Intracerebroventricular administration of novel glucagon-like peptide suppresses food intake in chicks

Glucagon-related peptides such as glucagon, glucagon-like peptide-1, and oxyntomodulin suppress food intake in mammals and birds. Recently, novel glucagon-like peptide (GCGL) was identified from chicken brain, and a comparatively high mRNA expression level of GCGL was detected in the hypothalamus. A number of studies suggest that the hypothalamus plays a critical role in the regulation of food intake in mammals and birds. In the present study, we investigated whether GCGL is involved in the central regulation of food intake in chicks. Male 8-day-old chicks (Gallus gallus) were used in all experiments. Intracerebroventricular administration of GCGL in chicks significantly suppressed food intake. Plasma glucose level was significantly decreased by GCGL, whereas plasma corticosterone level was not affected. Central administration of a corticotrophin-releasing factor (CRF) receptor antagonist, α-helical CRF, attenuated GCGL-suppressed food intake. It seems likely that CRF receptor is involved in the GCGL-induced anorexigenic pathway. All our findings suggest that GCGL functions as an anorexigenic peptide in the central nervous system of chicks.     

Histochemical study of the myelin-associated carbohydrates.

Myelin-associated carbohydrates were studied by means of histochemical techniques in the central nervous system of birds and mammals. Polianions in the surface of myelin and in interfascicular oligodendroglia were detected using histochemical techniques. Glycoproteins were studied by means of concanavalin A. The Con-A-PO-DAB sequence was used. Concanavalin-A-binding sites were detected in oligodendroglia and on the myelin surface. Similar results were observed in both birds and mammals. The processes of the interfascicular oligodendroglia also contain carbohydrates. A close association between the carbohydrates of these glial processes and the myelin surface carbohydrates was demonstrated, and their probable identity is assumed.     

The expression in eukaryotes of a tyrosine kinase which is reactive with pp60v-src antibodies

All specimens of Eumetazoa and Parazoa, ranging from mammals, birds, teleosts, sharks, lampreys, amphioxus, insects, down to sponges showed the pp60c-src associated kinase activity, indicating that c-src, which is the cellular homologue of the oncogene v-src of Rous sarcoma virus (RSV) is probably present in all multicellular animals. Protozoa and plants did not show pp60c-src kinase activity. The degree of c-src expression depends on the taxonomic rank of the Eumetazoa tested, and is organ-specific with nervous tissues displaying the highest kinase activities. In the central nervous system of mammals and birds we found a high c-src expression, and in that of the lampreys, amphioxus, and insects the lowest. Unexpectedly, total extracts of sponges showed an amount of pp60c-src kinase activity similar to that of brain cell extracts of mammals and birds. These findings suggest that pp60c-src is a phylogenetic old protein that might have evolved together with the multicellular organisation of Metazoa, and that might be of importance in proliferation and differentiation of nontransformed cells.     

The Expression in Eukaryotes of a Tyrosine Kinase Which is Reactive with pp60v-src Antibodies

Abstract. All specimens of Eumetazoa and Parazoa, ranging from mammals, birds, teleosts, sharks, lampreys, amphioxus, insects, down to sponges showed the pp60 ^c-src associated kinase activity, indicating that c-src , which is the cellular homologue of the oncogene v-src of Rous sarcoma virus (RSV) is probably present in all multicellular animals. Protozoa and plants did not show pp60 ^c-src kinase activity.
The degree of c-src expression depends on the taxonomic rank of the Eumetazoa tested, and is organ-specific with nervous tissues displaying the highest kinase activities. In the central nervous system of mammals and birds we found a high c-src expression, and in that of the lampreys, amphioxus, and insects the lowest. Unexpectedly, total extracts of sponges showed an amount of pp60 ^c-src kinase activity similar to that of brain cell extracts of mammals and birds. These findings suggest that pp60 ^c-src is a phylogenetic old protein that might have evolved together with the multi-cellular organisation of Metazoa, and that might be of importance in proliferation and differentiation of nontransformed cells.     

Effects of intracranial prolactin administration on maintenance of incubation readiness, ingestive behavior, and gonadal condition in ring doves

Systemic administration of prolactin (PRL) reportedly maintains readiness to sit on eggs, increases body weights and liver weights, and reduces gonadal and reproductive tract tissue weights in male and female ring doves. To determine if these effects are mediated by PRL-induced changes in the central nervous system, ring doves were isolated from their mates, nests, and eggs on Day 4 of incubation and given twice-daily intracerebroventricular injections of PRL (1 microgram, 0.031 IU) or saline vehicle (2 microliter) during the next 10 days. Food and water consumption were monitored daily during treatment and tests for incubation behavior and observation of organ weight changes were conducted at the end of the period. The incidence of incubation behavior in the PRL-treated group was not significantly different from that in the control group and was significantly lower than that reported in a previous study following subcutaneous PRL injections. However, gonadal and reproductive tract tissue weights were markedly reduced and food and water consumption were significantly elevated in PRL-treated birds. Body weights and liver weights were also increased following PRL administration. In contrast, crop sac weight did not increase in the PRL treated birds, thereby indicating that the effects of icv prolactin treatment were not mediated by increased plasma PRL levels and peripheral target organ stimulation. These results suggest that PRL can act directly on the brain to inhibit gonadotropin release and to stimulate ingestive behavior but central effects of PRL alone are not sufficient to maintain incubation readiness.     

Central and peripheral effects of ghrelin on energy balance, food intake and lipid metabolism in teleost fish

Ghrelin was first identified and characterized from rat stomach as an endogenous ligand for the growth hormone secretagogue receptor. Ghrelin and its receptor system are present not only in peripheral tissues such as stomach and intestine, but also in the central nervous system of mammals. Interestingly, administration of ghrelin induces an orexigenic effect and also modifies locomotor activity, suggesting its involvement in feeding control and the regulation of energy balance, in addition to the regulation of growth hormone release. Information about ghrelin in non-mammals, such as teleost fish, has also been increasing, and important data have been obtained. An understanding of the evolutionary background of the energy regulation system and the central and peripheral roles of ghrelin in teleost fish could provide indications as to their roles in mammals, particularly humans. In this review, we overview the central and peripheral effects of ghrelin on energy balance, locomotor activity, and lipid metabolism in teleost fish.     

Provocative Aspects of Pictures of Animals in Confined Settings

Abstract

The perceptual aspects of various animal pictures were studied to assess their aesthetic appeal in a high-fidelity interior mock-up of the proposed International Space Station. We examined a variety of mammals in light of two ecologically important attributes—the direction of their gazes and their apparent distance from the viewer—that could conceivably promote differences in subjective attitudes and sympathetic nervous system arousal, the latter reflected by changes in pupillary dilation. Another point of examination was the amount of picture area occupied by various birds and mammals. Slides were projected on a simulated video monitor, and subjects rated the images using scales of preference, interest, familiarity, and mock-up enhancement. Results showed that nearby, staring animals elicited more physiological arousal and less favorable attitudes than did nearby animals averting their gazes; animals staring from greater distances were clearly the most preferred, interesting, and provided the greatest mock-up enhancement. Animals occupying larger picture areas were more arousing than those occupying smaller areas, and, irrespective of scale, birds enhanced the mock-up more than mammals did. These findings suggest that pictures of animals, especially birds, can enhance the aesthetic appeal of confined, technical settings, though large pictures of nearby, staring mammals might create an inappropriately threatening context.     

A PROCEDURE FOR THE MEASUREMENT OF HEMICHOLINIUM-3 IN BRAIN TISSUE

Abstract— The natural fluorescence of hemicholinium-3 (HC-3) was used to provide a method for determining its concentration in brain tissue following intraventricular administration of the compound to rats and rabbits. When hemicholinium-3 was perfused through the cerebral ventricles of the rabbit, the highest concentration was found in the pons-medulla oblongata. The effect of a number of compounds on the uptake of hemicholinium-3 in the brain was studied in rats. Choline and tetramethylammonium significantly reduced the uptake of HC-3 from the cerebral ventricles but tetraethylammonium, physostigmine and atropine had no effect. The results are discussed in relation to the known effects of hemicholinium-3 in the central nervous system.     

Anti-analgesic and anti-amnesic effect of complement C3a

In the present study, we found that complement C3a exerted central effects after intracerebroventricular administration in mice. At doses of 3 and 10 pmol/mouse, the peptide showed an antagonistic effect on analgesia induced by morphine and U-50488H, known to be mu- and kappa-opioid receptor agonists, respectively. Moreover, complement C3a improved scopolamine- and ischemia-induced amnesia at a dose of 10 pmol/mouse. Anti-analgesia was not observed by C3a des-Arg at 10 pmol/mouse. The present findings suggest that complement C3a may act as a peptide with anti-opioid activity in the central nervous system.     

Experimental production of congenital malformation of the central nervous system in rat fetuses by single dose intragastric administration of ethylenethiourea

Ethylenethiourea (ETU) is a degradation product from ethylenebisdithiocarbamate such as Zineb and Maneb which have been extensively used in food crops and ornamental plants. Khera (1973, 1975, 1977) reported that administration of ETU to pregnant rats could induce anomalies in the visceral organs and the central nervous system of fetuses in food toxicology. From this point, in an attempt to better understand the pathomechanism of teratogenesis in the central nervous system, we have studied the effects of ETU on the central nervous system of rat fetuses. In this study, pregnant Sprague Dawley (SD) rats were used and subjected to ETU. Various types of congenital malformations of the central nervous system are presented in rat fetuses including spinal dysraphism associated with hindbrain crowding, exencephaly, meningoencephalocele, microencephaly, hydraencephaly and hydrocephalus. Each depended on the gestation days of the ETU administration and dosages.     

Of mice and wrens: the relation between abundance and geographic range size in British mammals and birds

We examine the relation between population size and geographic range size for British breeding birds and mammals. As for most other assemblages studied, a strong positive interspecific correlation is found in both taxa. The relation is also recovered once the phylogenetic relatedness of species has been controlled for using an evolutionary comparative method. The slope of the relation is steeper for birds than for mammals, but this is due in large part to two species of mammals that have much higher population sizes than expected from their small geographic ranges. These outlying mammal species are the only ones in Britain to be found only on small offshore islands, and so may be exhibiting density compensation effects. With them excluded, the slope of the abundance–range size relation for mammals is not significantly different to that for birds. However, the elevation of the relation is higher for mammals than for birds, indicating that mammals are approximately 30 times more abundant than birds of equivalent geographic range size. An earlier study of these assemblages showed that, for a given body mass, bats had abundances more similar to birds than to non-volant mammals, suggesting that the difference in abundance between mammals and birds might be due to constraints of flight. Our analyses show that the abundance–range size relation for bats is not different for that from other mammals, and that the anomalously low abundance of bats for their body mass may result because they have smaller than expected geographic extents for their size. Other reasons why birds and mammals might have different elevations for the relation between population size and geographic range size are discussed, together with possible reasons for why the slopes of these relations might be similar.     

中枢神经系统中的胃泌素释放肽：在厌恶性情绪记忆中的作用及机制研究

胃泌素释放肽(gastrin-releasing peptide,GRP)是蛙皮素(bombesin,BB/BN)在哺乳动物中的同系物,在中枢神经系统中广泛分布,是一种重要的脑内神经调质,参与动物的多种生理功能和本能行为,在大脑的高级功能方面也发挥一定的作用.在神经系统中,随着GRP水平的改变,动物的记忆特别是与恐惧、焦虑相关记忆的形成、巩固和消退以及突触可塑性均发生不同程度的变化.GRP及其受体还被认为与神经系统性疾病有关,是潜在的神经系统性疾病的治疗靶点,但其相关的机制尚未明确.很多研究者基于不同实验方法提出了相关假设.本文从传统药理学、遗传学和电生理学方面对GRP系统在厌恶性情绪驱动的记忆、突触可塑性变化以及在中枢神经系统中的作用机制进行综述,希望为进一步明确GRP系统在中枢神经系统中的作用研究提供新的思路.     

Alpha-melanocyte stimulating hormone plays an important role in the regulation of food intake by the central melanocortin system in chicks

Proopiomelanocortin (POMC, a precursor of melanocortin peptides) neurons in the hypothalamus play an important role in the central regulation of food intake in mammals. There is evidence that human melanocortin peptides alpha-, beta- and gamma2-melanocyte-stimulating hormone (α-, β- and γ2-MSH) significantly decreased food intake in chickens. However, the amino acid sequences of β- and γ2-MSH of chickens are different from those of humans whereas the amino acid sequence of α-MSH is conserved between these species. In the present study, we examined the effects of the central administration of α-, chicken β-, and chicken γ2-MSH on food intake in chicks. Central administration of α-MSH significantly suppressed food intake in chicks. In contrast, β- and γ2-MSH did not influence food intake in chicks. Central administration of HS014, a melanocortin 4 receptor antagonist, significantly reversed the anorexigenic action of α-MSH, suggesting that this action is mediated by the melanocortin 4 receptor in chicks as well as in mammals. These results suggest that α-MSH may play an important role in the regulation of food intake by the central melanocortin system in chicks.     

Croton zehntneri essential oil: effects on behavioral models related to depression and anxiety.

Croton zehntneri (Cz), a popular plant used to treat "nervous disturbance", contains a complex mixture of compounds, including substances exhibiting central nervous system activity. The effects of Cz essential oil administration (p.o.) on the rat's central nervous system were studied in behavioral models used to evaluate anxiety and antidepressive drugs. The results showed that administration of Cz essential oil: 1) increased the immobility duration measured in the forced swimming test as compared to control group (control = 89.8 +/- 45.8; 1 microl = 153.0 +/- 48.7; 3 microl = 157.4 +/- 45.3; 10 microl = 145.3 +/- 51.0); 2) reduced the locomotion frequency observed in the open field (control = 62.5 +/- 22.7; 3 microl = 38.0 +/- 13.5; 10 microl = 39.2 +/- 22.2); 3) had no effect on the experimental group (1 microl) observed in open field; 4) had no effect on animals tested in social interactions, plus-maze and holeboard tests. These data suggest that Cz oil produced central depressor effects in rats without any anxiety alterations. These results may explain the popular use of this plant in Brazilian folk medicine for treating "nervous disturbances".     

Trk neurotrophin receptor-like proteins in the teleost Dicentrarchus labrax

In recent years, data have accumulated suggesting that the role of neurotrophins and Trk receptors may not be limited to the nervous system, and the presence of these substances has been detected in a variety of vertebrate and invertebrate non-nervous tissues. This study was designed to map the expression of immunoreactivity (IR) for Trk-like proteins in alevins of the teleost Dicentrarchus labrax, with particular emphasis on non-nervous structures. We used antibodies against specific epitopes of the intracellular domain of these proteins, a region that is highly conserved in phylogeny. Trk-like IR was seen in segregate cell populations of the nervous system, and non-nervous tissues. In the central nervous system TrkA-like and TrkC-like IR was abundant, whereas TrkB-like IR was restricted to a low number of brain areas. Expression of Trk-like protein IR was observed in the peripheral nervous system and sensory organs, with the exception of the lateral line organ. Outside the nervous system, TrkA-like IR was mainly found in different epithelia, TrkB-like IR in the endocrine and digestive system, and TrkC-like IR in the cardiovascular and immune systems. The gills showed IR for all three Trk-like proteins, whereas they were absent from the gonads. Furthermore, scattered cells positive for Trk-like proteins were found in most of the investigated tissues. The distribution of Trk-like IR in this teleost is compared with that of mammals and birds, which it often paralleled, and the possible role of neurotrophins and Trk-like receptor proteins in different non-neuronal tissues is discussed.     

Neurophysiological and Behavioral Changes in Non-Target Wildlife Exposed to Organophosphate and Carbamate Pesticides: Thermoregulation, Food Consumption, and Reproduction

Originally utilized or developed as human poisons, anticholinesterasecompounds are among the most widely used pesticides in the worldand non-target wildlife are frequently exposed. Because thesecompounds primarily act by inhibiting acetylcholinesterase atsynapses within the central and peripheral nervous systems,the potential for altering physiological and behavioral responsesessential for survival and reproduction in exposed animals isgreat. We review the effects of acute but sublethal exposureto organophosphates and carbamates on thermoregulation (hypothermia),food consumption (anorexia and altered foraging behavior), andreproduction (altered hormone levels, reductions in clutch andlitter size, and alterations in reproductive behavior), andthe mechanisms believed to cause them. We believe these arethe direct toxic effects most likely to reduce populations offree-living birds and mammals within treated areas. Data fromstudies of captive birds and laboratory mammals and free-livingindividuals given controlled dosages are included with an emphasison information published within the last 5 years. The limitationsof existing data for determining the biological and regulatorysignificance of these effects are discussed.     

Circadian rhythms of indoleamines and serotonin N-acetyltransferase activity in the pineal gland

Conclusion The circadian rhythm of melatonin synthesis in the pineal glands of various species has been summarized. The night-time elevation of melatonin content is in most if not all cases regulated by the change of N-acetyltransferase activity. In mammals, the N-acetyltransferase rhythm is controlled by the central nervous system, presumably by suprachiasmatic nuclei in hypothalamus through the superior cervical ganglion. In birds, the circadian oscillator that regulates the N-acetyltransferase rhythm is located in the pineal glands. The avian pineal gland may play a biological clock function to control the circadian rhythms in physiological, endocrinological and biochemical processes via pineal hormone melatonin.     

Cannabinoids protect astrocytes from ceramide-induced apoptosis through the phosphatidylinositol 3-kinase/protein kinase B pathway

Cannabinoids, the active components of marijuana and their endogenous counterparts, exert many of their actions on the central nervous system by binding to the CB(1) cannabinoid receptor. Different studies have shown that cannabinoids can protect neural cells from different insults. However, those studies have been performed in neurons, whereas no attention has been focused on glial cells. Here we used the pro-apoptotic lipid ceramide to induce apoptosis in astrocytes, and we studied the protective effect exerted by cannabinoids. Results show the following: (i) cannabinoids rescue primary astrocytes from C(2)-ceramide-induced apoptosis in a dose- and time-dependent manner; (ii) triggering of this anti-apoptotic signal depends on the phosphatidylinositol 3-kinase/protein kinase B pathway; (iii) ERK and its downstream target p90 ribosomal S6 kinase might be also involved in the protective effect of cannabinoids; and (iv) cannabinoids protect astrocytes from the cytotoxic effects of focal C(2)-ceramide administration in vivo. In summary, results show that cannabinoids protect astrocytes from ceramide-induced apoptosis via stimulation of the phosphatidylinositol 3-kinase/protein kinase B pathway. These findings constitute the first evidence for an "astroprotective" role of cannabinoids.     

A comparison of oleamide in the brains of hibernating and non-hibernating Richardson's ground squirrel (Spermophilus richardsonii) and its inability to bind to brain fatty acid binding protein

Hibernation has been suggested to cause sleep debt, and since oleamide is elevated in the central nervous system of sleep-deprived mammals we hypothesized that brains from hibernating mammals would contain more oleamide than those that were not hibernating. Oleamide was 2.6-fold greater in brains of hibernating Richardson's ground squirrel (Spermophilus richardsonii) than in euthermic brains. Additionally, brain fatty acid-binding protein did not bind oleamide and does not represent a solubilized pool of oleamide.