鸣禽发声控制核团内的神经递质及其在发声学习中的作用

神经递质在鸣禽脑中不仅是神经元间信号传递中介物质,还有资料表明它们通过在习鸣敏感期影响发声控制团间的突触联系的形成和突触可塑性,从而对鸣转类型的确定和巩固起重要作用,本文着重介绍了鸣禽发声控制核团内神经递质的分布及变化情况,并就神经递质在发声学习中的作用进行了探讨。     

Sex differences in structure and expression of the sex chromosome genes CHD1Z and CHD1W in zebra finches

Genes on the sex chromosomes are unique because of their sex-specific inheritance. One question is whether homologous gene pairs on the sex chromosomes, which have diverged in their sequence, have acquired different functions. We have analyzed the first homologous pair of genes (CHD1Z and CHD1W) discovered on the avian Z and W sex chromosomes of the zebra finch (Taeniopygia guttata) to examine whether functional differences may have evolved. Sequence analysis revealed that the two genes maintained a high degree of similarity especially within the C, H, and D domains, but outside of these regions larger differences were observed. Expression studies showed that CHD1W was unique to females and has the potential to produce a protein that CHD1Z does not. CHD1Z mRNA was expressed at a higher level in the male brain than in the female brain at various post-hatch ages. Reporter constructs containing the 5' flanking regions of each gene showed they had the ability to drive reporter expression in primary cell cultures. The 5' flanking region sequence of CHD1Z and CHD1W exhibited little homology, and differences in putative promoter elements were apparent. These differences between CHD1Z and CHD1W suggest that the two proteins may have diverged in their function.     

Metabolism of neuroactive steroids in day-old chick brain

Metabolism of the neuroactive steroids pregnenolone (PREG), progesterone (PROG), dehydroepiandrosterone (DHEA) and dehydroepiandrosterone sulphate (DHEAS) was investigated in day-old chick brain following direct injection of the ³H-labelled compounds into the intermediate medial mesopallium and sampling at times known to be crucial for memory formation in this brain region. ³H-label from these steroids was cleared rapidly from the brain, decreasing to barely detectable levels within 5 h. Following extraction and fractionation, the ³H-labelled brain steroids were identified by TLC, coupled with acetylation and/or separation in different solvent systems. PREG and PROG were converted within 10 min mostly to 20β-dihydropregnenolone (20β-DHPREG) and 5β-dihydroprogesterone, respectively. There was no detectable metabolism of DHEA. Label from DHEAS persisted for longer (half-time 18.9 min) than the free steroid but with no detectable metabolism other than a small amount (4%) of desulphation to DHEA. Further investigation of chick brain steroid metabolism by incubation of subcellular fractions (1–3 h, 37°C) with PREG, PROG or DHEA plus NADPH led to the formation of the following compounds: 20β-DHPREG from PREG (particularly in cytosol); 5β-dihydroprogesterone and 3α,5β-tetrahydroprogesterone from PROG and no detectable metabolism of DHEA. Following incubation of the same brain fractions and labelled steroids with NAD⁺, there was no detectable metabolism of PREG or PROG but some conversion of DHEA to androstenedione, especially in the nuclear fraction. The results suggest direct actions of DHEA(S) on the early stages of memory formation in the chick and introduce the possibility that PREG may act indirectly via 20β-DHPREG.     

Small molecule analysis and imaging of fatty acids in the zebra finch song system using time-of-flight-secondary ion mass spectrometry

Fatty acids are central to brain metabolism and signaling, but their distributions within complex brain circuits have been difficult to study. Here we applied an emerging technique, time-of-flight secondary ion mass spectrometry (ToF-SIMS), to image specific fatty acids in a favorable model system for chemical analyses of brain circuits, the zebra finch (Taeniopygia guttata). The zebra finch, a songbird, produces complex learned vocalizations under the control of an interconnected set of discrete, dedicated brain nuclei 'song nuclei'. Using ToF-SIMS, the major song nuclei were visualized by virtue of differences in their content of essential and non-essential fatty acids. Essential fatty acids (arachidonic acid and docosahexaenoic acid) showed distinctive distributions across the song nuclei, and the 18-carbon fatty acids stearate and oleate discriminated the different core and shell subregions of the lateral magnocellular nucleus of the anterior nidopallium. Principal component analysis of the spectral data set provided further evidence of chemical distinctions between the song nuclei. By analyzing the robust nucleus of the arcopallium at three different ages during juvenile song learning, we obtain the first direct evidence of changes in lipid content that correlate with progression of song learning. The results demonstrate the value of ToF-SIMS to study lipids in a favorable model system for probing the function of lipids in brain organization, development and function.     

听觉反馈与鸣禽鸣唱学习可塑性

对近年来听觉反馈在鸣禽鸣唱学习可塑性方面的研究进行综述．鸣禽的鸣曲学习与人类的语言学习都是一种依赖于听觉反馈的模仿学习．在鸣曲学习过程中,幼鸟根据听觉反馈的信息对鸣曲进行比较和修正,使其不断完善;在鸣曲维持过程中,成鸟通过听觉反馈实时监测自己鸣曲的完整性与准确性,使鸣曲保持稳定．鸣曲的输出与听觉反馈信息在鸟脑中得到整合,并指导下一次鸣唱做出适当的调整．近年来,这种感觉与运动信息在鸣禽发声核团中的整合机制逐渐引起了国内外研究者的兴趣．其中,新纹状体巨细胞核外侧部(LMAN)神经元对自鸣曲(BOS)高度选择性的听觉应答在鸣曲去稳定化过程中的作用,以及高级发声中枢(HVC)中镜像神经元的发现,为今后的研究提供了重要的线索．     

脱氢表雄酮在神经系统的作用及机制

脱氢表雄酮（DHEA）是人体性激素的前体物质,能够在大脑神经元以及星形胶质细胞中从头合成,属于神经甾体。动物实验与临床实验均显示,DHEA对神经系统具有营养、保护以及调节高级功能等作用,可能具有防治神经退行性疾病、缺血性脑病、外伤、某些精神疾病等应用前景。研究发现,DHEA的作用机制存在基因与非基因两条通路,具体表现在抗氧化应激、抗兴奋性毒性、抗细胞凋亡等多个方面。近来,在细胞与分子水平对DHEA的神经保护作用研究较多,本文就此予以综述。     

Melatonin delays clutch initiation in a wild songbird

The hormone melatonin is known to play an important role in regulating many seasonal changes in physiology, morphology and behaviour. In birds, unlike in mammals, melatonin has thus far been thought to play little role in timing seasonal reproductive processes. This view is mainly derived from laboratory experiments on male birds. This study tests whether melatonin is capable of influencing the timing of clutch initiation in wild female songbirds. Free-living female great tits (Parus major) treated with melatonin-filled implants prior to the breeding season initiated their first clutch of the season significantly later than females carrying an empty implant. Melatonin treatment did not affect clutch size. Further, melatonin treatment did not delay the onset of daily activity in the wild nor adversely affect body mass in captivity compared with controls. These data suggest a previously unknown role for this hormone in regulating the timing of clutch initiation in the wild.     

Continent-wide tracking to determine migratory connectivity and tropical habitat associations of a declining aerial insectivore

North American birds that feed on flying insects are experiencing steep population declines, particularly long-distance migratory populations in the northern breeding range. We determine, for the first time, the level of migratory connectivity across the range of a songbird using direct tracking of individuals, and test whether declining northern populations have higher exposure to agricultural landscapes at their non-breeding grounds in South America. We used light-level geolocators to track purple martins, Progne subis, originating from North American breeding populations, coast-to-coast (n = 95 individuals). We show that breeding populations of the eastern subspecies, P. s. subis, that are separated by ca. 2000 km, nevertheless have almost completely overlapping non-breeding ranges in Brazil. Most (76%) P. s. subis overwintered in northern Brazil near the Amazon River, not in the agricultural landscape of southern Brazil. Individual non-breeding sites had an average of 91 per cent forest and only 4 per cent agricultural ground cover within a 50 km radius, and birds originating from declining northern breeding populations were not more exposed to agricultural landscapes than stable southern breeding populations. Our results show that differences in wintering location and habitat do not explain recent trends in breeding population declines in this species, and instead northern populations may be constrained in their ability to respond to climate change.     

Dynamic neuromodulation of aggression by vasotocin: influence of social context and social phenotype in territorial songbirds

The homologous neuropeptides vasotocin (VT) and vasopressin (VP) influence agonistic behaviours across many taxa, but peptide–behaviour relationships are complex and purportedly species-specific. Putative species-specific effects in songbirds are confounded with context, however, such that territorial species have been tested only in resident–intruder paradigms and gregarious species have been tested only in a mate competition paradigm. Using the territorial violet-eared waxbill (Estrildidae: Uraeginthus granatina), we now show that a V_1a receptor antagonist reduces male aggression during mate competition (as in gregarious finches), but does not affect resident–intruder aggression in dominant males. However, the V_1a antagonist disinhibits aggression in less aggressive (typically subordinate) males. These results are consistent with recent data on the activation of different VT cell groups during positive and negative social interactions. Thus, VT influences aggression similarly across territorial and gregarious species, but in context- and phenotype-specific ways that probably reflect the differential activation of discrete VT cell groups.     

Steroid analysis of human apocrine secretion.

Analysis of the secretion of the human apocrine gland has shown the presence of dehydroepiandrosterone and androsterone sulfates, two androgen steroids previously identified in axillary sweat. These steroid sulfates were characterized by the gas chromatographic/mass spectrometric analysis of the odorous steroids formed on direct injection of the apocrine secretion into the host gas chromatographic injector. No spectral evidence was found for the presence of the delta16-androgen steroids which have axillary-like odors and have also been reported in axillary sweat. Cholesterol was the major steroid component of the secretion.