食物限制对黑线仓鼠能量代谢和产热的影响

为阐明动物应对食物短缺的能量学对策与其自身的代谢水平的关系,测定了不同限食程度下黑线仓鼠的体重、基础代谢率和非颤抖性产热。结果发现,限食使基础代谢率、非颤抖性产热、褐色脂肪组织细胞色素c氧化酶活性降低。90% 限食驯化4 周后,存活率为80% ,60% 限食驯化4 周后,存活率为30% 。低温驯化使黑线仓鼠基础代谢率和非颤抖性产热显著增加,使80% 限食动物的体重和存活率显著降低。高基础代谢率组的摄食量比低基础代谢率组多23.8% ,80% 限食后两组体重降低的幅度和存活率差异不显著。结果表明:高水平的代谢率使黑线仓鼠对食物资源短缺的敏感性增加;支持“代谢率转换假说”,符合“具有储食习性的动物对食物短缺的生理耐受性较低” 的预测。     

光周期和高脂食物对布氏田鼠能量代谢和产热的影响

为了研究光周期和高脂食物对小型哺乳动物能量代谢和产热的影响,将成年雌性布氏田鼠(Lasiopodomys brandtii)分别驯化于长光照低脂、高脂食物和短光照低脂、高脂食物,7周后测定动物的体重、能量摄入、产热、血清瘦素浓度以及褐色脂肪组织解偶联蛋白1(BAT-UCP1)含量等参数.结果发现:1)短光照抑制体重增长、降低体脂重量和血清瘦素水平,增加非颤抖性产热(NST)和UCP1含量;2)高脂食物使摄入能减少和消化率提高,但未显著影响体重、基础代谢率、NST、UCP1含量和血清瘦素;3)血清瘦素与摄入能不相关,但与体脂含量正相关.结果暗示:短光照下瘦素作用敏感性增加和产热能力增强,可能介导了抵抗高脂食物诱导的肥胖.在野外条件下草食性的布氏田鼠能通过能量代谢和产热的适应性调节避免体重的过度增长,有利于降低捕食风险,增强生存能力.同时布氏田鼠是研究食物诱导肥胖机理的一个好模型     

限食程度对大绒鼠体重和产热特征的影响

为阐明动物应对食物短缺的能量学对策,将成年大绒鼠按自由取食量的90%、80%和70%限食4周。测定了不同限食程度下大绒鼠的存活率、体重、体脂含量、血清瘦素浓度、基础代谢率和非颤抖性产热。结果发现,90%限食驯化4周后,动物没有死亡,80%限食驯化4周后,存活率为90%,而70%限食驯化4周后,存活率仅为60%。限食使大绒鼠体重、体脂含量、血清瘦素浓度、基础代谢率和非颤抖性产热降低。血清瘦素浓度与体重、基础代谢率和非颤抖性产热呈显著正相关。结果表明,在限食条件下,大绒鼠主要通过降低体重、基础代谢率和产热的能量支出以及动用体内脂肪以应对食物资源短缺的环境条件,符合"代谢率转换"假说。瘦素作为饥饿信号可能参与了限食条件下大绒鼠能量代谢和体重的适应性调节。     

高纤维食物对海南社鼠能量代谢的影响

自然界中食物质量常存在季节性变化,可影响小型哺乳动物的生理特征及其生存和分布。为研究高纤维(低质量)食物对栖息于贵州遵义的海南社鼠(Niviventer lotipes)能量代谢的影响,通过饲喂标准兔饲料(高纤维)或鼠饲料(低纤维)处理海南社鼠4周,实验期间测定动物的体重和能量摄入,使用开放式代谢仪测定动物的能量消耗,并在实验处理结束后解剖动物进行身体成分分析。研究发现,饲喂兔饲料的海南社鼠实验期间体重持续下降,到实验结束时为饲喂鼠饲料动物(对照组)体重的62.8%。饲喂兔饲料4周后,动物的整体基础代谢率和非颤抖性产热显著下降,分别为对照组的55.1%和63.4%。饲喂兔饲料的海南社鼠干物质摄入、消化能和消化率显著降低,分别为对照组的63.7%、38.8%和71.8%;身体成分分析显示,主要内脏器官重量以及消化道的重量和长度也显著下降。研究结果表明,饲喂高纤维的兔饲料后海南社鼠没有增加食物摄入来补偿消化率的下降,消化道形态尤其是小肠和盲肠的重量和长度没有适应性增加,虽然动物可通过降低基础代谢率和非颤抖性产热节约能量,但动物能量利用效率太低不能维持能量平衡而体重显著下降,海南社鼠对高纤维...     

高蛋白食物和繁殖对布氏田鼠能量摄入和产热的影响

为探讨高蛋白食物和繁殖对布氏田鼠食物摄入和产热等特征的效应,将成年雌性布氏田鼠分为非繁殖对照食物组、非繁殖高蛋白组、繁殖对照食物组和繁殖高蛋白组。对照食物蛋白含量为17.7%,高蛋白食物的蛋白含量为36.6%。实验过程中测定动物的体重、食物摄入量、静止代谢率(RMR)、身体成分、内脏器官重量、褐色脂肪组织(BAT)解偶联蛋白1(UCP1)含量、血清瘦素和催乳素水平等。结果发现:高蛋白食物明显抑制布氏田鼠的体重,但动物在妊娠期和哺乳期,这种抑制作用消失。高蛋白食物明显抑制非繁殖组动物的干物质摄入、摄入能和消化能,但对哺乳期动物没有影响。高蛋白食物提高了非繁殖期和繁殖期动物的消化率,降低了血清瘦素浓度,但仅提高了繁殖期动物肾脏的重量,而降低了盲肠的重量。RMR、UCP1含量和血清催乳素浓度等则不受高蛋白食物的影响。繁殖期动物的体重、能量摄入、RMR和血清催乳素浓度等均高于非繁殖动物。这些结果表明,食物蛋白含量可影响布氏田鼠的能量代谢和产热特征等,且在繁殖期和非繁殖期有不同的反应方式。     

内蒙古浑善达克沙地小毛足鼠的能量代谢和体温调节

为了解小毛足鼠对沙漠生境的适应特征,对其能量代谢和体温调节特征进行了测定。代谢率采用封闭式流体压力呼吸计测定,非颤抖性产热用皮下注射去甲肾上腺素诱导,能量摄入采用食物平衡法测定。结果显示:小毛足鼠的热中性区为25～33℃,平均体温为35 7±0 1℃,最小热传导率为0 21±0 01mlO2/g·h·℃,基础代谢率为2 61±0 04mlO2/g·h,最大非颤抖性产热为8 53±0 28mlO2/g·h,非颤抖性产热范围(最大非颤抖性产热与基础代谢率的比率)为3 3。基础代谢率和非颤抖性产热都高于以体重为基础的期望值,最小热传导接近期望值。小毛足鼠的摄入能为2 26±0 12kJ/g·d;消化能为2 18±0 13kJ/g·d;消化率为97±0 2%;可代谢能为2 13±0 12kJ/g·d;可代谢能效率为94±1 2%。这些结果表明小毛足鼠对沙地生境的适应特征是:基础代谢率较高,体温相对较低,最小热传导率与期望值相当,热中性区较宽,下临界温度较低;较高的最大非颤抖性产热和非颤抖性产热范围以及较高的食物消化效率。     

光周期对布氏田鼠和长爪沙鼠体重和能量代谢的影响

本文测定了光周期对雄性布氏田鼠和长爪沙鼠的体重、基础代谢率和能量代谢的影响。动物从长光照(16L∶8D , LD) 转入短光照(8L∶16D , SD) 条件下驯化6 周(田鼠) 和7 周(沙鼠) 。结果显示: (1) 无论在LD还是SD 条件下, 两种动物的体重都趋于增加, 但反应程度不同也具有种间差异性。两种动物的体重对光周期的反应有时段性, 约14 d 前两种动物的体重增加迅速, 而后增加缓慢, 3 周左右趋于稳定。短光照条件下布氏田鼠和长爪沙鼠的体重分别增长了37 %和11 % , 均低于长光照组(分别为47 %和25 %) , 说明短光照条件下布氏田鼠和长爪沙鼠的体重增长较长光照缓慢; (2) 光照对两种动物的摄入能、消化能和可代谢能均没有显著影响,摄入能与体重的增长无关; (3) 光照对两种动物的基础代谢率无显著影响。这些结果表明: 布氏田鼠和长爪沙鼠在自然环境中, 可能以光周期作为一种信号, 当环境温度降低、食物质量变劣时, 采取降低体重以减少绝对能量需求的策略而适应环境。     

冷驯化条件下长爪沙鼠血清瘦素浓度的变化及其与能量收支和产热的关系

为研究低温胁迫条件下长爪沙鼠的适应对策及瘦素对体重和能量平衡的调节作用 ,我们将 7只成年雌性长爪沙鼠在 5℃条件下驯化 2 1d ,另选 7只作为对照 ,对体重、血清瘦素含量、体脂含量、摄入能、基础代谢率、非颤抖性产热等进行了测定。结果发现 :1 ) 5℃条件下长爪沙鼠的体重没有明显变化 ;2 ) 5℃条件下长爪沙鼠的血清瘦素浓度和体脂含量均明显低于对照组 ,且瘦素浓度与体脂含量呈显著正相关 ;3) 5℃条件下长爪沙鼠的摄入能、基础代谢率和非颤抖性产热等显著高于对照。这些结果表明 :长爪沙鼠在低温条件下产热能力和自身维持能量消耗都增加 ,能量摄入因此而增加 ;瘦素参与了能量平衡和体重的调节 ,但没有直接参与产热调节     

光周期和高脂食物对雌性高山姬鼠能量代谢和产热的影响

为了研究光周期和高脂食物对小型哺乳动物能量代谢和产热的影响,将成年雌性高山姬鼠分别驯化于长光照低脂、高脂食物和短光照低脂、高脂食物条件下,7周后测定动物的体重、能量摄入、产热、身体组成、血清瘦素浓度以及体脂含量等参数。结果发现:1)短光照抑制体重增长,降低血清瘦素浓度,增加非颤抖性产热;2)高脂食物使摄入能减少,消化率和体脂含量提高,但未显著影响体重、基础代谢率、非颤抖性产热和血清瘦素浓度;3)血清瘦素浓度与摄入能不相关,但与体脂重量正相关。结果暗示:短光照下瘦素作用敏感性增加和产热能力增强,可能介导了抵抗高脂食物诱导的肥胖。在野外条件下,高山姬鼠能通过能量代谢和产热的适应性调节避免体重的过度增长,有利于降低捕食风险,增强生存能力。     

年龄对布氏田鼠和长爪沙鼠能量代谢的影响

能量代谢对动物的存活和繁殖等生活史特征具有重要的调控作用.布氏田鼠(Lasiopodomys brandtii)和长爪沙鼠(Meriones unguiculatus)是内蒙古草原同域分布的两种啮齿动物,前者的体重和野外寿命要明显小于后者,这符合寿命随体型增大而增加的一般规律.本研究进一步探讨了随年龄增加,两种动物的能量代谢特征的改变.发现布氏田鼠的非颤抖性产热能力随年龄增加而降低,而长爪沙鼠的非颤抖性产热能力随年龄增加而保持稳定.布氏田鼠的摄食能力和身体脂肪储备随年龄增加而降低;而长爪沙鼠摄食能力不随年龄改变,脂肪储备则随年龄增加而增加.长爪沙鼠的基础代谢水平低于布氏田鼠,其繁殖成熟时间更长.本研究推测,这些随年龄而变的生理特征反映了两种动物不同的生活史对策:布氏田鼠更倾向于尽快繁殖,其他与生存相关的生理指标随年龄增加而迅速降低,而长爪沙鼠更倾向于将能量投资到较晚期的存活和繁殖.     

Effects of diet quality on energy budgets and thermogenesis in Brandt's voles

Food quality and availability play an important role in an animal's life history. The aim of this study was to examine the effect of diet quality [high-fiber diet (HF) or low-fiber diet (LF)] on energy budgets and thermogenesis in Brandt's voles (Lasiopodomys (Microtus) brandtii). Dry matter intake and gross energy intake increased and digestibility decreased in HF voles compared with LF voles, while the digestible energy intake was similar for both HF and LF voles. Nonshivering thermogenesis (NST) decreased in HF voles, while LF voles kept stable; no significant differences were detected in basal metabolic rate (BMR), BAT uncoupling protein 1 (UCP1) content and the levels of serum thyroid hormones (T3 and T4) between HF and LF voles. Although there were no differences in body fat content and serum leptin concentrations between HF and LF voles, serum leptin concentrations in HF voles were reduced to nearly half as those seen in LF voles after 4-weeks acclimation. These results support the hypothesis that Brandt's voles can compensate the poor quality diet physiologically by the means of increasing food intake and decreasing thermogenesis.     

Regulation of body weight and thermogenesis in seasonally acclimatized Brandt's voles (Microtus brandti)

Seasonal changes in an animal's morphology, physiology, and behavior are considered to be an adaptive strategy for survival and reproductive success. In the present study, we examined body weight and several behavioral, physiological, hormonal, and biochemical markers in seasonally acclimatized Brandt's voles (Microtus brandti) to test our hypothesis that Brandt's voles can decrease energy intake associated with decrease in body weight, body fat content, serum leptin level, and increasing thermogenesis in winter conditions. We found that the body weight of Brandt's voles was lowest in winter (December to February) and highest in spring and early summer (May to June). This seasonal variation in body weight was associated with changes in other markers examined. For example, the winter decrease in body weight was accompanied by increased energy intake and enhanced nonshivering thermogenesis (NST) as well as by decreased body fat mass and reduced levels of circulating leptin. Further, circulating levels of leptin were positively correlated with body weight and body fat mass, and negatively correlated with energy intake and uncoupling protein 1 contents. Together, these data do not support our hypothesis and suggest that leptin may be involved in this process and serve as a starvation signal in Brandt's voles.     

Energy metabolism, thermogenesis and body mass regulation in Brandt's voles (Lasiopodomys brandtii) during cold acclimation and rewarming

Environmental cues play important roles in the regulation of an animal's physiology and behavior. The purpose of the present study was to test the hypothesis that ambient temperature was a cue to induce adjustments in body mass, energy intake and thermogenic capacity, associated with changes in serum leptin levels in Brandt's voles (Lasiopodomys brandtii). We found that Brandt's voles increased resting metabolic rate (RMR) and energy intake and kept body mass stable when exposed to the cold while showed a significant increase in body mass after rewarming. The increase in body mass after rewarming was associated with the higher energy intake compared with control. Uncoupling protein 1 (UCP1) content in brown adipose tissue (BAT) increased in the cold and reversed after rewarming. Serum leptin levels decreased in the cold while increased after rewarming, associated with the opposite changes in energy intake. Further, serum leptin levels were positively correlated with body mass and body fat mass. Together, these data supported our hypothesis that ambient temperature was a cue to induce changes in body mass and metabolism. Serum leptin, as a starvation signal in the cold and satiety signal in rewarming, was involved in the processes of thermogenesis and body mass regulation in Brandt's voles.     

Photoperiodic regulation in energy intake, thermogenesis and body mass in root voles (Microtus oeconomus)

The present study was designed to examine whether photoperiod alone was effective to induce seasonal regulations in physiology in root voles (Microtus oeconomus) from the Qinghai-Tibetan plateau noted for its extreme cold environment. Root voles were randomly assigned into either long photoperiod (LD; 16L:8D) or short photoperiod (SD; 8L:16D) for 4 weeks at constant temperature (20 degrees C). At the end of acclimation, SD voles showed lower body mass and body fat coupled with higher energy intake than LD voles. SD greatly enhanced thermogenic capacities in root voles, as indicated by elevated basal metabolic rate (BMR), nonshivering thermogenesis (NST), mitochondrial protein content and uncoupling protein-1 (UCP1) content in brown adipose tissue (BAT). Although no variations in serum leptin levels were found between SD and LD voles, serum leptin levels were positively correlated with body mass and body fat mass, and negatively correlated with energy intake and UCP1 content in BAT, respectively. To summarize, SD alone is effective in inducing higher thermogenic capacities and energy intake coupled with lower body mass and body fat mass in root voles. Leptin is potentially involved in the photoperiod induced body mass regulation and thermogenesis in root voles.     

Effects of photoperiod on energy intake, thermogenesis and body mass in Eothenomys miletus in Hengduan Mountain region

The present study was designed to examine whether photoperiod alone was effective to induce seasonal changes in physiology in voles (Eothenomys.) from the Hengduan Mountain region. Eothenomys miletus were randomly assigned into either long photoperiod (LD; 16L: 8D) or short photoperiod (SD; 8L: 16D) for 4 weeks at constant temperature (25 °C). At the end of acclimation, SD voles showed lower body mass and body fat coupled with higher energy intake than LD voles. SD greatly enhanced the thermogenic capacity of E. miletus, as indicated by an elevated nonshivering thermogenesis (NST), mitochondrial protein in brown adipose tissue (BAT); basal metabolic rate (BMR) was also raised. Although no variations in serum leptin levels were found between SD and LD voles, serum leptin levels were positively correlated with body mass and body fat mass, and negatively correlated with energy intake and UCP1 content in BAT, respectively. To summarize, SD alone is effective in inducing higher thermogenic capacities and energy intake coupled with lower body mass and body fat mass in root voles. Leptin is potentially involved in the photoperiod induced body mass regulation and thermogenesis in E. miletus. Our study shows that SD alone is effective.     

Photoperiod and temperature can regulate body mass, serum leptin concentration, and uncoupling protein 1 in Brandt's voles (Lasiopodomys brandtii) and Mongolian gerbils (Meriones unguiculatus)

Environmental factors play an important role in the seasonal adaptation of body mass and thermogenesis in wild small mammals. In this study, we performed a factorial experiment (temperature x photoperiod) in which Brandt's voles and Mongolian gerbils were acclimated to different photoperiods (long photoperiod, 16L : 8D; short photoperiod, 8L : 16D) and temperatures (warm, 23 degrees C; cold, 5 degrees C) to test the hypothesis that photoperiod, temperature, or both together can trigger seasonal changes in serum leptin level, body mass, thermogenesis, and energy intake. Our data demonstrate that Brandt's voles showed a remarkable decrease in body mass in both the cold and a short photoperiod. However, no significant changes in body mass were found for gerbils exposed to similar conditions. The short photoperiod induced a decrease in serum leptin levels for both voles and gerbils that might contribute to an increase in energy intake. Furthermore, the short photoperiod induced an increase of uncoupling protein 1 (UCP1) content for both voles and gerbils, and cold can further enhance the increase in voles. No interactions between photoperiod and temperature were detected for the two species. Brandt's voles can decrease their body mass through changes in energy intake and expenditure, while Mongolian gerbils can keep body mass relatively stable by balancing energy metabolism under winterlike conditions. Leptin was potentially involved in the regulation of body mass and thermogenic capacity for the two species.     

单宁酸对根田鼠断乳幼体生长和存活的影响

在食物中含10％和20％蛋白质条件下,测定了单宁酸对根田鼠幼体在断乳后20d内的生长和存活的影响。结果表明,食物中含蛋白质为10％的条件下,摄食含3％和6％单宁酸食物的试验个体生长速率分别为-0．135g/d和-0．25g/d,食物利用效率均显低于对照组,断乳后20d内平均存活天数较对照组分别下降26．23％和49．36％。在食物蛋白质为20％的条件下,摄食含3％和6％单宁酸食物的试验个体生长速率分别为0．134g/d和-0．116g／d,摄食6％单宁酸食物的试验个体食物利用效率显低于摄食3％单宁酸食物的试验个体和对照组个体,断乳后20d内的平均存活天数较对照组下降39．41％,摄食3％单宁酸食物的试验个体较对照组略有下降,但不显。上述结果验证了单宁酸能显影响植食性小哺乳动物生长和存活的假设。     

Summer acclimatization in the short-tailed field vole,Microtus agrestis

We investigated the changes that occurred in basal and noradrenaline-induced metabolic rate, body temperature and body mass in short-tailed field voles,Microtus agrestis, during exposure to naturally increasing photoperiod and ambient temperature. These parameters were first measured in winter-acclimatized voles (n=8) and then in the same voles which had been allowed to seasonally acclimatize to photoperiod and ambient temperature (6 months later). Noradrenaline induced metabolic rate, basal metabolic rate and nonshivering thermogenesis were significantly higher in winter-acclimatized compared to summer-acclimatized voles. There was a significant positive relationship between basal metabolic rate and noradrenaline-induced metabolic rate. Body mass was significantly higher in summer-acclimatized compared to winter-acclimatized voles. There was a significant positive relationship between body mass and noradrenaline-induced metabolic rate in both winter-acclimalized and summer-acclimatized voles; however, there was no relationship between basal metabolic rate and body mass in either seasonal group of voles. Body temperature after measurements of basal metabolic rate was not significantly different in the seasonal cohorts of voles. However, body temperature was significantly higher in winter-acclimatized compared to summer-acclimatized voles after injection of noradrenaline. Previously we have found that a long photoperiod was not a sufficient stimulus to reduce thermogenic capacity in winter-acclimatized voles during cold exposure, since basal metabolic rate increased to compensate for a reduction in regulatory nonshivering thermogenesis. Here we found that a combination of increased ambient temperature and photoperiod did significantly reduce thermogenic capacity in winter-acclimatized voles. This provided evidence that the two aspects of non-shivering thermogenesis, obligatory and regulatory, are stimulated by different exogenous cues. Summer acclimatization in the shorttailed field vole is manifest as a significant decrease in both basal and noradrenaline-induced metabolic rate, combined with a significant increase in body mass.Abbreviations ANCOV A analysis of covariance - BAT brown adipose tissue - BM body mass - BMR basal metabolic rate - NST non-shivering thermogenesis - NA noradrenaline - V the maximum V recorded following mass specific injection of noradrenaline - V the maximum V recorded following mass specific injection of saline - T _a ambient temperature - T _b rectal body temperature - T _1c lower critical temperature - UCP uncoupling protein - V oxygen consumption     

渐变的光周期和温度对布氏田鼠能量代谢和身体成分的影响

为探讨在同时逐渐缩短光照时间和降低温度的过程中,动物能量代谢水平和身体成分的适应性变化, 我们以成年雄性布氏田鼠为对象, 测定了温度为20℃ 和光周期为12L:12D (对照组),以及从温度为20℃ 和长光照条件(16L:8D)逐渐转换到温度为4℃ 和短光照条件(8L:16D)的过程中(实验组), 其体重、静止代谢率和能量摄入的变化, 以及经过8 周驯化后身体器官和组织重量的变化。结果发现:实验组动物的体重增长率低于对照组。在驯化期间, 静止代谢率无组内和组间差异。实验组动物的干物质摄入、能量摄入和消化能等组内差异不明显, 但对照组动物在驯化的第8 周显著降低。实验组动物的能量摄入水平在驯化后显著升高;小肠和胃的干重, 以及小肠和心脏等器官的湿重也都显著高于对照组。结果表明,布氏田鼠能够采取降低体重、增加能量摄入和调整体内某些器官和组织重量的方式来适应变化的环境条件。