Acceleration of brain tubulin formation in the optic lobe of the chick embryo by light stimulation

The effect of light exposure on the protein patterns of optic lobe and forebrain of the chick embryo was analysed by a high-resolution micro-two-dimensional polyacryamide gel electrophoresis and computerized quantitation. Experiments were done on three groups of eggs: control group was incubated in the dark; simultaneously, in the same incubator, one group of eggs was illuminated by constant light, another by intermittent light (3 sec interval) from day 10 to day 16 of incubation. In embryos exposed to intermittent light the relative amount of tubulins was significantly increased in the optic lobe. In the frontal lobe no effect of light exposure on the concentration of tubulins was seen. The rise of tubulins in the optic lobe was only caused by intermittant light. Continuous illumination of the eggs for the same period under otherwise identical incubation conditions was ineffective.Abbreviations used BSA Bovine serum albumin - CBB Coomassie Brilliant Blue G-250 - 2D-PAGE Two dimensional polyacrylamide gel electrophoresis - IEF Isoelectric focusing - M_r Molecular weight - pI Isoelectric point - SDS Sodium dodecyl sulfate - TEMED N,N,N,N-Tetramethylethyenediamine     

Glutamate-like immunoreactivity in chick cerebellum and optic tectum

Glutamate was coupled via glutaraldehyde to bovine serum albumin. The conjugate was used for raising specific anti-glutamate antibodies. The purified antibody was used for immunostaining of chick cerebellum and optic tectum. Staining was intense in the molecular layer and in cell bodies of the granule cell layer. In the optic tectum a diffuse staining was detected in the superficial layers of stratum griseum fibrosum superficiale and in cell bodies especially in the layers a and e. Large cell bodies located in the stratum griseum centrale were also stained.     

Effects of Prenatal Phenobarbital on Benzodiazepine Receptor Development

Phenobarbital (PB) was administered to pregnant mice during days 9-21 of gestation. Forebrain and cerebellar [3H]flunitrazepam ([3H]FLU) binding was assayed in the offspring at birth and at 21 days of age. Prenatal treatment produced a decrease in the number (Bmax) of [3H]FLU receptors in both the forebrain and cerebellum at birth. A small decrease in the [3H]FLU dissociation constant (KD) values in the forebrain was also detected at birth, but no changes were seen in the [3H]FLU KD values in the cerebellum. No changes were observed in forebrain and cerebellar [3H]FLU Bmax or KD values at 21 days of age, indicating that the effects of prenatal exposure to PB on [3H]FLU binding are eliminated during the postnatal development of the forebrain and cerebellum. The receptor affinity for the triazolopyridazine CL 218,872, which distinguishes the type I and type II benzodiazepine (BDZ) receptors, was not altered by prenatal PB treatment. The coupling of the BDZ receptor to the gamma-aminobutyric acid and pentobarbital binding sites was unaffected by exposure to PB in utero.     

Spatio-temporal pattern of programmed cell death in the developing Drosophila optic lobe

A large number of cells die via programmed cell death during the normal development of the Drosophila optic lobe. In this study, we report the precise spatial and temporal pattern of cell death in this organ. Cell death in the developing optic lobe occurs in two distinct phases. The first phase extends from the start of metamorphosis to the mid-pupal stage. During this phase, a large number of cells die in the optic lobe as a whole, with a peak of cell death at an early pupal stage in the lamina and medulla cortices and the region of the T2/T3/C neurons, and a smaller number of dead cells observed in the lobula plate cortex. The second phase extends from the mid-pupal stage to eclosion. Throughout this period, a small number of dying cells can be observed, with a small peak at a late pupal stage. Most of the dying cells are neurons. During the first phase, dying cells are distributed in specific patterns in cortices. The lamina cortex contains two distinct clusters of dying cells; the medulla cortex, four clusters; the lobula plate cortex, one cluster; and the region of the T2/T3/C neurons, one cluster. Many of the clusters maintain their distinct positions in the optic lobe but others extend the region they cover during development. The presence of distinct clusters of dying cells at different phases suggests that distinct mechanisms control cell death during different stages of optic lobe development in Drosophila.     

Neurosecretory cells in the optic lobe of two aquatic coleopteran species,Dineutes indicus aube and Cybister rugulosus redt

In each optic lobe and optic peduncle of two aquatic beetles viz. Dineutes indicus and Cybister rugulosus the neurosecretory cells are observed with the help of various histochemical techniques. These cells are arranged to form a discrete group. A group in the optic lobe of both species contains about 25 to 30 neurosecretory cells. On the basis of staining properties the neurosecretory cells are classified into A and B types. These cells stain with chrome haematoxylin-phloxine and paraldehyde fuchsin, but do not stain with azan. Histochemically, the neurosecretory material is positive for proteins and shows a negative reaction for 1,2-glycols. The cells show variations in RNA contents in correlation with the state of secretory activity. Axons of the neurosecretory cell group of the optic lobe are observed directed to the optic peduncle. The axonal tract from neurosecretory cells in the optic peduncle runs towards the lateral margin of the brain.     

Neural pathways involved in mutual interactions between optic lobe circadian pacemakers in the cricketGryllus bimaculatus

The circadian locomotor rhythm of the cricketGryllus bimaculatus is primarily generated by a pair of optic lobe circadian pacemakers. The two pacemakers mutually interact to keep a stable temporal structure in the locomotor activity. The interaction has two principal effects on the activity rhythm, i.e., phase-dependent modulation of the freerunning period and phase-dependent suppression of activity driven by the partner pacemaker. Both effects were mediated by neural pathways, since they were immediately abolished after the optic stalk connecting the optic medulla to the lobula was unilaterally severed. The neural pathways were examined by recording locomotor activity, under a 13 h light to 13 h dark cycle, after the optic nerves were unilaterally severed and the contralateral optic stalk was partially destroyed near the lobula. When the dorsal half of the optic stalk was severed, locomotor rhythm mostly split into two components: one was readily entrained to the given light-dark cycle and the other freeran with a marked fluctuation in freerunning period, where the period of the freerunning component was lengthened or shortened when the onset of the entrained component occurred during its subjective night or day, respectively. The phase-dependent modulation of activity was also observed in both components. However, severance of the ventral half of the optic stalk resulted in appearance only of the freerunning component; neither the phase-dependent modulation of its freerunning period nor the change in activity level was observed. These results suggest that neurons driving the mutual interaction and the overt activity rhythm run in the ventral half of the proximal optic stalk that includes axons of large medulla neurons projecting to the cerebral lobe and the contralateral medulla.Abbreviations LD light dark cycle - freerunning period     

Development of glutamate-induced intracellular Ca2+ rise in the embryonic chick retina

Neurotransmitters affect neuronal development by regulating intracellular Ca²⁺ concentrations. We studied spatiotemporal pattern of the development of glutamate-induced intracellular Ca²⁺ rise in the embryonic chick retina, where developmental changes in mitotic activity, cell death, and synapse formation have been well established. Glutamate was bath-applied to the central part of the retina dissected at embryonic day 3 (E3) to E13, and changes in intracellular Ca²⁺ concentration were measured with Fura-2 fluorescence. The Ca²⁺ rise to glutamate first appeared at E6, reached a maximum at E9–10, and then declined before the appearance of synaptic structures (E12). Ca²⁺ rises to kainate (KA) and α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) appeared earlier and were larger in amplitude than those to N-methyl-D -aspartic acid. The KA/AMPA receptor of the E9 chick retina was permeable for Ca²⁺, suggesting the functional expression of Ca²⁺-permeable KA/AMPA receptors at the stage of retinal cell death. The Ca²⁺rise to glutamate and KA occurred intensely at the inner plexiform layer, the inner part of inner nuclear layer, and the ganglion cell layer, where the cell death occurs. The Ca²⁺ rise to high K²⁺, in contrast, occurred intensely at the nerve fiber layer and the ganglion cell layer, developing continuously from E3 until E11. Our study shows that the Ca²⁺ rise to glutamate develops with the decline of the mitotic activity of the retinal cells and is transiently enhanced during the period of cell death in the embryonic chick retina. © 1998 John Wiley & Sons, Inc. J Neurobiol 34: 113–125, 1998     

Ah receptor for 2,3,7,8- tetrachlorodibenzo-p-Dioxin: Ontogeny in chick embryo liver

Aryl hydrocarbon hydroxylase (AHH, cytochrome P₁-450) is induced in chick liver very early during embryonic development if embryos are treated with 3-methylcholanthrene–type compounds such as 3,4,3′4′-tetrachlorobiphenyl. In mammals, AHH induction is known to be mediated by the Ah receptor. Liver from embryonic and newly hatched chicks was found to contain a cytosolic receptor for 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) which has properties that are very similar to properties of the Ah receptor previously characterized in mammalian tissues. In chick embryo liver, cytosolic binding sites for TCDD were of high affinity (K_d for [3-H]-TCDD = 0.2 nM) and were specific for 3-methylcholanthrene–type inducers. The specific binding component sedimented at about 9S on sucrose density gradients prepared at low ionic strength. A high level of Ah receptor was detected in chick embryo liver by the fifth day of incubation (5 DI); this is at least 24 hours prior to the onset of AHH inducibility. The Ah receptor concentration increased from 5 DI to 8 DI, the period when chick liver is undergoing early morphological differentiation. After 8 DI, Ah receptor levels dropped substantially and remained low into the posthatching period. In contrast, AHH inducibility was high by 7 DI and remained high throughout embryonic development and into the posthatching period. The discrepancy between Ah receptor levels and the degree of AHH inducibility suggests that only a small fraction of the Ah receptor population is required for maximal AHH induction.     

The postnatal development of benzodiazepine receptor sites in the chick optic lobe is modulated by environmental lighting.

The present paper describes the ability of benzodiazepine receptor sites to undergo light mediated-plastic changes during the early postnatal development of the chick optic lobe. The postnatal development pattern of these receptors was studied under different levels of light stimulation, i.e. normal-, light-and dark-rearing. At hatching the specific binding of [3H]Flunitrazepam was 0.23 +/- 0.01 pmol/mg protein. The developmental profile shows a sharp and transient peak of receptor overexpression between the 1st and the 2nd postnatal day in three experimental groups. Between the 2nd and the 6th day significant differences were found between the three groups, being this difference maximal during the peak of overexpression. In fact, on the 2nd day the specific [3H]Flunitrazepam binding showed an increase of 17% (P < 0.0005) and a decrease of 34% (P < 0.0005) for light- and dark-reared animals as compared with normally-reared ones. The changes in receptor density were transient since from the 6th day onward they gradually disappeared, being almost identical in the three groups by the day 15. At this moment the number of benzodiazepine receptor sites stabilized at the adult level. Scatchard analysis at the 2nd postnatal day revealed that the differences observed in the high affinity benzodiazepine binding sites between the three groups were due to modifications in the total number of binding sites while the affinity remained unchanged. The maximal number of binding sites were: 2.76 +/- 0.03, 3.40 +/- 0.01 and 1.46 +/- 0.11 pmol/mg protein in normally-, light- and dark-reared chicks, respectively; while the apparent dissociation constants were unaffected.(ABSTRACT TRUNCATED AT 250 WORDS)     

Glutamic acid decarboxylase in different areas of the developing chick central nervous system

The temporal course of the development of GAD activity in GABAergic neurons was studied in the chick retina, optic lobe and cerebellum. The developmental pattern of GAD activity was similar in the three areas studied, showing typical sigmoideal curves, which reached a maximal value at the 3^rd post-hatching day. Kinetic studies during development revealed that K_m remained unchanged while V_max increased 3-fold in the retina (48.99±0.84 nmol/hr/mg protein), almost 4-fold in the optic lobe (162.77±4.32 nmol/hr/mg protein) and 3.5 fold in the cerebellum (69.30±1.26 nmol/hr/mg protein). The developmental pattern of GAD activity in homogenates of the three areas studied from dark-reared and light-reared chicks with respect to normal light-dark cycle animals showed no significant differences. These results indicate that the increase in GAD activity during development are not due to a change in the affinity for its substrate but rather to changes in the concentration of the enzyme. The developmental pattern of GAD activity in the chick visual system was not affected by environmental conditions suggesting that the developmental profile is lightindependent.     

Ivermectin Interactions with Benzodiazepine Receptors in Rat Cortex and Cerebellum In Vitro

Abstract: The anthelmintic macrolide, ivermectin, enhances the binding of benzodiazepine agonist ([³H]-diazepam) and antagonist ([³H]β-carboline ethyl ester) ligands to rat cortical and cerebellar membrane preparations. Enhancement of benzodiazepine agonist binding is partially additive with that of γ-aminobutyric acid (GABA) and is inhibited by etazolate, bicuculline, and the steroid GABA antagonist R5135. Ivermectin-stimulated benzodiazepine antagonist binding is enhanced by bicuculline and inhibited by GABA and etazolate. The modulatory effects of bicuculline are chloride-dependent. The stimulatory effects of ivermectin, while quantitatively different in cortex and cerebellum, are qualitatively similar in both brain regions and are reduced in the presence of chloride. Ivermectin effects on benzodiazepine ligand binding to the benzodiazepine receptor complex and the differences in the effects of GABA, bicuculline, and R5135 on ivermectin-stimulated agonist and antagonist binding may provide evidence for distinct differences in the recognition sites for the two classes of benzodiazepine receptor ligand and their interactions with other components of the receptor complex.     

Comparison of Benzodiazepine Receptors in Cerebellum and Inferior Colliculus

Reversible and irreversible binding of [3H]flunitrazepam was investigated in membranes from cerebellum and inferior colliculus of young and adult rats. Results indicate that in adult animals predominantly BZ1 receptors are enriched in both brain regions. In the brains of newborn animals, however, additional benzodiazepine receptor subtypes seem to exist in cerebellum as well as in inferior colliculus.     

桔小实蝇视叶结构特征及5-羟色胺能神经元的分布

桔小实蝇是重要的果蔬害虫,它对不同颜色的光表现出不同的趋性。为了明确其视觉感受的结构基础,本研究采用免疫组织化学染色技术结合激光共聚焦成像分析了桔小实蝇成虫视叶内神经髓结构组成和体积大小,并利用5-羟色胺(5-hydroxytryptamine,5-HT)抗体标记了视叶内5-羟色胺能神经元,研究了其在视叶内的分布特征及细胞体数量。结果表明,桔小实蝇成虫的视叶由视神经节层、视髓、副视髓、视小叶和视小叶板5个神经髓结构组成,其中雌成虫的视髓相对体积极显著的大于雄虫的视髓相对体积。桔小实蝇每个视叶中包含12个5-HT能神经元细胞体,位于视髓的腹内侧,副视髓的前方。视叶5个神经髓区均含5-HT能神经纤维,但它们的神经纤维来自不同的神经元。对视叶神经髓结构及5-HT能神经元分布特征的研究将为未来构建桔小实蝇视觉神经通路和阐明5-HT对视觉感受的调控机制奠定解剖学基础。     

Eye and optic lobe metamorphosis in the sunburst diving beetle, Thermonectus marmoratus (Coleoptera: Dytiscidae)

Nearly nothing is known about the transition that visual brain regions undergo during metamorphosis, except for Drosophila in which larval eyes and the underlying neural structure are strongly reduced. We have studied the larvae of the sunburst diving beetle, Thermonectus marmoratus (Coleoptera: Dytiscidae), which are sophisticated visually oriented predators characterized by six elaborate stemmata on each side of the head and an associated large optic lobe. We used general neurohistological staining and 3D reconstruction to determine how the eyes and optic lobe of T. marmoratus change morphologically during metamorphosis. We find that in third (last) instar larvae, the adult neuropils are already forming de novo dorsally and slightly anteriorly to the larval neuropils, while the latter rapidly degenerate. Larval eyes are eventually reduced to distinct areas with dark pigmentation. This complete reorganization, which may be an evolutionarily conserved trait in holometabolous insects, occurs despite the considerable costs that must apply to such a visually complex animal. Our findings are consistent with the concept that stemmata are homologous to the most posterior ommatidia of hemimetabolous insects, an idea also recently supported by molecular data.     

Extraocular dorsal signal affects the developmental fate of the optic vesicle and patterns the optic neuroepithelium

Dorsal-ventral (DV) specification in the early optic vesicle plays a crucial role in the proper development of the eye. To address the questions of how DV specification is determined and how it affects fate determination of the optic vesicle, isolated optic vesicles were cultured either in vitro or in ovo. The dorsal and ventral halves of the optic vesicle were fated to develop into retinal pigment epithelium (RPE) and neural retina, respectively, when they were separated from each other and cultured. In optic vesicles treated with collagenase to remove the surrounding tissues, the neuroepithelium gave rise to cRax expression but not Mitf, suggesting that surrounding tissues are necessary for RPE specification. This was also confirmed in in ovo explant cultures. Combination cultures of collagenase-treated optic vesicles with either the dorsal or ventral part of the head indicated that head-derived factors have an important role in the fate determination of the optic vesicle: in the optic vesicles co-cultured with the dorsal part of the head Mitf expression was induced in the neuroepithelium, while the ventral head portion did not have this effect. The dorsal head also suppressed Pax2 expression in the optic vesicle. These observations indicate that factors from the dorsal head portion have important roles in the establishment of DV polarity within the optic vesicle, which in turn induces the patterning and differentiation of the neural retina and pigment epithelium.     

The Benzodiazepine/GABA Receptor Complex: Molecular Size in Brain Synaptic Membranes and in Solution

Abstract: The molecular size of the benzodiazepine (BZ) receptor in the synaptic membrane of brain cortex (bovine or rat) was determined by an improved version of the radiation inactivation method to be 220,000. An identical size was found simultaneously for the associated γ-aminobutyric acid (GABA) receptor and for the component binding β-carboline esters. It is proposed that all three activities reside in a single protein or protein complex in the membrane. The size in solution, after extraction into Triton X-100 medium from exhaustively washed membranes, was estimated by sedimentation constant (9.4S) and by gel filtration (∼230,000 apparent MW), again with the BZ and GABA binding activities behaving identically. This size applies to the component that undergoes photoaffinity labelling by [³H]flunitrazepam in the membrane, and contains a 51,000 M_r polypeptide as the BZ-binding subunit. It is concluded that a protein complex or oligomer of 200,000–220,000 MW carries a class of BZ-binding sites and an associated class of GABA_A sites.     

The GABAA receptor complex in the developing chick optic tectum: characterization of [H]muscimol binding sites

As part of an ongoing study on the GABA_A receptor complex in the developing chick optic tectum we describe some properties of the agonist site, as labeled by [³H]muscimol, including methodological, kinetic and pharmacological aspects. 16-day embryos and 10-day chicks have been selected as representative age points for the initial characterization of the receptor, prior to more detailed developmental studies. Our data indicate the existence, in both embryos and young birds, of a single class of statistically equivalent, high-affinity, saturable binding sites, with a dissociation constant (K_d) of 80–90 nM in freeze-thawed/washed membranes, and about 8 nM in membranes additionally extracted with low concentrations of Triton X-100. Maximal densities of binding sites are nearly identical in both membrane preparations, ranging from 2 to 3 pmol/mg for the two age points considered.

The pharmacological profiles suggest that avian receptors for [³H]muscimol are generally similar to the corresponding mammalian sites, behaving as typical bicuculline-sensitive, baclofen-insensitive type A GABA receptor sites. However, bicuculline and its derivatives are less efficient displacers of [³H]muscimol in detergent-extracted membrane preparations, being in all cases, as usually, much less effective displacers than GABA agonists.

The effect of Triton X-100 on the muscimol site in the GABA_A receptor, increasing the affinity for the radioligand by a factor of 10, and diminishing the efficiency of antagonists, is considered here in terms of structural changes in the receptor, induced by the action of the detergent on the membrane microenvironment.     

中华蜜蜂工蜂视叶的胚后发育

为了研究蜜蜂视叶的胚后发育模式, 本研究通过形态解剖、免疫组织化学技术, 对中华蜜蜂Apis cerana cerana工蜂视叶的胚后发育过程进行了系统的比较研究。结果表明: 中华蜜蜂的视叶起源自幼虫早期脑内部的两个视原基。 外部视原基经过不对称的细胞分裂产生神经节母细胞, 随后这些细胞经过快速的对称分裂, 复制自身并生成视髓层神经细胞; 外部视原基的极少数细胞分裂产生视神经节层神经节母细胞, 到蛹发育中期, 随着视神经进入的刺激, 神经节层神经细胞才开始快速增殖, 并最终形成了视神经节层的所有结构。 内部视原基的分裂方式同外部视原基相同, 最终生成视叶的视小叶部分。本研究结果提示中华蜜蜂的视叶起源自两个视原基, 大多数神经细胞在前蛹期产生, 视神经的进入刺激了视神经节层的发育。     

Purkinje cell dendritic arbors in chick embryos following chronic treatment with an N-methyl-D-aspartate receptor antagonist

The normal development of Purkinje cell dendrites is dependent on afferent innervation. To investigate the role of neuronal activity in Purkinje cell dendritic development, chick embryos were chronically treated with a potent, selective, and systemically active competitive N-methyl-D -aspartate (NMDA) receptor antagonist, NPC 12626. The NMDA receptor was chosen as a target for pharmacological blockade because of the importance of the NMDA receptor in synaptic plasticity and stabilization in development. Chick embryos were given daily injections of NPC 12626 (25 to 100 mg/kg) from embryonic day 14 (E14) to E17. The initial injections of NPC 12626 dramatically blocked embryo movements, but activity levels partially recovered following subsequent injections. Embryo movements were reduced by 24% at the end of the experiment. Embryos were killed on E18, and their brains processed for Golgi-Cox staining. The morphology of Golgi-stained Purkinje cells in drug-treated embryos was similar to control embryos. Morphometric analysis showed, however, that chronic treatment with NPC 12626 resulted in a 19% reduction in Purkinje cell dendritic tree area and a 13% reduction in the number of dendritic branch points. The overall width and height of the drug-treated dendritic trees were not significantly different from controls, suggesting that NPC 12626 reduced Purkinje cell dendritic area by interfering with branch formation. The volume of the granule cell layer and the heights of the molecular and external granule cell layers was not reduced, suggesting that NPC 12626 treatment did not simply delay development. These results suggest that activation of the NMDA receptor may mediate the afferent-target interactions in the cerebellum that regulate the elaboration of Purkinje cell dendrites. © 1995 John Wiley & Sons, Inc.