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1.
Morphology of chemosensory organs required for feeding in the leech Hirudo medicinalis 总被引:3,自引:0,他引:3
E J Elliott 《Journal of morphology》1987,192(2):181-187
Sensilla that line the upper edge of the lip in the leech Hirudo medicinalis and that contain chemoreceptors required for feeding were examined in the scanning and transmission electron microscopes. The sensilla include two size-classes of ciliated button-like mounds--one about 35 microns in diameter and another about 10 microns in diameter. The larger sensilla are at the center of unpigmented patches of skin which are visible in the light microscope, while the smaller sensilla have not been previously described as distinct structures. Electron microscopy, though not light microscopy, shows that the lip sensilla differ markedly from the segmental sensilla of the leech, which have been shown to mediate mechanoreception and photoreception. In particular, the chemosensory lip sensilla contain multiciliated cells with cilia of a uniform length, whereas the segmental sensilla contain uniciliated cells with long, whip-like cilia, as well as multiciliated cells with short, stiff cilia. Thus, the two types of sensilla differ morphologically as well as functionally. In addition to the ciliated sensilla along the upper lip, structures consisting of a short, club-like process surrounded by granular material were observed inside the mouth. These structures may also be chemosensory organs. 相似文献
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We report on factors affecting the spontaneous firing pattern of the identified serotonin-containing Retzius neurons of the medicinal leech. Increased firing activity induced by intracellular current injection is followed by a ‘post-stimulus-depression’ (PSD) without spiking for up to 23 s. PSD duration depends both on the duration and the amplitude of the injected current and correlates inversely with the spontaneous spiking activity. In contrast to serotonin-containing neurons in mammals, serotonin release from the Retzius cells presumably does not mediate the observed spike suppression in a self-inhibitory manner since robust PSD persists after synaptic isolation. Moreover, single additional spikes elicited at specific delays after spontaneously occurring action potentials are sufficient to significantly alter the firing pattern. Since sub-threshold current injections do not affect the ongoing spiking pattern and PSD persists in synaptically isolated preparations our data suggest that PSD reflects an endogenous and ‘spike-dependent’ mechanism controlling the spiking activity of Retzius cells in a use-dependent way. 相似文献
3.
The apparent intracellular Mg2+ buffering, or muffling (sum of processes that damp changes in the free intracellular Mg2+ concentration, [Mg2+](i), e.g., buffering, extrusion, and sequestration), was investigated in Retzius neurons of the leech Hirudo medicinalis by iontophoretic injection of H+, OH-, or Mg2+. Simultaneously, changes in intracellular pH and the intracellular Mg2+, Na+, or K+ concentration were recorded with triple-barreled ion-selective microelectrodes. Cell volume changes were monitored measuring the tetramethylammonium (TMA) concentration in TMA-loaded neurons. Control measurements were carried out in electrolyte droplets (diameter 100-200 microm) placed on a silver wire under paraffin oil. Droplets with or without ATP, the presumed major intracellular Mg2+ buffer, were used to quantify the pH dependence of Mg2+ buffering and to determine the transport index of Mg2+ during iontophoretic injection. The observed pH dependence of [Mg2+](i) corresponded to what would be expected from Mg2+ buffering through ATP. The quantity of Mg2+ muffling, however, was considerably larger than what would be expected if ATP were the sole Mg2+ buffer. From the decrease in Mg2+ muffling in the nominal absence of extracellular Na+ it was estimated that almost 50% of the ATP-independent muffling is due to the action of Na+/Mg2+ antiport. 相似文献
4.
The medicinal leech Hirudo medicinalis produces various types of proteinase inhibitors: bdellins (inhibitors of trypsin, plasmin, and acrosin), hirustasin (inhibitor of tissue kallikrein, trypsin, -chymotrypsin, and granulocyte cathepsin G), tryptase inhibitor, eglins (inhibitors of -chymotrypsin, subtilisin, and chymasin and the granulocyte proteinases elastase and cathepsin G), inhibitor of factor Xa, hirudin (thrombin inhibitor), inhibitor of carboxypeptidase, and inhibitor of complement component C1s. This review summarizes data on their primary and tertiary structures, action mechanisms, and biological activities. 相似文献
5.
Summary The rhythmic constriction of the heart tubes in the leech Hirudo medicinalis is controlled by an identified set of motor neurons (HE cells) and interneurons (HN cells) (reviewed by Calabrese and Peterson 1983). Electrophysiological recordings have indicated particular synaptic relationships among HE and HN cells. In the present study, the synaptic framework mediating the interactions among HE cells and HN cells was examined anatomically. Using light and electron microscopy of physiologically identified, HRP-injected cells, we have examined the zones of interaction and types of contacts between specific cells. HE cells, which have very fine, threadlike processes, interact with their contralateral homologues throughout most of the middle third of the ganglionic neuropil. When HE-cell neuntes come together, the apposed plasma membranes are rigidly parallel, separated by an intercellular gap of 6 nm, for up to 6 m. These specializations must form the structural basis for the strong electrical coupling observed (Peterson 1983) between HE-cell pairs. HE cells also emit from the main neurite a series of extremely fine processes that extend dorsally. These appear in the light microscope to contact processes of the ipsilateral HN cell of the same ganglion, and are also in a position to make contact with the axons of more anterior HN cells. The intraganglionic processes of HN cells, which are studded with large varicosities, ramify in part of the region of neuropil occupied by HE-cell processes, as well as more posteriorly. Contacts between HE and HN cells, which are known to be mostly inhibitory synaptic contacts, are seen in the electron microscope to be formed between medium-diameter HN processes, which are filled with clear round synaptic vesicles, and multiple fine tendrils of the HE cell that surround the HN process. Certain HN cells form reciprocal inhibitory synapses with their contralateral homologues. These contacts occur near the midline, sometimes in the major mass of neuropil and sometimes embedded in the extracellular material that ensheathes the neuropil. The contacts are between medium-and small-diameter profiles that are both filled with synaptic vesicles. Our findings indicate that various classes of physiological interactions among HE and HN cells are mediated by anatomically distinct types of contacts and, at least in some cases, are segregated from each other on the neuritic trees of the cells. 相似文献
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The phosphoinositide signaling cascade is involved in photoreception in the leech Hirudo medicinalis
Kyrill Ukhanov Bernd Walz 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》2001,186(12):1171-1183
The effects of BAPTA, heparin, and neomycin on electrical light responses were studied in the photoreceptors of Hirudo medicinalis. Light activation produces a fast increase in intracellular Ca2+ concentration (Cai) as detected with the fluorescent Ca2+ indicator calcium green-5N. Chelating intracellular calcium by injections of 10 mmol l-1 BAPTA suppresses spontaneous quantum bumps, reduces light sensitivity by more than 2 log10 units, and substantially increases the latent period of light responses. BAPTA strongly inhibits the plateau phase of responses to long steps of light. Injections of 45-100 mg ml-1 of heparin act in a similar manner to BAPTA, affecting the latency of the light responses even more. De-N-sulfated heparin, an inactive analog, is almost ineffective at the same concentration compared with heparin. Heparin diminishes the light-induced Cai elevation significantly, whereas de-N-sulfated heparin does not. Intracellular injections of 50-100 mmol l-1 of the aminoglycoside neomycin, which inhibits phospholipase-C-mediated inositol 1,4,5-trisphosphate formation, acts similar to BAPTA and heparin. Pressure injections of the hydrolysis resistant analog of inositol 1,4,5-trisphosphate, inositol 2,4,5-trisphosphate, strongly depolarize leech photoreceptors and mimic an effect of light adaptation. These results suggest a close similarity between phototransduction mechanisms in leech photoreceptors and existing models for visual transduction in other invertebrate microvillar photoreceptors. 相似文献
12.
A. P. Baader W. B. Kristan Jr. 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1995,176(6):715-726
Changes in the behavior of crawling leeches were investigated after various kinds of manipulations, including selective transection or inactivation of body parts, as well as partial or complete transection of the central nerve cord, using a frame-by-frame analysis of video tapes of the crawling animals. From these studies, we found that: 1. Leeches made rhythmic crawling cycles even after their suckers were prevented from contacting the substrate by covering them over with glue. Hence, engagement and disengagement of the suckers are not necessary links in the crawling cycle. 2. Cutting the small, medial connective (Faivre's nerve) had no influence on crawling, but contraction during the whole-body shortening reflex was interrupted. Thus two behaviors which use the same motor output (i.e., whole-body shortening and the contraction phase of crawling) are mediated by two different pathways. 3. Cutting all the connectives between two ganglia in the middle of the leech resulted in a loss of coordination between the parts of the animal on either side of the cut. Therefore, temporally coordinated sucker activity must be mediated through these connectives. 4. Pieces of leech bodies produced by complete transection produced rhythmic crawling cycles as long as the pieces included the head or tail plus 2–4 adjacent midbody segments. In all cases, the crawling movements progressed without delays as the movements reached the cut ends. Pieces of animals that included only midbody segments did not produce crawling movements. 5. These results can be explained by a model composed of intersegmental pathways for both elongation and contraction, circuits in the head and tail brains that switch between elongation and contraction, and both ascending and descending inhibitory influences that determine when the cycle switches from elongation to contraction and back again.Abbreviations
C1-C7
caudal segments 1 through 7 (comprise the tail sucker)
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Circ.
circular muscle(s)
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CD
circular element driver
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CPG
central pattern generator
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ED
elongation element driver
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El
elongation
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El
init
initiation of elongation
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FN
Faivre's nerve
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fs
+ front sucker attachment
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s—
front sucker release
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Long
longitudinal muscle(s)
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M1-M21
midbody segments 1 through 21
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R1-R4
rostral segments 1 through 4 (comprise the head)
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rs
+ rear sucker attachment
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rs
rear sucker release
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Sens
sensory input
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SR
stretch receptors(s)
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ti
tonic inhibition 相似文献
13.
Richard E. Coggeshall 《Journal of morphology》1966,119(4):417-423
Classical studies of the nervous system of the leech revealed that there were specific types of very large glial cells associated with various parts of the neuron. Recent microelectrode studies demonstrated that there was a low resistance to the flow charge from any one of these large glial cells to another. The present study describes a previously unreported type of glial cell, the glial cell of the fascicles. These cells, which resemble the glial cells of the connectives but are smaller, are found in the fascicles of axons that unite the connectives to the neuropil. Thus, these cells are located between the glial cells of the connectives on the one hand and the glial cells of the neuropil and packets on the other and must be taken into account in considerations of the low resistance to the transfer of charge from one glial cell to another. 相似文献
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Gap junctions are direct intercellular channels that permit the passage of ions and small signaling molecules. The temporal
and spatial regulation of gap junctional communication is, thus, one mechanism by which cell interactions, and hence cell
properties and cell fate, may be regulated during development. The nervous system of the leech, Hirudo medicinalis, is a particularly advantageous system in which to study developmental mechanisms involving gap junctions because interactions
between identified cells may be studied in vivo in both the embryo and the adult. As in most invertebrates, gap junctions
in the leech are composed of innexin proteins, which are distantly related to the vertebrate pannexins and are encoded by
a multi-gene family. We have cloned ten novel leech innexins and describe the expression of these, plus two other previously
reported members of this gene family, in the leech embryo between embryonic days 6 and 12, a period during which the main
features of the central nervous system are established. Four innexins are expressed in neurons and two in glia, while several
innexins are expressed in the excretory, circulatory, and reproductive organs. Of particular interest is Hm-inx6, whose expression appears to be restricted to the characterized S cell and two other neurons putatively identified as presynaptic
to this cell. Two other innexins also show highly restricted expressions in neurons and may be developmentally regulated.
Electronic Supplementary Material Supplementary material is available for this article at . 相似文献
17.
W. Stern-Tomlinson M. P. Nusbaum L. E. Perez W. B. Kristan Jr. 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1986,158(4):593-603
The medicinal leech crawls along a solid substrate by repeated alternating extensions and shortenings of the body. Extension occurs with the posterior sucker attached and the head sucker free. The head sucker then attaches, followed by shortening and release of the tail sucker. The tail sucker is then pulled toward the head, where it reattaches to the substrate. The head sucker then releases, and another crawling cycle begins (Figs. 1, 5). There are two crawling variants: inchworm crawling, in which the head and tail suckers are closely apposed at the end of a cycle and the body forms a loop above the substrate, and vermiform crawling, in which the suckers are placed farther apart and the body remains fairly close to the substrate (Fig. 1). The cycle period and the distance traveled during a cycle are greater in inchworm than in vermiform crawling; however, the velocity of travel is the same for both (Fig. 2). For both variants, the interval between head sucker attachment and tail sucker release is similar at all cycle periods and has a value consistent with direct interneuronal conduction of a signal from head sucker sensory neurons to tail sucker motor neurons. The interval between tail sucker attachment and head sucker release, however, is longer and varies with the cycle period, suggesting a more complex interneuronal circuit in the pathway from tail sucker sensory neurons to head sucker motor neurons (Fig. 4). The onsets of the components of the crawling cycle (extension, post-extension pause, shortening, and post-shortening pause) show an anteroposterior lag (Figs. 5, 7). For both variants, the travel time between segments varies directly with the period (Fig. 8). For both crawl types, the durations of the cycle components vary directly with the period, with several exceptions (Figs. 9, 10). A model is presented that summarizes the coordination of the various motor events in a cycle of leech crawling (Figs. 11 and 12). 相似文献
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K Ukhanov B Walz 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》2000,186(12):1171-1183
The effects of BAPTA, heparin, and neomycin on electrical light responses were studied in the photoreceptors of Hirudo medicinalis. Light activation produces a fast increase in intracellular Ca2+ concentration (Cai) as detected with the fluorescent Ca2+ indicator calcium green-5N. Chelating intracellular calcium by injections of 10 mmol(-1) BAPTA suppresses spontaneous quantum bumps, reduces light sensitivity by more than 2 log(10) units, and substantially increases the latent period of light responses. BAPTA strongly inhibits the plateau phase of responses to long steps of light. Injections of 45-100 mg ml(-1) of heparin act in a similar manner to BAPTA, affecting the latency of the light responses even more. De-N-sulfated heparin, an inactive analog, is almost ineffective at the same concentration compared with heparin. Heparin diminishes the light-induced Cai elevation significantly, whereas de-N-sulfated heparin does not. Intracellular injections of 50-100 mmol l(-1) of the aminoglycoside neomycin, which inhibits phospholipase-C-mediated inositol 1,4,5-trisphosphate formation, acts similar to BAPTA and heparin. Pressure injections of the hydrolysis resistant analog of inositol 1,4,5-trisphosphate, inositol 2,4,5-trisphosphate, strongly depolarize leech photoreceptors and mimic an effect of light adaptation. These results suggest a close similarity between phototransduction mechanisms in leech photoreceptors and existing models for visual transduction in other invertebrate microvillar photoreceptors. 相似文献
20.
Water-wave and photic stimulation of the sensilla elicits synaptic potentials identical to those elicited by electrical stimulation of the segmental roots. Mechanical stimulation elicits a localized IPSP and a generalized EPSP in the RCs and an IPSP in the AE motoneurons. Photic stimulation gives rise to a generalized EPSP in the RCs alone. The impulse discharges elicited in the afferent fibers by the two kinds of stimuli is transmitted along the cord both anteriorly and posteriorly to the stimulated segment. This implies that the afferent impulses excite a pool of intersegmental neurons in each ganglion, which distribute their discharges to the adjacent ganglia. The evidence for occlusion between cordal and photically elicited volleys indicates that it shares with the sensillar input a common pool of interneurons. The possible functional significance of the inhibitory and excitatory inputs is discussed. 相似文献