordingly, motor parameters are least likely to change after the greatest evoked responses so that accurately performed trials tend to precede other accurate trials. This relationship is disrupted by electrical stimulation of the nucleus at high frequency. Thus, the human subthalamic nucleus is involved in feedback-based learning.     

Effects of photoperiodically induced reproductive diapause and cold hardening on the cold tolerance of Drosophila montana

Coping with seasonal and daily variation in environmental conditions requires that organisms are able to adjust their reproduction and stress tolerance according to environmental conditions. Females of Drosophila montana populations have adapted to survive over the dark and cold winters at high latitudes and altitudes by spending this season in photoperiodically controlled reproductive diapause and reproducing only in spring/summer. The present study showed that flies of a northern population of this species are quite tolerant of low temperatures and show high seasonal and short-term plasticity in this trait. Culturing the flies in short day length (nearly all females in reproductive diapause), as well as allowing the flies to get cold hardened before the cold treatment, increased the cold tolerance of both sexes both in chill coma recovery time test and in mortality assay. Chill coma recovery time test performed for the females of two additional D. montana populations cultured in a day length where about half of the females enter diapause, also showed that diapause can increase female cold tolerance even without a change in day length. Direct linkage between diapause and cold tolerance was found in only two strains representing a high-altitude population of the species, but the phenomenon will certainly be worth of studying in northern and southern populations of the species with larger data sets.     

The effect of abscisic acid on cold tolerance and chloroplasts ultrastructure in wheat under optimal and cold stress conditions

The effect of abscisic acid (0.1 mM) on cold tolerance of leaf cells and ultrastructure of chloroplasts in wheat (Triticum aestivum L.) under optimal (22 °C) and cold stress conditions (4 °C) was studied. Results indicated that exogenous abscisic acid induces a rise in the cold tolerance of wheat along with a number of significant ultrastructural changes in chloroplasts both at 22 and at 4 °C. Some of them (increase in density of chloroplasts stroma, formation of “distorted” and “dilated” thylakoids, appearance of invaginations, changes in the shape of chloroplasts and increase of their dimension owing to the stroma area) were common to the two types of treatments. At the same time, the character of changes in the membrane system of plastids was temperature specific, i.e. if at 22 °C the hormone caused a considerable increase in the length of photosynthetic membranes in chloroplast owing the length of both appressed and non-appressed membranes of thylakoids, then in cold stress conditions observed an increase in the number of grana and the length of appressed membranes of thylakoids. These results suggested that the rise in the cold tolerance of abscisic acid-treated plants is associated with the ultrastructural reorganization of chloroplasts aimed to defense plant cells against chilling injury and to maintain the activity of the photosynthetic system.     

The role of abscisic acid and low temperature in chickpea (Cicer arietinum) cold tolerance. II. Effects on plasma membrane structure and function

The frost hardiness of many plants such as chickpea can be increased by exposure to low non-freezing temperatures and/or the application of abscisic acid (ABA), a process known as frost acclimation. Experiments were conducted to study the response over a 14 d period of enriched plasma membrane fractions isolated from chickpea plants exposed to low temperature and sprayed with exogenous ABA. Measurement of the temperatures inducing 50% foliar cell death (LT50), and subsequent statistical analysis suggest that, like many plants, exposure to low temperatures (5/-2 degrees C; day/night) induces a significant level (P <0.05) of frost acclimation in chickpea when compared with control plants (20/7 degrees C; day/night). Spraying plants with exogenous ABA also increased frost tolerance (P <0.05), but was not as effective as low temperature-induced frost acclimation. Both pre-exposure to low temperatures and pre-treatment with ABA increased the levels of fatty acid desaturation in the plasma membrane (measured as the double bond index, DBI). Exposure of chickpea plants to low temperatures increased the DBI by 15% at day 4 and 19% at day 14 when compared with untreated control plants. Application of ABA alone did not increase the DBI by more than 6% at any time; the effects of both treatments applied together was more than additive, inducing a DBI increase of 27% at day 14 when compared with controls. There was a good correlation (P <0.05) between the DBI and LT50, suggesting that the presence of more unsaturated lipid in the plasma membrane may prevent cell lysis at low temperatures. Both pre-exposure to low, non-freezing temperatures and pre-treatment with ABA induced measurable changes in membrane fluidity, but these changes did not correlate with changes in LT50, suggesting that physical properties of the plasma membrane other than fluidity are involved in frost acclimation in chickpea.     

Effects of alternating exposure to cold and heat for 14 days on cold tolerance in winter

People are exposed to heat regularly due to their jobs or daily habits in cold winter, but few studies have reported whether parallel heat and cold exposure and diminish cold acclimation. This study was conducted to investigate the effects of alternating exposure to cold and heat on cold tolerance in eight young males. A daily acclimation program to cold and heat, which consisted of 2-h sitting at 10 °C air in the morning and 2-h running and rest at 30 °C air in the afternoon, was conducted for 14 consecutive days. Eight male subjects participated in a cold tolerance test (10 °C [ ± 0.3], 40%RH[ ± 3]) before (PRE) and after (POST) completing the alternating exposure program. During the cold tolerance test, subjects remained sitting upright on a chair for 60 min. Rectal temperature (T_re) was lower in POST than in PRE during the 60-min cold tolerance test (P = 0.027). During the cold tolerance test, systolic, diastolic, and mean arterial blood pressures in POST were lower than those in PRE (P = 0.006, P = 0.005, and P = 0.004). No significant differences in skin temperatures between PRE and POST were found for the cold tolerance test. There were no significant differences in energy expenditure during cold exposure between PRE and POST. Subjects felt less cold in POST than in PRE (P = 0.013) whereas there was no significant difference in overall thermal comfort between PRE and POST. These results suggest that cold adaptation can still occur in the presence of heat stress.     

Effects of acclimation and diapause on the cold tolerance of Trogoderma granarium

Khapra beetle, Trogoderma granarium Everts (Coleoptera: Dermestidae), is a pest of stored grain in Africa, Asia, and Europe. It is a quarantine insect for much of the rest of the world. Control of T. granarium can be achieved with methyl bromide, but this fumigant is an ozone‐depleting substance and is being phased out worldwide. Thus, there is an urgent need to find new methods of control, including the use of low temperatures. Here, we assess the effects of diapause and cold acclimation on the cold tolerance of T. granarium. The percentage of larvae in diapause increased with larval density, reaching 57.3% when reared at a density of 73 larvae g^?1 diet. The cold tolerance of T. granarium was assessed by the supercooling points (SCPs) of various life stages. The SCP of non‐acclimated insects ranged from ?26.2 ± 0.2 °C (mean ± SEM) for eggs to ?14.4 ± 0.4 °C for larvae. The lowest SCP for larvae, ?24.3 ± 0.3 °C, was obtained for diapausing‐acclimated larvae. Based on mean LT₅₀ values, the most cold‐tolerant stage at ?10 °C was the diapausing‐acclimated larvae (87 days) followed by non‐diapausing‐acclimated larvae (51 days), diapausing non‐acclimated larvae (19 days), adults (4 days), non‐diapausing non‐acclimated larvae (2 days), pupae (0.4 days), and eggs (0.2 days). The estimated times to obtain 99.9968% mortality (Probit 9) for diapausing‐acclimated larvae are 999, 442, 347, 84, and 15 days at 0, ?5, ?10, ?15, and ?20 °C, respectively. Probit 9 is an estimated value used by quarantine experts to estimate conditions that are required to kill all insects. In light of the long exposure time needed to control T. granarium even at ?20 °C, cooling to below ?27 °C (i.e., below the SCP of eggs) will quickly kill all life stages and may be the best way to control this insect with low temperatures.     

Invited review: Effects of heat and cold stress on mammalian gene expression.

This review examines the effects of thermal stress on gene expression, with special emphasis on changes in the expression of genes other than heat shock proteins (HSPs). There are approximately 50 genes not traditionally considered to be HSPs that have been shown, by conventional techniques, to change expression as a result of heat stress, and there are <20 genes (including HSPs) that have been shown to be affected by cold. These numbers will likely become much larger as gene chip array and proteomic technologies are applied to the study of the cell stress response. Several mechanisms have been identified by which gene expression may be altered by heat and cold stress. The similarities and differences between the cellular responses to heat and cold may yield key insights into how cells, and by extension tissues and organisms, survive and adapt to stress.