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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。 相似文献
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食物的数量和质量是影响动物免疫功能的重要因素。野生动物在选择食物时是否会优先选择有利于其健康的食物?为解决该问题,我们以黑线仓鼠(Cricetulus barabensis)为研究对象,通过饲喂其喜食食物花生(Arachis hypogaea),然后检测反映健康状况的细胞免疫能力和血液指标。将30只非繁殖期成年雌性黑线仓鼠随机分为正常饲料组(normal fodder group,NF,n=10)、花生加饲料组(normal fodder plus peanuts group,NP,n=10)和花生组(Peanut,n=10),饲喂39 d后检测各项指标。结果发现Peanut组的体重增加,NP和Peanut组的摄食量降低。NP组注射植物血球凝集素(Phytohaemagglutinin,PHA)后12 h的PHA反应显著高于NF组。3组间白细胞数和淋巴细胞数在统计学上没有显著差异,但NP和Peanut组白细胞数比NF组分别高22.9%和25.0%,淋巴细胞数分别高15.0%和22.5%。NP和Peanut组红细胞数和红细胞压积显著高于NF组,而Peanut组血小板数显著高于NF和NP组。这些结果表明饲喂花生能增强黑线仓鼠的细胞免疫能力、输氧能力和凝血功能,这可能是其喜食花生的生理原因。 相似文献
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根据生活史理论,免疫功能与产热和繁殖等其他生理学功能类似,具有能量代价。然而,关于提高免疫能力的能量学代价的实验例证很少,且此类代价可能受所选择的免疫学参数和实验测定的影响。为探究提高小型哺乳动物免疫能力的能量学代价,以匙孔血蓝蛋白(Keyhole limpet haemocyanin,KLH)作为外源抗原刺激,在注射前(第0天)、注射后第5天和第10天,分别测定非繁殖期雌、雄性黑线仓鼠(Cricetulus barabensis)体重和静止代谢率(Resting metabolic rate, RMR)的变化,通过眼眶静脉丛采血技术和ELISA分析,分别测定第5天(抗IgM抗体)和第10天(抗IgG抗体)动物血清抗体含量的变化。结果显示:(1)雄鼠的体重高于雌鼠,雌、雄鼠实验组和对照组之间的体重均无差异且不随时间而增加;(2)无论雌鼠还是雄鼠,注射KLH组血清中抗IgM和抗IgG抗体的含量均高于注射生理盐水的对照组动物;(3)注射KLH前后,RMR既无性别差异,也无组间差异,同一组动物的RMR均不随取样时间点而变化(KLH注射后第5天和第10天)。结果表明,单一的KLH刺激激活了黑线仓鼠的体液免疫,但在能量不受限的情况下不影响体重和能量收支的变化。有两种可能的解释:黑线仓鼠增强的体液免疫可能以免疫系统内另一免疫组分活动的降低作为代价,或它对体液免疫应答具有构建能力,温和的免疫刺激不伴随额外的能量学代价。 相似文献
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为探讨高脂食物对小型哺乳动物能量代谢的影响及其与基础代谢率(Basal metabolic rate, BMR)的关系,将成年雌性黑线仓鼠(Cricetulus barabensis)分为高、低BMR组,每组再随机分为低脂、高脂食物组,驯化6周后,测定体重、摄入能和代谢率,以及消化酶活力、褐色脂肪组织(Brown adipose tissue, BAT)和主要内脏器官与肌肉的细胞色素c氧化酶(Cytochrome c oxidase, COX)活性、解偶联蛋白(Uncoupling protein, UCP) mRNA表达等。结果显示,高脂食物对高、低BMR组动物体重均无显著影响。与低脂食物组相比,高脂食物组的摄食量、摄入能和消化能显著下降,小肠脂肪酶活力显著增强,消化率明显增加,但高、低BMR组的组间差异不显著。夜间代谢水平显著高于昼间,高脂食物使高BMR组的夜间代谢率显著升高。BAT、肌肉和内脏器官COX活性不受高脂食物的影响,高、低BMR组的组间差异也不显著。高脂食物组仅肝脏UCP2表达显著上调。结果表明,能量摄入和消化系统形态及功能的可塑性调节是黑线仓鼠应对高脂食物的主要策略;黑线仓鼠的代谢率具有显著的昼夜节律,既受高脂食物的影响,也与动物自身的BMR水平有关,但UCP表达具有组织特异性,这可能不是导致BMR个体差异的因素。 相似文献
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动物的免疫功能是影响动物适合度的重要因素之一。本文以根田鼠(Microtus oeconomus)为研究对象,在野外围栏条件下,通过球虫感染和混合驱虫药处理,测定根田鼠的植物血凝素反应(Phytohemagglutinin,PHA)、血清抗匙孔血蓝蛋白(Keyhole limpet haemoeyanin,KLH)的IgG 水平和血象参数,探讨寄生物感染对免疫功能的影响。结果表明,根田鼠随球虫感染率和感染强度的增加,对PHA的反应峰值降低、血清抗KLH的IgG水平、白细胞总数、淋巴细胞的百分比及血浆蛋白含量明显下降、嗜碱性粒细胞的百分比增加,嗜酸性粒细胞、嗜中性粒细胞和单核细胞的百分比未检出显著变化。由此说明,球虫感染降低了根田鼠的细胞免疫和体液免疫功能。 相似文献
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黑线仓鼠的食物与食量 总被引:6,自引:0,他引:6
作者从1983年至1989年,在河北省三个不同的气候区,对农田中的黑线仓鼠(Cricetulus,bara-bensis)的食物与食量进行了调查。结果表明,黑线仓鼠主要取食农作物种子。同时取食草籽和根、茎、叶、花、果实及动物性食物。不同地区、不同作物地、不同季节和年度、不同性别鼠的食物差异显著。食物差异与鼠的种群繁值及数量动态有关。月夹捕率与颊囊中食物的总检出率和种子检出率正相关非常显著。直线回归方程式分别为y=38.388+2.866x n=60 r=0.343>r_(0.01)=0.325和y=29.734+2.669x r=0.394>r_(0.01360)=0.325。黑线仓鼠对食物的选择,主要受到食物质量的影响,同时也受到食物频度、作物的物候变化、动物的群落结构、种群密度、种内与种间竞争等多种因素的综合影响。在不同的时间和栖息地影响它食物选择的主要因素不同。日食量4-5g。 相似文献
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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。 相似文献
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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。 相似文献
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嫩江下游人工林中黑线姬鼠与黑线仓鼠的消化道形态及其取食策略 总被引:3,自引:1,他引:2
对嫩江下游流域人工林区两同域共存优势种黑线姬鼠东北亚种(Apodemus agrarius mantchuricus)与黑线仓鼠三江平原亚种(Cricetulus barabensis manchuricus)夏季主要食物组成及消化道形态结构的适应性变化进行了比较分析.二者均以当年生植物嫩茎、叶、种子及昆虫为主要取食对象,但黑线姬鼠对茎和叶的采食频次小于黑线仓鼠,而种子、根和昆虫类在黑线姬鼠的食物中出现的频次则相对较高.与食物组成相适应,黑线仓鼠的胃、盲肠和大肠在长度及重量上均显著大于黑线姬鼠,这是黑线仓鼠对高纤维和低蛋白食物的适应性调整.研究结果表明,两种啮齿动物在长期的进化中产生了不同的食物资源利用模式,而其消化道形态结构的变化则可能是其在长期的种间竞争和进化压力下进行食物资源分享的一种功能性反应. 相似文献
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Food restriction(FR) and refeeding(Re) have been suggested to impair body mass regulation and thereby making it easier to regain the lost weight and develop over-weight when FR ends. However, it is unclear if this is the case in small mammals showing seasonal forging behaviors. In the present study, energy budget, body fat and serum leptin level were measured in striped hamsters that were exposed to FR-Re. The effects of leptin on food intake, body fat and genes expressions of several hypothalamus neuropeptides were determined. Body mass, fat content and serum leptin level decreased during FR and then increased during Re. Leptin supplement significantly attenuated the increase in food intake during Re, decreased genes expressions of neuropepetide Y(NPY) and agouti-related protein(AgRP) of hypothalamus and leptin of white adipose tissue(WAT). Hormone-sensitive lipase(HSL) gene expression of WAT increased in leptin-treated hamsters that were fed ad libitum, but decreased in FR-Re hamsters. This indicates that the adaptive regulation of WAT HSL gene expression may be involved in the mobilization of fat storage during Re, which partly contributes to the resistance to FR-Re-induced overweight. Leptin may be involved in the down regulations of hypothalamus orexigenic peptides gene expression and consequently plays a crucial role in controlling food intake when FR ends. 相似文献
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Food restriction induces a loss of body mass that is often followed by rapid regaining of the lost weight when the restriction ends, consequently increasing a risk of development of obesity. To determine the physiological and behavioral mechanisms underlining the regaining, striped hamsters were restricted to 85% of initial food intake for 4 weeks and refed ad libitum for another 4 weeks. Changes in body mass, energy budget, activity, body composition and serum leptin level were measured. Body mass, body fat mass and serum leptin level significantly decreased in food-restricted hamsters, and increased when the restriction ended, showing a short “compensatory growth” rather than over-weight or obesity compared with ad libitum controls. During restriction, the time spent on activity increased significantly, which was opposite to the changes in serum leptin level. Food intake increased shortly during refeeding, which perhaps contributed to the rapid regaining of body mass. No correlation was observed between serum leptin and energy intake, while negative correlations were found in hamsters that were refed for 7 and 28 days. Exogenous leptin significantly decreased the time spent on activity during food restriction and attenuated the increase in food intake during refeeding. This suggests that low leptin in restricted animals may function as a starvation signal to induce an increase in activity behavior, and high leptin likely serves as a satiety signal to prevent activity during refeeding. Leptin may play a crucial role in controlling food intake when the restriction ends, and consequently preventing overweight. 相似文献
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Small mammals in the temperate area often face fluctuations in food availability. Changes in food availability may have a great influence on an animals' immunity, which is important to their survival. We tested the hypothesis that cellular and humoral immunity would be suppressed by food restriction and restored to control levels by refeeding in Mongolian gerbils Meriones unguiculatus. Forty adult male gerbils were randomly divided into food-restricted (80% of baseline food intake) and food ad lib. groups. Similarly, another 40 adult male gerbils were also randomly assigned to two groups: a group for which food was restricted for 36 d and then provided ad lib. and a group that was continuously fed ad lib. Half of the gerbils in each group were injected with phytohemagglutinin (PHA) and keyhole limpet hemocyanin solution to assess cellular and humoral immunity, respectively; the others were injected with sterile saline as control groups. Food-restricted gerbils had significantly lower body mass, body fat mass, dry thymus mass, wet and dry spleen mass, and serum leptin levels than those of the controls, whereas refeeding restored these parameters to the controls. Both food restriction and refeeding had no significant effect on PHA response indicative of cellular immunity, immunoglobulin G and immunoglobulin M concentrations, and white blood cells. We also found that food restriction decreased corticosterone levels in food-restricted gerbils, while refeeding increased corticosterone levels in refed gerbils compared with the controls. Our results suggest that cellular and humoral immunity were not affected by food restriction and refeeding in gerbils. 相似文献
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1. Organisms must contend with seasonal fluctuations in energy availability. To maintain a positive energy balance year-round, a number of adaptations have evolved including seasonal changes in reproduction, energetics and immunity. Photoperiod is the primary environmental signal most animals use to predict seasonal events. Despite the established link between energetics and immune function, little is known regarding how changes in energy availability affect immunity.
2. The goal of the present study was to determine the effects of food restriction on photoperiodic changes in reproduction and immune function in the Siberian hamster ( Phodopus sungorus ). Adult hamsters were housed in long or short days and were food restricted or fed ad libitum . Immune responses were quantified by measuring specific antibody production and bacterial killing capacity.
3. Food restriction decreased body and relative reproductive masses in long-day animals. Antibody responses, but not bacterial killing ability, were enhanced in food restricted short-day animals as compared with ad libitum fed controls. We also found differential effects of body fat on immune responses depending on the immune measure.
4. The effects of food restriction on immune function appear to vary based on the restriction regimen, the response measured, and the physiological state of the organism including energy balance, metabolic rate and reproductive status.
5. In conclusion, these results suggest that a wide range of factors can differentially affect immune function. In addition, these effects may vary based on the specific response examined. Future studies should include a variety of measurements to provide a more integrative and accurate picture of reproductive, energetic, and photoperiodic effects on immune function. 相似文献
2. The goal of the present study was to determine the effects of food restriction on photoperiodic changes in reproduction and immune function in the Siberian hamster ( Phodopus sungorus ). Adult hamsters were housed in long or short days and were food restricted or fed ad libitum . Immune responses were quantified by measuring specific antibody production and bacterial killing capacity.
3. Food restriction decreased body and relative reproductive masses in long-day animals. Antibody responses, but not bacterial killing ability, were enhanced in food restricted short-day animals as compared with ad libitum fed controls. We also found differential effects of body fat on immune responses depending on the immune measure.
4. The effects of food restriction on immune function appear to vary based on the restriction regimen, the response measured, and the physiological state of the organism including energy balance, metabolic rate and reproductive status.
5. In conclusion, these results suggest that a wide range of factors can differentially affect immune function. In addition, these effects may vary based on the specific response examined. Future studies should include a variety of measurements to provide a more integrative and accurate picture of reproductive, energetic, and photoperiodic effects on immune function. 相似文献
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Reductions in total body fat decrease humoral immunity 总被引:6,自引:0,他引:6
Demas GE Drazen DL Nelson RJ 《Proceedings. Biological sciences / The Royal Society》2003,270(1518):905-911
Mounting an immune response requires substantial energy, and it is well known that marked reductions in energy availability (e.g. starvation) can suppress immune function, thus increasing disease susceptibility and compromising survival. We tested the hypothesis that moderate reductions in energy availability impair humoral immunity. Specifically, we examined the effects of partial lipectomy (LIPx) on humoral immunity in two seasonally breeding rodent species, prairie voles (Microtus ochrogaster) and Siberian hamsters (Phodopus sungorus). Animals received bilateral surgical removal of epididymal white adipose tissue (EWATx), inguinal white adipose tissue (IWATx) or sham surgeries and were injected with the antigen keyhole limpet haemocyanin (KLH) either four or 12 weeks after surgery. In prairie voles, serum anti-KLH immunoglobulin G (IgG) did not differ significantly at four weeks. At 12 weeks, serum IgG was significantly reduced in IWATx, but not EWATx animals, compared with sham-operated animals. In Siberian hamsters, both IWATx and EWATx animals reduced serum IgG at four weeks. At 12 weeks, EWATx hamsters displayed a significant compensatory increase in IWAT pad mass compared with sham-operated hamsters, and serum IgG no longer differed from sham-operated animals. There was no significant increase in EWAT in IWATx hamsters compared with sham animals and IgG remained significantly reduced in IWATx hamsters. These results suggest that reductions in energy availability can impair humoral immunity. 相似文献
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小型哺乳动物能量代谢和脂肪累积的适应性调节是其应对自然环境变化的主要能量学策略,但在不同的生活史阶段,脂肪组织适应性调节的特征和能量机理尚不清楚。为探讨不同繁殖阶段能量代谢和脂肪累积的变化及其内分泌机理,本文测定了黑线仓鼠哺乳期和断乳后摄食量、脂肪重量,以及血清瘦素水平、下丘脑瘦素受体(Ob-Rb)和相关神经肽的基因表达。结果显示,哺乳高峰期黑线仓鼠的脂肪重量几乎降低至零,断乳后显著增加;与非繁殖对照组相比,皮下脂肪、肾周脂肪与腹腔脂肪重量分别增长了1.5倍、37.1倍和1.9倍。断乳后摄食量、血清瘦素水平显著高于非繁殖对照组,Ob-Rb基因表达显著下调,而促食与抑食神经肽的基因表达均未发生显著变化。哺育不同胎仔数的黑线仓鼠在断乳后能量摄入、静止代谢率、身体组分未出现显著差异。研究表明,在不同的繁殖阶段脂肪累积呈现显著的适应性调节,瘦素抵抗是断乳后脂肪累积补偿性增长的重要内分泌机制之一。这对迅速恢复脂肪累积,以应对将来的能量需求增加或者食物资源短缺的环境,进而提高自身的适合度具有重要意义。 相似文献