EP-1不育剂对黑线毛足鼠种群繁殖的影响

为检验EP-1 不育剂对野外鼠类的施用效果,2004 年在内蒙古锡林郭勒盟阿巴嘎旗白音图嘎800 hm² 草场进行了大田实验,并随后进行了逐月的夹线跟踪调查,分析了不育剂(EP-1) 对黑线毛足鼠种群繁殖的效应。结果表明,EP-1 不育剂对黑线毛足鼠种群繁殖的抑制效果良好,投药区与对照区相比,投药区黑线毛足鼠的子宫损伤率达到80% ,平均胎仔数下降到对照区的2 /3 水平,妊娠率也下降到对照区的20% 。但EP-1 不育剂对雄鼠睾丸下降率的作用不明显。一次性投放EP-1 不育剂,对黑线毛足鼠种群的繁殖作用时间可维持4 个月以上,基本可实现对整个繁殖期的控制成效,这可能与黑线毛足鼠具有储藏种子的习性,储藏药饵多次进食有关。     

黑线毛足鼠和金仓鼠血清IgG的纯化及抗血清的制备

目的 纯化黑线毛足鼠和金仓鼠血清IgG,制备兔抗金仓鼠和黑线毛足鼠血清IgG的抗血清。方法 用Hitrap Protein G亲和层析纯化黑线毛足鼠和金仓鼠血清IgG,经SDS-PAGE电泳鉴定纯度,标准免疫方法免疫兔子制备抗血清。结果 黑线毛足鼠和金仓鼠血清IgG对protein G有很高的亲合性,用Hitrap Protein G亲和层析纯化,得到高纯度黑线毛足鼠和金仓鼠IgG,利用纯化的IgG作抗原制备了高效价的抗血清,免疫双扩散测定效价达1∶32和1∶16。结论 证实黑线毛足鼠和金仓鼠IgG和Protein G具有很高的亲和性,Protein G亲和层析是纯化黑线毛足鼠和金仓鼠IgG有效的方法之一,制备了黑线毛足鼠和金仓鼠IgG的抗血清。     

黑线毛足鼠能量策略的个体差异与权衡北大核心CSCD

为了应对由冬季低温与食物匮乏所带来的挑战,动物进化出了不同的能量策略,如迁徙、换毛、贮食、储脂和蛰眠等,但个体间可能存在差异,且不同策略之间可能存在一定的权衡。有研究者认为,黑线毛足鼠(Phodopus sungorus)的贮食和日蛰眠等能量策略之间可能存在权衡。本研究测定了低温短光[(10±2)℃,光照与黑暗之比L︰D为8︰16]及自由取食或限食条件下黑线毛足鼠的体重、摄食量、贮食量、食物摄取总量、基础代谢率、体核温度与活动性等7项指标的个体差异,并探讨摄食(包括贮食)、基础代谢率与蛰眠之间是否存在权衡,以推测黑线毛足鼠对低温与食物匮乏能量响应策略的个体差异产生的原因。结果显示,在低温短光、自由取食条件下,摄食量无性别差异,雄性个体的体重大于雌性个体,体核温度及活动性低于雌性个体。在限食阶段且低温短光情况下,出现了蛰眠个体,蛰眠个体在自由取食阶段的活动性高于非蛰眠个体,即活动性高的个体更可能产生蛰眠。蛰眠个体与非蛰眠个体的基础代谢率无差异。但是,在蛰眠个体中,基础代谢率与蛰眠频率负相关,活动性与蛰眠持续时间负相关。在非蛰眠个体中,限食程度升高后活动量显著增加。此外,虽然与贮食和蛰眠可能存在负相关关系的预测相符,贮食个体均不蛰眠,但是动物是否贮食、贮食量以及食物摄取总量(包括贮食量)均与蛰眠无显著相关。本研究表明,能量对策之间的权衡并非发生于贮食和蛰眠之间,而是存在于基础代谢率、活动性与蛰眠之间,不蛰眠的个体倾向于降低活动性以节约能量,而基础代谢率和自由取食阶段活动性高的蛰眠个体则拥有更低的蛰眠表达。     

黑线毛足鼠年龄和种群密度与肝毛细线虫感染率的关系

2004—2005年,在内蒙古锡林郭勒盟阿巴嘎旗和东乌珠穆沁旗研究了肝毛细线虫病对黑线毛足鼠种群感染情况,分析肝毛细线虫对黑线毛足鼠的感染率与鼠体年龄以及种群密度的关系。结果表明,黑线毛足鼠达到一定的年龄(或体质量)才可感染肝毛细线虫病,最低感染个体体质量为14.6g。肝毛细线虫对低龄鼠的感染检出率比较低,而对成体鼠感染检出率较高,其感染率和感染度均随着个体年龄的增长而增高(感染率与年龄:r=0.97,P<0.05;感染度与年龄:r=0.93,P<0.05)。此外,黑线毛足鼠体质量与肝毛细线虫感染率和感染度也存在显著的相关关系(感染率与体质量:r=0.99,P<0.05;感染度与体质量:r=0.95,P<0.05),黑线毛足鼠的种群密度则对肝毛细线虫的感染率(r=0.27,P>0.05)和平均感染度(r=0.41,P>0.05)没有明显的影响,其感染率可能与地区不同有关。     

Post-natal development of the pineal organ in the hamsters Phodopus sungorus and Mesocricetus auratus

Summary In Phodopus sungorus, as in other mammals, the pineal organ forms an important link in the transduction of photoperiodic information to the endocrine system. The sympathetic innervation, via the superior cervical ganglion, controls the metabolism of serotonin and melatonin in the pineal, which in turn is involved in the control of the gonads. In the present study, the post-natal development of this system was investigated. Specimens 1, 5, 10, and 15 days post partum (p.p.) and adults were treated with monoamine-oxidase-inhibitor and perfused under ether anesthesia via the aorta with a buffer containing glyoxylic acid, formaldehyde and Mg⁺⁺. The brains were then dissected out and treated according to Falck-Hillarp for fluorescence microscopy and microspectrofluorometry. Day 1: The nervi conarii had reached the pineal capsule, but only in a few cases was the pineal organ invaded and then only by a few fibers. Day 5: A rich green-fluorescing net of fibers was present in the entire organ, stalk and lamina intercalaris. No 5-HT fluorescence was observable. Day 10: Similar to the stage at 5 days a rich green-fluorescing nerve fiber net was observed throughout the pineal and a yellow fluorescence in the pineal perikarya. Day 15: The general appearance resembles the adult. The nerve fibers are masked by the intense yellow fluorescence of the pineal perikarya. Fading of the latter, however, allows the catecholamine fluorescence to be seen. Golden hamsters at an age of 15 days p.p. show a similar appearance to Phodopus at an age of 15 days. Microspectrofluorometric determinations indicated the catecholamine to be noradrenaline, and confirmed a 5-HT/5-HTP origin of the yellow fluorescence appearing between day 5 and day 10. The amount of 5-HT/5-HTP was considerably less at day 10 than at day 15 or in adults. Sympathectomy by extirpation of the superior cervical ganglion abolished the catecholamine fluorescence completely in the pineal body, stalk and lamina intercalaris.Supported by grants from the Swedish Natural Science Research Council (to P. Meurling and Th. van Veen), and the Royal Physiographic Society of Lund     

Adrenal hormones mediate melatonin-induced increases in aggression in male Siberian hamsters (Phodopus sungorus)

Among the suite of seasonal adaptations displayed by nontropical rodents, some species demonstrate increased territorial aggression in short compared with long day lengths despite basal levels of testosterone. The precise physiological mechanisms mediating seasonal changes in aggression, however, remain largely unknown. The goal of the present study was to examine the role of melatonin, as well as adrenal hormones, in the regulation of seasonal aggression in male Siberian hamsters (Phodopus sungorus). In Experiment 1, male Siberian hamsters received either daily (s.c.) injections of melatonin (15 microg/day) or saline 2 h before lights out for 10 consecutive days. In Experiment 2, hamsters received adrenal demedullations (ADMEDx), whereas in Experiment 3 animals received adrenalectomies (ADx); control animals in both experiments received sham surgeries. Animals in both experiments subsequently received daily injections of melatonin or vehicle as in Experiment 1. Animals in all experiments were tested using a resident-intruder model of aggression. In Experiment 1, exogenous melatonin treatment increased aggression compared with control hamsters. In Experiment 2, ADMEDx had no effect on melatonin-induced aggression. In Experiment 3, the melatonin-induced increase in aggression was significantly attenuated by ADx. Collectively, the results of the present study demonstrate that short day-like patterns of melatonin increase aggression in male Siberian hamsters and suggest that increased aggression is due, in part, to changes in adrenocortical steroids.     

Castration reduces male testosterone, estradiol, and territorial aggression, but not paternal behavior in biparental dwarf hamsters (Phodopus campbelli)

Biparental male hamsters, Phodopus campbelli, act as midwives during the birth of their litter and are highly responsive to an experimentally displaced pup. They also have high peripheral concentrations of estradiol, a hormone with known roles in maternal behavior. Surgical castration during the gestation of their first litter was used to investigate the source of that estradiol and the functional role of testicular sex steroids in paternal responsiveness. In Experiment I, castration reduced both testosterone and estradiol concentrations, confirming that the testes were the primary source of estradiol. However, neither paternal responsiveness nor multiple measures of reproductive success were altered by the castration. Aggression directed towards an intruder, however, was reduced by castration. In Experiment II, removal of prior experience with birth or pups also failed to alter paternal responsiveness in castrated males. Although the present results do not preclude a role for local estradiol synthesis in the brain, results do not support an association between high circulating estradiol in males and their paternal behavior.     

Paternal responsiveness in biparental dwarf hamsters (Phodopus campbelli) does not require estradiol

Males of the biparental hamster species Phodopus campbelli act as midwives and are responsive to an experimentally displaced pup. Males also have peripheral estradiol concentrations that are similar to conspecific females. Castration reduces peripheral estradiol, yet does not affect paternal responsiveness despite the known role of estradiol in maternal behavior. Synthesis of estradiol within the central nervous system, however, might not be affected by castration. Males received implants of osmotic pumps containing the aromatase inhibitor letrozole to reduce both peripheral and central estradiol concentrations. Though estradiol was effectively reduced, it had no effect on paternal responsiveness or reproductive success. Neither testosterone nor aggression directed towards an intruder was altered. Results support the emerging conclusion that estradiol is not required for the exceptional paternal behavior of male P. campbelli.     

Photoperiod-related changes in hormonal and immune status of male Siberian hamsters,Phodopus sungorus

Previously we have demonstrated that in Siberian hamsters some immune measures, especially the development of experimentally evoked peritonitis, varied in a photoperiod- and gender-dependent manner. The aim of the present study was to investigate whether the photoperiod-related differences in the activity of inflammation-involved immune cells are in this species attributed to the changes in the pineal gland function and/or hormonal status. Male hamsters housed in short day (SD), compared with those from long day (LD) conditions, exhibited significantly reduced plasma testosterone concentration and elevated cortisol and melatonin levels, the latter resulting from increased activity of hydroxyindole-O-methyltransferase (HIOMT). In LD hamsters but not in those from SD, an intraperitoneal (i.p.) injection of zymosan evoked a well-pronounced peritonitis expressed by increased free radical (ROS) production by peritoneal leukocytes (PTLs) stimulated in vitro with PMA. ROS production by these cells was additionally stimulated by both in vivo and in vitro treatment with melatonin and the latter was partially reversed by melatonin receptor antagonist luzindole. To conclude, in Siberian hamsters melatonin seems to exert rather immunostimulatory than anti-inflammatory effect, therefore other mechanisms, e.g. immunosuppressive effect of glucocorticoids, may underlay the compromised immune status observed in SD in this species.     

Daily Torpor Alters Multiple Gene Expression in the Suprachiasmatic Nucleus and Pineal Gland of the Djungarian Hamster (Phodopus sungorus)

Circadian rhythms are still expressed in animals that display daily torpor, implying a temperature compensation of the pacemaker. Nevertheless, it remains unclear how the clock works in hypothermic states and whether torpor itself, as a temperature pulse, affects the circadian system. To reveal changes in the clockwork during torpor, we compared clock gene and neuropeptide expression by in situ hybridization in the suprachiasmatic nucleus (SCN) and pineal gland of normothermic and torpid Djungarian hamsters (Phodopus sungorus). Animals from light‐dark (LD) 8∶16 were sacrificed at 8 time points throughout 24 h. To investigate the effect of a previous torpor episode on the clock, we sacrificed a group of normothermic hamsters 1 day after torpor. In normothermic animals, Per1 peaked at zeitgeber time (ZT)4; whereas, Bmal1 reached maximal expression between ZT16 and ZT19. AVP mRNA in the SCN showed highest levels at ZT7. On the day of torpor, the levels of all mRNAs investigated, except for AVP mRNA, were increased during the torpor bout. Moreover, the Bmal1 rhythm was advanced. On the day after the hypothermia, Bmal1 and AVP rhythms showed severely depressed amplitude. Those distinct amplitude changes of Bmal1 and AVP on the day after a torpor episode expression suggests that torpor affects the circadian system, probably by altered translational processes that might lead to a modified protein feedback on gene expression. In the pineal gland, an important clock output, Aanat expression, peaked between ZT16 and ZT22 in normothermic animals. Aanat levels were significantly advanced on the day of hypothermia, an effect which was still visible 1 day afterward. In summary, this study showed that daily torpor affects the phase and amplitude of rhythmic clock gene and clock‐controlled gene expression in the SCN. Furthermore, the rhythmic gene expression in a peripheral oscillator, the pineal gland, is also affected.     

Estradiol and progesterone in paternal and non-paternal hamsters (Phodopus) becoming fathers: conflict with hypothesized roles

Phodopus campbelli has an extensive paternal behavior repertoire whereas the closely-related Phodopus sungorus is not paternally responsive to a displaced pup. For the first time in a naturally paternal mammal, male estradiol and progesterone were determined during two critical phases: (1) the transition from sexually naive male to paired, expectant father that occurs in the absence of stimuli from pups (sexually naive males, paired males on G8, G12, G15, or G17 of the 18-day gestation) and (2) after pup stimuli became available to the males (paired males on days L1, L3, L5, or L12 of pup development). Hormone concentrations in naive males and between G17 and L1 (as stimuli from the birth and the pups became available to males) were also compared. Paternal responsiveness was tested on L3-L5 and confirmed species differences. Hormone concentrations in naive males were similar in the two species and males of both species had estradiol concentrations as high as fertile adult females. However, in direct contrast to predictions, estradiol concentrations were stable in P. campbelli males but increased before the birth, fell across the birth, and increased over pup development in P. sungorus males. Progesterone concentrations in P. campbelli males increased from G17 to L1 whereas a decrease had been predicted. Testosterone dynamics were consistent with previous studies. Either hormonal facilitation of paternal behavior is a hyper-variable trait that has evolved differently in different species, or, more probably, peripheral hormone concentrations are inadequate to explain the role of sex steroid hormones in paternal behavior.     

Operant behavior in dwarf hamsters (Phodopus campbelli): Effects of rate of reinforcement and reinforcer flavor variety

We investigated operant behavior in a novel species, the dwarf hamster (Phodopus campbelli). In two experiments, hamsters were trained to lever-press for food reinforcement. In Experiment 1, rate of reinforcement was manipulated across conditions using four variable-interval schedules of reinforcement (delivering one to eight reinforcers per min). As predicted, within-session decreases in responding were steepest on the richest schedule. In Experiment 2, lever-pressing was reinforced by either a constant or a variety of flavored food pellets. Within-session decreases in responding were steeper when the reinforcer flavor remained constant than when it was varied within the session. In both experiments, subjects hoarded most reinforcers in their cheek pouches rather than consuming them in the operant chambers. These results are incompatible with post-ingestive satiety variables as explanations for within-session decreases in operant responding and suggest that habituation to repeatedly presented reinforcers best accounts for subjects’ response patterns. Additionally, a mathematical model that describes behavior undergoing habituation also described the present results, thus strengthening the conclusion that habituation mediates the reinforcing efficacy of food.     

Endocrine changes in male stumptailed macaques (Macaca arctoides) as a response to odor stimulation with vaginal secretions

In mammalian species, social chemosignals are important in modulating endocrine reproductive functions. In nonhuman primates, previous studies have described a high frequency of mounting behavior by females in the follicular and periovulatory phases of the menstrual cycle. Stumptailed macaque females do not signal receptivity by means of sexual swellings, as do others macaques, therefore providing a good model in which to study chemical signaling of reproductive status. We exposed anesthetized stumptailed males to vaginal secretions of either late follicular or menses phase or to saline solution to determine the endocrine changes promoting male sexual behavior. In males exposed to follicular secretions, plasma testosterone concentrations were sustained up to 120 min after exposure. Such an effect was not observed in animals exposed to menses or saline odor sources. A luteinizing hormone surge, occurring 30 minutes after exposure to late follicular phase secretion swabs, preceded this sustained testosterone effect. The fact that late follicular scents induce sustained testosterone concentrations provides support to the idea that stumptailed males draw information concerning female reproductive status from the female's vaginal odor.