哺乳期高温经历导致布氏田鼠F1代的热中性区变窄

哺乳期是影响小型哺乳动物发育的关键时期，但关于哺乳叠加高温对后代代谢可塑性的影响，尚不清楚。为研究哺乳期母体(F0)高温经历对后代(F1代和F2代)能量代谢特征的影响，我们测定了哺乳期母体经历高温(30±1) oC的布氏田鼠(Lasiopodomys brandtii) F1代和F2代成体以及常温(23±1) oC经历的后代成体(作为对照)的体重和体温，采用开放式呼吸代谢仪测定不同环境温度暴露3 h后的代谢率，并计算热传导和呼吸商。哺乳期高温经历的F1代动物在成年期的体重显著低于常温对照组和高温经历的F2代动物。在5～33.5 oC环境温度范围内，布氏田鼠维持稳定的体温；35 oC高温胁迫时，常温组、高温经历F1代和F2代的体温均显著下降。常温组布氏田鼠的热中性区为27.5～33.5 oC，高温经历F1代的热中性区下临界温度点30 oC，热中性区比常温组变窄(30～33.5 oC)，高温经历F2代的热中性区与常温组相比无变化。在热中性区温度以上，热传导随环境温度的升高而显著增加，高温经历的F1代和F2代布氏田鼠热传导增加的起始温度点升高。呼吸商随环境温度的升高明显增加，但不受哺乳期高温...     

布氏田鼠在冷暴露条件下褐色脂肪组织产热的神经内分泌调节

为了解野生小哺乳动物在冷暴露条件下褐色脂肪组织产热的调节机理 ,雄性布氏田鼠随机分为常温对照组 ( 2 4± 2℃ ,12L∶12D) ,冷暴露 1天、 1周和 4周组 ( 4± 1℃ ,12L∶12D ,分别处理 1天、 1周和 4周 ) ,驯化处理结束后测定下丘脑—垂体—甲状腺 (HPT)轴和下丘脑 -垂体 -肾上腺 (HPA)轴的中枢和外周激素及血清去甲肾上腺素含量。结果表明 :( 1) ,冷暴露布氏田鼠HPT轴持续处于激活状态 ,急性冷暴露下 ,由于下丘脑促甲状腺激素释放激素 (TRH)释放的增加而导致下丘脑TRH含量明显降低 ;慢性冷暴露后 ,下丘脑TRH的合成和经正中隆起 (ME)的释放显著增加 ,血清T3 水平随着冷暴露时间的延长而增加 ;( 2 )冷暴露持续激活布氏田鼠交感神经系统 ;( 3)急性冷暴露对布氏田鼠HPA轴的激活不明显 ,慢性冷暴露布氏田鼠HPA轴明显被激活 ,正中隆起促肾上腺皮质激素释放激素 (CRH)及血清皮质酮水平均增加 ,这可能是交感神经系统作用的结果 ;( 4 )下丘脑精氨酸加压素 (AVP)含量在冷暴露过程中变化不明显。冷暴露布氏田鼠的产热受到甲状腺激素、肾上腺皮质激素、交感神经等多种神经内分泌因素的综合调节     

布氏田鼠母体青春期捕食风险应激对后代反捕食行为和HPA轴基础活动水平的影响

本研究以28日龄的青春期雌性布氏田鼠作为亲代实验动物,每天分别暴露于蒸馏水、兔尿和猫尿60min,连续18d,成年后与正常雄鼠交配.随后检测其子代在28日龄(青春期)和90日龄(成年期)时暴露于这3种气味源的行为反应,以及下丘脑促肾上腺皮质激素释放激素、血浆促肾上腺皮质激素和皮质酮的基础水平.结果显示:与母体青春期暴露...     

长期强迫运动对布氏田鼠体重和血清瘦素浓度的影响

动物稳定体重的维持需要能量摄入和消耗之间的平衡.运动是影响动物能量平衡的重要因素之一.为了理解运动对布氏田鼠的生理学效应,我们在室内条件下,运用踏车测定了强迫运动训练6周后动物的体重、体脂含量、摄食量和瘦素浓度的变化.摄食量采用代谢笼法测定,体脂含量采用索氏提取法,血清瘦素含量采用放免试剂盒测定.结果发现强迫运动训练6周对布氏田鼠的体重和摄食量都无显著影响,与非运动训练组田鼠相比,运动训练组田鼠的身体脂肪重量降低了3.5 g,运动组田鼠的血清瘦素水平比对照组下降了30%.对照组田鼠的血清瘦素与体脂含量具有明显的相关性,但运动组则不具有相关性.这些结果表明在强迫运动训练期间布氏田鼠不是通过增加食物摄入,而可能是通过动员贮存的脂肪和减少非活动性能量消耗等方式来维持自身的能量平衡.瘦素在长期强迫运动训练过程中对身体脂肪含量的变化具有调节作用.     

SARS-CoV对幼年和成年布氏田鼠的感染研究

采用鼻腔喷雾法(CCID50=105.7)研究了SARS冠状病毒(SARS-CoV)对成年和幼年布氏田鼠的感染效果.成年动物攻毒后出现死亡,表现为口鼻有出血,肠道出血;肺组织呈出血性间质性肺炎改变,肝、脾、肾、胰腺组织均呈淤血性改变;存活动物肺组织呈间质性肺炎,局灶出血及肺气肿改变,其他脏器未见明显病变.幼年动物攻毒后未见死亡但行动较为迟缓,主要脏器未见明显异常;早期肺组织有局限性肺炎改变,且病毒分离为阳性;同居对照组的一只动物有肺组织局灶性肺炎.结果表明,SARS-CoV可以很强地感染布氏田鼠;成年布氏田鼠比幼年动物对SARS-CoV更敏感;布氏田鼠有望成为一种比较理想的小型SARS动物模型。     

温度和高脂食物对黑线仓鼠代谢产热和体脂累积的影响

能量代谢的适应性调节是小型哺乳动物应对环境季节性变化的主要策略之一。为探讨不同温度下动物在代谢产热能量支出与脂肪累积之间的权衡策略,以成年雄性黑线仓鼠为研究对象开展了3 个实验:实验1 将动物驯化于高脂和低脂食物;实验2 将动物暴露于低温(5℃)和暖温(30℃);实验3 将饲喂高脂食物的动物暴露于低温。以食物平衡法测定摄食量、摄入能和消化率,以开放式氧气分析仪测定代谢产热,以索氏抽提法测定脂肪含量。结果发现,取食高脂食物的黑线仓鼠摄食量显著减少,但脂肪累积显著增加;暖温下摄食量显著减少,但体脂含量显著增加,低温下摄食量显著升高,但体脂含量显著减少;饲喂高脂食物的黑线仓鼠在低温下摄入能显著增加,非颤抖性产热增强,但体脂含量显著降低。结果表明高脂食物对黑线仓鼠体脂累积的影响与环境温度有关,低温诱导脂肪动员,暖温促进脂肪贮存;低温下黑线仓鼠增加能量摄入不能完全补偿用于产热的能量支出,导致脂肪动员增加;暖温下代谢产热降低是脂肪累积的主要因素;与能量摄入相比代谢产热的能量支出在体脂累积的适应性变化中发挥更重要的作用。     

根田鼠母体摄食经历对幼体食物选择的影响

社会学习是动物的一种可塑性行为表型,能使动物个体获得提高其适合度的行为模式。母体对幼体的食性形成具有重要的影响。本文以栖息于青藏高原的根田鼠作为研究对象,在实验室条件下,根田鼠母体怀孕后期及哺乳期分别供给以0.01%糖精或0.1%橘子汁处理的食物,当幼体断乳时,同时供给断乳幼体糖精和橘子汁分别处理的食物,测定其食物选择。结果表明:根田鼠母体在怀孕期和哺乳期摄食经橘子汁处理的食物,断乳幼体在同时供给经橘子汁处理的食物和糖精处理的食物时,断乳幼体喜食经橘子汁处理的食物;而母体在怀孕期和哺乳期摄食经糖精处理的食物,断乳幼体在同时供给根田鼠断乳幼体经橘子汁处理和糖精处理的食物时,断乳幼体喜食经糖精处理的食物。说明根田鼠在断乳后仍喜食母体在怀孕期和哺乳期摄食过的食物种类。根田鼠栖息于季节性变化剧烈的环境中,幼体通过母体尽早学习食物选择是一种可塑性表型方式,利于其获得适应栖息地的行为模式。     

环境温度和繁殖经历对黑线仓鼠哺乳期能量收支的影响

为探讨环境温度和繁殖经历对黑线仓鼠哺乳期能量收支的影响,将连续3次繁殖的黑线仓鼠暴露于温度梯度降低的条件下(30—0℃,1℃/4d),使初次、第2和3次繁殖的动物分别暴露于30—20℃、20—10℃、10—0C℃,测定了哺乳期能量收支。与初次繁殖的动物相比,第3次繁殖组动物的摄食量显著增加,静止代谢率、非颤抖性产热、褐色脂肪组织细胞色素c氧化酶(COX)活性和血清T3水平显著增加,而断乳时胎仔重显著降低。结果表明:(1)低温下繁殖的黑线仓鼠处于负能量平衡,在自身维持和哺育后代的能量分配之间存在权衡,低温下产热增加,繁殖输出减少;(2)黑线仓鼠可能感知环境温度的变化,在连续降低温度的条件下降低繁殖投资,符合"季节性投资假说"的预测。     

布氏田鼠冷暴露中褐色脂肪组织的增补及解偶联蛋白基因表达

布氏田鼠 (Microtusbrandti)随机分组暴露在冷环境 [12L∶12D ,(4± 2 )℃ ]中 12h ,1d ,3d ,7d ,14d ,2 1d和 2 8d ;对照组生活在温暖环境下 [12L∶12D ,(2 5± 2 )℃ ]。与对照组相比 ,布氏田鼠的褐色脂肪组织 (BAT)重量在冷暴露 12h～ 3d时降低 ,7～ 2 1d时则增加。 7～ 2 8d冷暴露组动物的BAT总蛋白和总DNA含量均比对照组明显提高。冷环境中的布氏田鼠解偶联蛋白 (UCP)的mRNA随时间的延长而表达上调 ,在冷暴露 2 1d时达到高峰。结果表明 ,冷暴露能够诱导布氏田鼠BAT细胞增补和UCP基因表达 ,从而使适应性产热增加。     

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.     

Different physiological roles of serum leptin in the regulation of energy intake and thermogenesis between pregnancy and lactation in primiparous Brandt's voles (Lasiopodomys brandtii)

Reproduction, especially lactation, is associated with major metabolic adaptive changes. In this study, we investigated the metabolic changes and the roles of leptin during different periods of reproduction in primiparous Brandt's voles (Lasiopodomys brandtii). Energy intake, thermogenic capacity and serum leptin levels were examined in non-reproductive, mid pregnant, late pregnant, early lactating and peak lactating voles. Voles increased body mass by nearly 70% during late pregnancy compared to the non-breeding controls. The increase in body mass was mainly due to the increase in body fat mass which increased by 56%, and the growth of the reproductive tissues and digestive organs. Lactating voles decreased body fat by nearly 27% at peak lactation compared to the controls, and 53% compared to late pregnant voles. At the same time they increased food intake significantly. Uncoupling protein 1 (UCP1) content in brown adipose tissue (BAT) decreased significantly at peak lactation. Serum leptin increased significantly in the mid pregnancy, at a time when there was no increase in body fat, and remained at this high level in late pregnancy. Leptin levels decreased after parturition and reached a nadir at peak lactation. Serum leptin was negatively correlated with energy intake during lactation, but not during pregnancy. These data suggest that Brandt's voles adjust energy intake, thermogenic capacity and body reserves to match the high energy demands for reproduction. Hyperleptinemia, without decreased energy intake suggests a state of leptin resistance during pregnancy, and hypoleptinemia during lactation might act as a signal to stimulate energy intake.     

Pre- and post-weaning cold exposure does not lead to an obese phenotype in adult Brandt's voles (Lasiopodomys brandtii)

Evidence has shown that postnatal undernutrition, overnutrition and cold stress are associated with imbalanced metabolic regulation as rodents achieve adulthood. In this study, we used a breeding colony of Brandt's voles (Lasiopodomys brandtii), a wild rodent species from the Inner Mongolia grasslands in China, to examine the effects of pre- and post-weaning cold exposure on the adult body (fat) mass, serum hormones and hypothalamic neuropeptides. Unlike laboratory rodents, vole offspring exposed to pre-weaning cold did not exhibit overweight or obese phenotypes in adulthood compared with unexposed controls. Moreover, adult male voles that remained in colder conditions had less body mass and lower serum leptin levels despite having higher food intake compared to other groups. To understand the mechanism of this unexpected regulation, hypothalamic gene expression was assessed for pre- and post-weaning cold exposure. Voles exposed to cold before weaning increased hypothalamic, orexigenic agouti-related protein (AgRP) and decreased anorexigenic proopiomelanocortin (POMC) mRNA expression at weaning. These expression changes were associated with hyperphagia and catch-up growth after weaning. Interestingly, these changes in hypothalamic neuropeptides were short lasting because in adult voles these differences were no longer apparent, which might explain why the pre-weaning, cold-exposed voles did not become obese in adulthood. These data suggest that some species do not develop an obese phenotype in response to early life cold stress.     

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.     

Large litter size increases maternal energy intake but has no effect on UCP1 content and serum-leptin concentrations in lactating Brandt’s voles (<Emphasis Type="Italic">Lasiopodomys brandtii</Emphasis>)

Lactation is the most energetically demanding period in the female mammal's life. We measured maternal energy intake, uncoupling protein 1 (UCP1) content in brown adipose tissue (BAT), serum-leptin concentration, and litter growth in lactating Brandt's voles (Lasiopodomys brandtii) with different litter sizes. Litter mass was positively related to litter size but there was no difference in pup mass at birth. Maternal gross energy intake at peak lactation was positively correlated with litter size and litter mass. Maternal resting metabolic rate (RMR) was positively correlated with litter mass, but not with litter size. No significant differences were detected in body-fat mass, serum-leptin concentration, or UCP1 in lactating voles with different litter sizes. Serum-leptin concentration was negatively correlated with energy intake during lactation. Our data did not support the hypothesis that there is a trade-off in energy allocation between maternal maintenance and offspring growth in lactating Brandt's voles, but support the idea that if the mothers with ten pups should have less energy available for their maintenance than mothers raising fewer pups. Also, leptin is probably not the only factor that induces the high energy intake in mothers with large litter sizes, although it was involved in the regulation of energy intake during lactation.     

单宁酸对布氏田鼠能量代谢的影响

为了解单宁酸对成年布氏田鼠(Lasiopodomys bandtii**)能量代谢和产热的影响,本文采用含0、3.3%和6.6%单宁酸浓度的食物饲喂布氏田鼠21 d,对其体重、基础代谢率、非颤抖性产热和能量收支等进行了测定。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;能量摄人采用食物平衡法测定。结果发现:(1) 单宁酸食物对布氏田鼠的体重没有明显影响;(2)取食含6.6%单宁酸食物的动物的基础代谢率于第10 d高于对照组。20 d时,3组动物的基础代谢率没有显著差异;(3) 单宁酸食物对非颤抖性产热没有显著影响;(4) 食用含单宁酸食物的动物的摄人能和消化能于第10 d显著低于对照组,但第20 d时则差异不显著。这些结果表明:布氏田鼠的基础代谢率和能量摄入对单宁酸的反应具有时段性,短期内能量消耗增加,随着动物对食物的适应,生理功能恢复到正常水平。     

No evidence for a trade-off between reproductive investment and immunity in a rodent

Life history theory assumes there are trade-offs between competing functions such as reproduction and immunity. Although well studied in birds, studies of the trade-offs between reproduction and immunity in small mammals are scarce. Here we examined whether reduced immunity is a consequence of reproductive effort in lactating Brandt's voles (Lasiopodomys brandtii). Specifically, we tested the effects of lactation on immune function (Experiment I). The results showed that food intake and resting metabolic rate (RMR) were higher in lactating voles (6≤ litter size ≤8) than that in non-reproductive voles. Contrary to our expectation, lactating voles also had higher levels of serum total Immunoglobulin G (IgG) and anti-keyhole limpet hemocyanin (KLH) IgG and no change in phytohemagglutinin (PHA) response and anti-KLH Immunoglobulin M (IgM) compared with non-reproductive voles, suggesting improved rather than reduced immune function. To further test the effect of differences in reproductive investment on immunity, we compared the responses between natural large (n≥8) and small litter size (n≤6) (Experiment II) and manipulated large (11-13) and small litter size (2-3) (Experiment III). During peak lactation, acquired immunity (PHA response, anti-KLH IgG and anti-KLH IgM) was not significantly different between voles raising large or small litters in both experiments, despite the measured difference in reproductive investment (greater litter size, litter mass, RMR and food intake in the voles raising larger litters). Total IgG was higher in voles with natural large litter size than those with natural small litter size, but decreased in the enlarged litter size group compared with control and reduced group. Our results showed that immune function is not suppressed to compensate the high energy demands during lactation in Brandt's voles and contrasting the situation in birds, is unlikely to be an important aspect mediating the trade-off between reproduction and survival.     

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.     

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.     

Cold exposure does not decrease serum leptin concentration,but increases energy intake and thermogenic capacity in pregnant Brandt's voles (Lasiopodomys brandtii)

In most mammals, maternal body mass and fat mass increase during pregnancy due to hyperphagia. These physiological changes provide the fetus with energy and nutrients and prepare the mother for the high energetic demands of lactation. In the present study, metabolic changes in response to cold and pregnancy were examined in female Brandt's voles (Lasiopodomys brandtii). At 23±1 °C, the voles increased body mass and deposited body fat during pregnancy. However, at 5±1 °C pregnant voles did not deposit body fat even though energy intake increased above the level in the warm. Serum leptin concentration increased during pregnancy and was not influenced by cold exposure. Thermogenic capacity, as indicated by uncoupling protein 1 (UCP1) content in brown adipose tissue (BAT), increased in cold-exposed pregnant voles. The number and mass of fetuses were not affected by cold exposure. Our data may indicate the importance of an increased serum leptin concentration for a successful outcome of the pregnancy and also the independence of leptin secretion from body fat in pregnant voles. It also implies the need to develop central leptin resistance with respect to control of energy balance for pregnant voles.     

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.