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31.
Karl-Heinz Wrobel Daniela Bickel Richard Kujat Margit Schimmel 《Cell and tissue research》1995,279(2):249-259
We have used a cytochemical technique to investigate the distribution of acetylcholinesterase (AChE) activity in the deutocerebrum of the brain of the sphinx moth Manduca sexta. To distinguish between extra-and intracellular pools of the enzyme, some brains were treated prior to histochemical staining with echothiophate, an irreversible AChE inhibitor which penetrates cell membranes very slowly and, therefore, inhibits only extracellular AChE. In the antennal nerve, fascicles of presumably mechanosensory fibers show echothiophateinsensitive AChE activity. They bypass the antennal lobe and project to the antennal mechanosensory and motor center of the deutocerebrum. In the antennal lobe, fibers in the coarse neuropil, cell bodies in the lateral cell group, and all glomeruli exhibit AChE activity. In most ordinary glomeruli, echothiophate-sensitive AChE activity is concentrated in the outer cap regions, corresponding to the terminal arborizations of olfactory afferents. A previously unrecognized glomerulus in the ventro-median antennal lobe shows uniform and more intense AChE-specific staining that the other glomeruli. No AChE activity appeared to be associated with malespecific pheromone-sensitive afferents in the macro-glomerular complex. About 67 interneurons with somata in the lateral cell group of the antennal lobe show echo-thiophate-insensitive AChE activity. These neurous seem to be members of two types of antennal-lobe projection neurons with fibers passing through the outer-antenno-cerebral tract to the protocerebrum. AChE-stained arborizations of these neurons appear to invade all glomeruli, including three distinguishable subunits of the male-specific macroglomerular complex. In echothiophate-treated animals, the projections of one of these types of fiber form large terminals in the lateral horn of protocerebrum, which partly protrude into the adjacent glial cell layer. The results suggest that extracellularly accessible AChE is associated with ordinary olfactory receptor terminals but apparently not with pheromone-sensitive afferents. Intracellular AChE appears to be present in antennal mechanosensory fibers and in two types of olfactory projection neurons of the antennal lobe. The study provides further evidence for cholinergic neurotransmission of most antennal afferents. The AChE-containing interneurons might be cholinergic as well or use the enzyme for functions unrelated to hydrolysis of acetylcholine.Abbreviations
ACh
acetylcholine
-
AChE
acetylcholinesterase
-
AL
antennal lobe
-
AMMC
antennal mechanosensory and motor center
-
ChAT
choline acetyltransferase
-
IACT
inner antenno-cerebral tract
-
MGC
macroglomerular complex 相似文献
32.
B. S. Hansson S. A. Ochieng' X. Grosmaitre S. Anton P. G. N. Njagi 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1996,179(2):157-167
Olfactory receptor neurons present in two morphological sensillum types on the male Schistocerca gregaria antenna were for the first time investigated physiologically when stimulated with behaviourally relevant odours. Neurons present in trichoid/basiconic sensilla showed clear excitatory responses to compounds present in the male-produced aggregation pheromone and also to a plant produced compound. Sensilla could be categorised physiologically according to the responses of their receptor neurons to the tested stimuli. Also receptor neurons present in sensilla coeloconica responded to aggregation pheromone components, but always in an inhibitory fashion. These neurons could, however, be excited by a plant produced compound and by some acids present in the nymphal odour. The antennal lobe of the male S. gregaria was observed to contain about 1000 very small glomerular structures. Single receptor neurons were stained from the antenna to the antennal lobe using a cobalt lysine technique. These stainings revealed a multi glomerular axonal branching pattern of antennal receptor neurons.Abbreviations
AN
antennal nerve
-
AL
antennal lobe
-
RN
receptor neuron 相似文献
33.
M. Bartos H. W. Honegger 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1997,181(1):59-70
The change of the intensity of proctolin immunolabeling of 2 of 17 proctolinergic antennal motoneurons [one adductor (Ad3),
and one depressor (D5)] was quantitatively studied in crickets in relation to flight and antennal deafferentation. During
flight, the maintained forward position of the antennae is supported by high frequency tonic firing of Ad3 but probably all
motoneurons are activated. In animals sacrificed immediately after the last of five consecutive flight periods the intensity
of proctolin-like immunolabeling showed a significant decrease in the Ad3 soma in comparison to the Ad3 of non-flyers. The
identical result was observed in the D5 soma. In animals sacrificed 40 h after flight, no difference in the intensity of proctolin
immunolabeling between the Ad3 soma of flyers and non-flyers was evident. Thus, at high motoneuron activity, the production
of proctolin may not be able to keep pace with its transport from the soma. Deletion of all proprioceptors of one antenna
which respond to horizontal movements only led to a significant decrease of the intensity of proctolin immunolabeling in the
Ad3 soma on the operated side, but not in the soma of D5. This indicates that selected afferent input has an impact on proctolin
expression in distinct motoneuron pools.
Accepted: 7 February 1997 相似文献
34.
Glial patterning during postembryonic development of central neuropiles in the brain of the honeybee
Glial cells are involved in several functions during the development of the nervous system. To understand potential glial
contributions to neuropile formation, we examined the cellular pattern of glia during the development of the mushroom body,
antennal lobe and central complex in the brain of the honeybee. Using an antibody against the glial-specific repo-protein
of Drosophila, the location of the glial somata was detected in the larval and pupal brain of the bee. In the early larva, a continuous
layer of glial cell bodies defines the boundaries of all growing neuropiles. Initially, the neuropiles develop in the absence
of any intrinsic glial somata. In a secondary process, glial cells migrate into defined locations in the neuropiles. The corresponding
increase in the number of neuropile-associated glial cells is most likely due to massive immigrations of glial cells from
the cell body rind using neuronal fibres as guidance cues. The combined data from the three brain regions suggest that glial
cells can prepattern the neuropilar boundaries.
Received: 3 November 1996 / Accepted: 7 February 1997 相似文献
35.
Summary The olfactory and accessory lobes of the crayfish, Cherax destructor contain glomeruli. Light microscope and electron microscope studies show that these glomeruli are the only regions of synaptic activity in the lobes and that at least four separate sets of axons meet within the glomeruli. The olfactory glomeruli are column shaped, complex structures with no large single pre- or postsynaptic elements. The accessory lobe glomeruli follow a more conventional pattern and each has one large axon ending in a terminal arborization where it makes synaptic contact with large numbers of smaller fibres. The large fibre is presynaptic. 相似文献
36.
Serotonin-immunoreactive neurons in the antennal lobes and suboesophageal ganglion of the honeybee 总被引:2,自引:0,他引:2
Summary We have used immunohistochemical methods to investigate the morphology of identified, presumptive serotonergic neurons in the antennal lobes and suboesophageal ganglion of the worker honeybee. A large interneuron (deutocerebral giant, DCG) is described that interconnects the deutocerebral antennal and dorsal lobes with the suboesophageal ganglion and descends into the ventral nerve chord. This neuron is accompanied by a second serotonin-immunoreactive interneuron with projections into the protocerebrum. Two pairs of bilateral immunoreactive serial homologues were identified in each of the three suboesophageal neuromeres and were also found in the thoracic ganglia. With the exception of the frontal commissure, no immunoreactive processes could be found in the peripheral nerves of the brain and the suboesophageal ganglion. The morphological studies on the serial homologues were extended by intracellular injections of Lucifer Yellow combined with immunofluorescence. 相似文献
37.
The central nervous system (CNS) should be especially sensitive to disturbances in trace element concentrations because of
its high metabolic rate and low capacity for regeneration. Comparatively few studies have been made on trace elements in the
CNS, which prompted us to begin a study of trace elements in four different brain lobes of the CNS, as well as in the spinal
cord. Samples were obtained at autopsy and handled carefully in order to avoid contamination. They were freeze-dried and sealed
in quartz tubes that were irradiated in a nuclear reactor. A simple chemical separation into six fractions was performed.
The gamma spectra for these fractions was registered using a Ge(Li) detector and a computerized multichannel analyzer. Results
for the following elements were obtained: Ca, Cd, Co, Cr, Cs, Cu, Fe, Rb, Se, and Zn, as well as for Na and K (not reported).
Other elements were also detected in some samples. Using this technique, brain samples from ten patients with Alzheimer’s
disease and ten control cases were examined. 相似文献
38.
Reinhard F. Stocker 《Cell and tissue research》1996,275(1):3-26
This review surveys the organization of the olfactory and gustatory systems in the imago and in the larva of Drosophila melanogaster, both at the sensory and the central level. Olfactory epithelia of the adult are located primarily on the third antennal segment (funiculus) and on the maxillary palps. About 200 basiconic (BS), 150 trichoid (TS) and 60 coeloconic sensilla (CS) cover the surface of the funiculus, and an additional 60 BS are located on the maxillary palps. Males possess about 30% more TS but 20% fewer BS than females. All these sensilla are multineuronal; they may be purely olfactory or multimodal with an olfactory component. Antennal and maxillary afferents converge onto approximately 35 glomeruli within the antennal lobe. These projections obey precise rules: individual fibers are glomerulus-specific, and different types of sensilla are associated with particular subsets of glomeruli. Possible functions of antennal glomeruli are discussed. In contrast to olfactory sensilla, gustatory sensilla of the imago are located at many sites, including the labellum, the pharynx, the legs, the wing margin and the female genitalia. Each of these sensory sites has its own central target. Taste sensilla are usually composed of one mechano-and three chemosensory neurons. Individual chemosensory neurons within a sensillum respond to distinct subsets of molecules and project into different central target regions. The chemosensory system of the larva is much simpler and consists essentially of three major sensillar complexes on the cephalic lobe, the dorsal, terminal and ventral organs, and a series of pharyngeal sensilla. 相似文献
39.
Antennal sensilla of grasshoppers (Orthoptera: Acrididae) in relation to food preferences and habits
The external structure, i.e. number and distribution of sensillae on male and female antennae of 12 species of grasshoppers
belonging to Pamphaginae, Catantopinae, Oedipodinae and Gomphocerinae in the grasslands of Inner Mongolia was investigated
using scanning electron microscopy. Five major types of antennal sensillae were detected - trichoid, long basiconic, short
basiconic, slender and short basiconic, and coeloconic sensillae. Total number of antennal sensillae varied among different
sexes, subfamilies, feeding groups, life forms and eco-forms. Males showed significantly more sensillae than females, due
to presence of more short basiconic and coeloconic sensillae. Species under Catantopinae showed more long basiconic sensillae
than the others. The Oedipodinae had the highest number of slender and short basiconic sensillae and coeloconic sensillae,
followed by Catantopinae and Gomphocerinae; while Pamphaginae had the fewest. The total number of sensillae showed the same
trend for these two types amongst the subfamilies as well, species which prefer habits on the ground possessed fewer antennal
sensillae than species which prefer to stay on plants. The maximal number of antennal sensillae were observed in hygrophytous
species,Chorthippus albomarginatus, in the 12 grasshopper species investigated, although the data is not statistically significant. The general trend which
emerged was that species feeding on grass possessed more antennal sensillae, particularly coeloconic sensillae, compared to
other feeding group species. 相似文献
40.
R. Zeiner H. Tichy 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1998,182(4):467-473
Although it has been known that olfactory and mechanical inputs from the antenna converge in the antennal lobe of the deutocerebrum
of the American cockroach, the capacity of antennal lobe neurons to integrate cues from these modalities was never examined.
In the present study, neurons responsive to both the odor of lemon oil and to lateral displacement of the antenna were used
to compare the effects of unimodal and bimodal stimulation. The combination of olfactory and mechanical stimuli produced increases
over unimodal olfactory responses in 61% (30/49) of the neurons. In the remaining neurons the response either decreased (20%;
10/49), or no bimodal interaction was apparent (19%; 9/49). Dye injection (lucifer yellow) following physiological characterization
revealed that these bimodal neurons are local neurons or projection neurons. The antennal lobe links the inputs from olfactory
and mechanosensory systems and provides a substrate through which olfactory and mechanical stimuli influence one another's
effects.
Accepted: 29 September 1997 相似文献