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1.
Summary The chronotropic and inotropic effects of four atrial peptides (cardiodilatin 1–16, atrial natriuretic factor 8–33 and atriopeptin I and III) on the isolated systemic heart ofOctopus vulgaris were studied.Using a preparation that produces a physiological stroke volume at physiological input pressures, it was found that ANF, atriopeptin I and atriopeptin III exerted both negative chronotropic and inotropic effects. In contrast, cardiodilatin produced a positive inotropic effect.A dose-response curve of ANF is reported, showing a threshold concentration of about 10–12 M.The pharmacological and physiological implications of these results are discussed in relation to some characteristics of the cephalopod systemic heart.  相似文献   

2.
The actions of serotonin on frog primary afferent terminals and cell bodies   总被引:1,自引:0,他引:1  
The actions of serotonin (5-HT) were studied in the isolated frog spinal cord and dorsal root ganglion preparations. In the spinal cord, 5-HT increased the spontaneous activity recorded from dorsal roots, facilitated evoked spinal reflexes and produced fast and slow primary afferent depolarization (PAD). A direct action of 5-HT on primary afferent terminals is likely since 5-HT induced PAD remained in the presence of 1 microM tetrodotoxin and 2 mM Mn2+. The direct action of 5-HT on primary afferent terminals was blocked by methysergide and attenuated by concentrations of Mn2+ in excess of that required to block transmitter release. Cell bodies of the dorsal root ganglion were also depolarized by 5-HT. A slow hyperpolarization occasionally followed the initial depolarization. The depolarizing action of 5-HT in the dorsal root ganglion was also attenuated by treatment with Mn2+. It is concluded that 5-HT acts directly on frog primary afferents and that this influence may involve a calcium sensitive process. The dorsal root ganglion response to 5-HT appears to be a suitable model of the afferent terminal response.  相似文献   

3.
The effect of the convulsant bemegride (β-ethyl-β-methylglutarimide) on spinal-root potentials was investigated in frogs. After intravenous injection in subconvulsant doses (5–12 mg/kg) bemegride caused rapid depression of the dorsal-root potentials evoked by stimulation of the neighboring dorsal or ventral root. Their amplitude fell by 55–67% 3–6 min after bemegride injection. The action of bemegride was reversible and the amplitude of the dorsal-root potentials returned to its initial level within 1 h. Ventral-root potentials showed greater fluctuations of amplitude after injection of bemegride than in the control. Bemegride is evidently an effective agent blocking depolarization of primary afferents in the frog spinal cord.  相似文献   

4.
The effects of Ba2+ were studied in vitro on the isolated frog spinal cord. Ba2+ (25 microM-5 mM) caused a concentration-dependent depolarization of ventral (VR) and dorsal (DR) roots. TTX and Mg2+ substantially reduced the depolarization suggesting that interneuronal effects were involved. Ba2+ (25-500 microM) markedly increased the frequency and duration of spontaneous VR and DR potentials and substantially enhanced the duration (and frequently the amplitude) of VR and DR potentials evoked by DR stimulation. Higher concentrations of Ba2+ (1-5 mM) reduced both spontaneous and evoked potentials. Ba2+ (25-500 microM) enhanced the amount of K+ released by a DR volley and by application of L-glutamate and L-aspartate. The cation reduced VR and DR root depolarizations produced by elevated [K+]0. VR potentials induced by L-glutamate, L-aspartate, GABA and glycine and DR depolarizations caused by GABA were reduced by Ba2+. These results show that Ba2+ has complex actions on reflex transmission, interneuronal activity, the postsynaptic actions of excitatory and inhibitory amino acids and the evoked release of K+.  相似文献   

5.
殷勇  程珍凤 《生理学报》1990,42(6):534-539
电刺激大鼠颈髓背外侧束(DLF),在脊髓腰段用微电极记录到—诱发场电位,将其长时程慢电位正波称为 DLF-FP。DLF-FP 的潜伏期为7.22±1.41ms,达峰时间为15.12±5.58ms,时程为93.92±9.06ms。绘制 DLF-FP 等电位图发现:其负电场中心位于背表面下1.0—1.3mm,与外周传入诱发的场电位(P_1-FP)的起源部位基本一致。印防己毒素抑制DLF-FP,士的宁加强 DLF-FP。在一定时间范围内,先后刺激腓肠神经和 DLF,两者所诱发的场电位具有总和和抑制现象。这些结果表明 DLF-FP 是初级传入末梢去极化的反映,可能和刺激外周神经诱发的场电位共用脊髓环路。  相似文献   

6.
7.
The sucrose gap technique was employed to investigate both synaptic and amino acid evoked responses from motoneurones or primary afferents of frog spinal cord. alpha-D,L-Aminoadipic acid (alpha-D,L-AAD) selectively antagonized responses to acidic amino acids, especially aspartate. The drug was most effective in antagonizing the polysynaptic components of synaptic potentials evoked by dorsal root or lateral column stimulation but had little effect on their monosynaptic components. The ventral root dorsal root potential which is thought to be mediated by a pathway that does not involve acidic amino acids was insensitive to alpha-D,L-AAD. These data, which were confirmed by intracellular recording from motoneurones, provided further evidence for the role of acidic amino acids in polysynaptic pathways in frog spinal cord.  相似文献   

8.
The effects of GABA, bicuculline and 5-HT on primary afferents in the isolated spinal cord of the frog Rana ridibunda were studied. Bath application of GABA (1 mM) reduced the primary afferent depolarisation (PAD) in IX segment of the spinal cord evoked by X dorsal root stimulation (57 +/- 8% of initial level, n = 5, p < 0.05). The action potentials (AP) recorded in dorsal root afferents was also suppressed under the GABA action (74 +/- 9%, p < 0.05). Bath application of bicuculline (50 microM) reduced the PAD (21 +/- 7%), n = 6, p < 0.05), meanwhile the AP in dorsal root afferents was resistant against the bicuculline action. Bath application of 5-HT (25 microM) depressed the PAD (34 +/- 7%, n = 7, p < 0.05) and the amplitude of the AP recorded from the single afferent fibre in dorsal column (76 +/- 6%, n = 7, p < 0.05). In contrast to GABA, 5-HT more effectively suppressed the late phase of the PAD evoked by X dorsal root stimulation and caused (76 +/- 6%, n = 7, p < 0.05) an alteration of the AP shape. All effects induced by these drugs were reversible. The mechanisms of GABA and 5-HT modulation of spinal cord afferent income are discussed.  相似文献   

9.
Pharmacological agents (strychnine, picrotoxin, pentobarbital, chloralose, GABA, penicillin, morphine) were used to investigate the nature of the slow potential recorded in the frog olfactory bulb in response to natural stimulation. Three possible hypotheses were tested: 1) The slow potential is neuroglial in nature; 2) it is the analog of the dorsal-root potential of the spinal cord and reflects depolarization of primary afferents arising in the terminals of the olfactory nerve and responsible for presynaptic inhibition in the frog olfactory bulb; 3) the slow potential reflects postsynaptic processes. The results showed great similarity between changes in the slow and dorsal-root potentials of the spinal cord in response to the action of pharmacological agents. However, the slow potential is evidently a complex response and incorporates at least one other component — depolarization of the dendrites of unknown nature.  相似文献   

10.
Epidural electrodes implanted for a percutaneous trial of therapeutic spinal cord stimulation were used to record electrical events evoked by the stimulation of peripheral nerves or of the spinal cord itself. The data collected in patients with no neurological deficit were analyzed in order (1) to check the consistency between epidural and surface recordings, (2) to get information on the genesis of such potentials, and (3) to demonstrate the feasibility of complex neurophysiological studies by means of epidural electrodes. Spinal cord potentials evoked by segmental volleys were recorded at cervical levels with the recording electrodes anterior, lateral and posterior to the spinal cord. The refractory period of the evoked potentials has been studied as well. Responses to stimulation of the tibial nerve were obtained at T11-12 vertebral level with posterior epidural electrodes. Segmental cervical potentials were characterized by a P10, N11, N13/P13 followed by a slow positivity/negativity. A response of similar waveform, but with different peak latencies, was recorded at segmental levels following tibial nerve stimulation. Such a response showed an increasing number of spikes while ascending along the spinal cord. Maximum conduction velocities in the cord were between 65 and 85 m/s. Our epidural recordings are similar to those obtained from the skin, but with a greater amplitude and waveform resolution. Furthermore, the use of epidural electrodes made it feasible to perform complex examinations of sensory function (i.e., the study of orthodromic and antidromic conduction along the dorsal cord and of the influence of a single dorsal cord volley on the segmental cervical potential). Finally, the genesis of the potentials recorded is discussed.  相似文献   

11.
In the isolated frog spinal cord, methionine-enkephalin (ME, up to 3 X 10(-5) M) hyperpolarized the resting ventral and dorsal root potentials. These hyperpolarizations remained even under Ca2+-free conditions. ME depressed the fast component of the electrically stimulated spinal reflex and enlarged the following depolarizing component. Morphine (10(-4) M) had no apparent ME-like effects. ME may directly and indirectly affect the motoneuron and modulate the spinal motor activity in the frog spinal cord.  相似文献   

12.
Ovsepyan  S. V.  Vesselkin  N. P. 《Neurophysiology》2001,33(6):356-364
We studied, on isolated preparations of the frog spinal cord, the effects of serotonin in different concentrations on the amplitude-temporal parameters of action potentials (AP) in primary afferent fibers, on the potentials reflecting depolarization of primary afferents (DPA), and on the properties of the membrane of these fibers. It was demonstrated that in a part of the dorsal root afferent fibers serotonin caused a drop in the AP amplitude (by 15-20%) and an increase in the AP duration (by 8-13%). Serotonin also significantly (by 70-90%) decreased the amplitude of DPA induced by stimulation of a neighboring dorsal root and noticeably reduced the input membrane resistance of afferent fibers. Serotonin-induced modulation of the AP parameters in the afferents and suppression of DPA under the influence of this amine are postulated as possible factors involved in the central control of afferentation.  相似文献   

13.
Slow negative (N) and slow positive (P) waves are frequently produced in the posterior epidural space at the lumbosacral enlargement by epidural stimulation of the rostral part of human spinal cord. The production of these slow potentials are thought to be responsible for analgesia at the stimulated segment as well as below that level. In order to define the spinal tract which mediates these slow potentials, we stimulated directly or from the epidural space the dorsal, dorsolateral, lateral and ventral columns at the cervical or thoracic level, and epidurally recorded spinal cord potentials (des.SCPs) at the lumbosacral enlargement in 7 patients who underwent spine or spinal cord surgery. The des.SCPs recorded in the lumbosacral enlargement consisted of polyphasic spike potentials followed by slow N and P waves. At a near threshold level of stimulus intensity the slow N and P potentials were consistently elicited only by stimulation of the dorsal column. The slow waves were also produced by intense stimulation of other tracts, but remained significantly (P < 0.05−P <0.01) smaller than those evoked by dorsal column stimulation when compared at the same stimulus intensity. Moreover, the slow P wave could not be elicited even by intense stimulation (10 times the threshold strength for the initial spike potentials) of the ventral column. Thus, the results suggest that the slow N and P waves are mostly mediated by the antidromic impulses descending through the dorsal column.  相似文献   

14.
The dorsal root reflex in isolated mammalian spinal cord   总被引:1,自引:0,他引:1  
1. The dorsal root reflex has been investigated in an isolated preparation of adult mammalian spinal cord. 2. Both evoked and spontaneous activity can be recorded from the cord in the dorsal spinal roots. 3. The spontaneous activity has a characteristic pattern of firing in bursts of action potentials. Spontaneous and evoked activity are optimum at temperatures between 25 and 27 degrees C; little activity can be detected above 35 degrees C. 4. The spontaneous dorsal root activity has been shown to be correlated with negative potentials in the dorsal horn of the cord, and intracellular recordings made from primary afferent fibres have shown spontaneous primary afferent depolarizations (PAD) which underlie the generation of the spontaneous dorsal root activity. 5. The evoked dorsal root reflex has been shown to spread up to 16 spinal segments both rostrally and caudally from the stimulated dorsal root, and to the contralateral side of the cord. 6. The spontaneous dorsal root activity in widely separated segments has been shown by cross-correlation analysis to be linked both ipsi- and contra-laterally. 7. The significance of such a widespread system for the generation of PAD is discussed.  相似文献   

15.
Descending serotonergic, noradrenergic, and dopaminergic systems project diffusely to sensory, motor and autonomic spinal cord regions. Using neonatal mice, this study examined monoaminergic modulation of visceral sensory input and sympathetic preganglionic output. Whole-cell recordings from sympathetic preganglionic neurons (SPNs) in spinal cord slice demonstrated that serotonin, noradrenaline, and dopamine modulated SPN excitability. Serotonin depolarized all, while noradrenaline and dopamine depolarized most SPNs. Serotonin and noradrenaline also increased SPN current-evoked firing frequency, while both increases and decreases were seen with dopamine. In an in vitro thoracolumbar spinal cord/sympathetic chain preparation, stimulation of splanchnic nerve visceral afferents evoked reflexes and subthreshold population synaptic potentials in thoracic ventral roots that were dose-dependently depressed by the monoamines. Visceral afferent stimulation also evoked bicuculline-sensitive dorsal root potentials thought to reflect presynaptic inhibition via primary afferent depolarization. These dorsal root potentials were likewise dose-dependently depressed by the monoamines. Concomitant monoaminergic depression of population afferent synaptic transmission recorded as dorsal horn field potentials was also seen. Collectively, serotonin, norepinephrine and dopamine were shown to exert broad and comparable modulatory regulation of viscero-sympathetic function. The general facilitation of SPN efferent excitability with simultaneous depression of visceral afferent-evoked motor output suggests that descending monoaminergic systems reconfigure spinal cord autonomic function away from visceral sensory influence. Coincident monoaminergic reductions in dorsal horn responses support a multifaceted modulatory shift in the encoding of spinal visceral afferent activity. Similar monoamine-induced changes have been observed for somatic sensorimotor function, suggesting an integrative modulatory response on spinal autonomic and somatic function.  相似文献   

16.
Thyrotropin-releasing hormone (TRH) produced a depolarization in lumbar motoneurons of neonatal rats. The depolarization by TRH persisted after extracellular Ca2+ was replaced by Mg2+ or Mn2+, indicating its direct action upon motoneurons. Stimulation of the ventral descending tract at the lower thoracic segment evoked slow excitatory postsynaptic potentials (e.p.s.ps) lasting 20-30 s in every motoneuron. Both the TRH-induced depolarization and descending slow e.p.s.p. were accompanied by a decrease in input conductance of motoneurons. When the membrane potential of the motoneuron was shifted, both the TRH-induced depolarization and slow e.p.s.p. became larger in amplitude during depolarization and smaller during hyperpolarization. However, they could not be reversed in polarity by hyperpolarization. During the depolarization of motoneuron produced by TRH application, the slow e.p.s.p. was markedly reduced in amplitude, suggesting the involvement of identical ionic mechanisms in the two responses. After incubation of the isolated spinal cord with antisera to TRH, the depolarizing response produced by TRH as well as the descending slow e.p.s.p. was greatly diminished. In contrast, monosynaptic reflexes evoked by dorsal root stimulation remained unchanged under this condition. These results suggest that TRH serves as a neurotransmitter mediating the descending slow e.p.s.p. in motoneurons.  相似文献   

17.
In the guinea-pig saphenous artery, stimulation of perivascular nerves elicited contraction and two types of synaptic potentials: the excitatory junction potential and the slow depolarization. The synaptic potentials were inhibited by atriopeptin II but not by sodium nitroprusside. Exogenous noradrenaline induced membrane depolarization and contraction, and both sodium nitroprusside and atriopeptin II inhibited the contraction but not the depolarization. These results suggest that atriopeptin II has an inhibitory effect both presynaptically at the nerve terminals and postsynaptically on the vascular smooth muscle cells.  相似文献   

18.
The effects of iontophoretically applied (D-Pro2, D-Phe7, D-Trp9)-SP and (D-Pro2, D-Trp7,9)-SP on the spontaneous and evoked activity of functionally identified cat spinal dorsal horn neurons have been investigated in vivo by means of extracellular single unit recording technique. In addition, the rat spinal cord slice preparation has been used to study the actions of (D-Pro2, D-Trp7,9)-SP and (D-Arg1, D-Pro2, D-Trp7,9, Leu11)-SP on the resting membrane potential of dorsal horn neurons and also on their responses to dorsal root stimulation and exogenous SP application. We have observed that both (D-Pro2, D-Phe7, D-Trp9)-SP and (D-Pro2, D-Trp7,9)-SP produced an excitation of about 15% of all neurons tested and had a weak antagonistic effect against SP in the cat spinal cord. (D-Pro2, D-Trp7,9)-SP suppressed the SP-induced excitation in 63% of examined cells. In addition, depression of the glutamate-induced excitation and spontaneous activity was evident in 10% and 19% of the cat dorsal horn neurons tested, respectively. In the spinal cord slice preparation (D-Arg1, D-Pro2, D-Trp7,9, Leu11)-SP proved to be a more potent antagonist of the SP-induced depolarization and the dorsal root-elicited slow depolarization, if compared with (D-Pro2, D-Trp7,9)-SP.  相似文献   

19.
M Jia  P G Nelson 《Peptides》1987,8(3):565-568
Monosynaptic excitatory post-synaptic potentials (EPSPs) evoked in spinal cord (SC) neurons by stimulation of dorsal root ganglion (DRG) neurons in cell cultures were reduced by perfusion application of the opiate peptide, Met-enkephalin (2-4 microM). In about 2/3 of cases examined, EPSPs evoked by stimulation of spinal cord cells were also reduced by Met-enkephalin. The effects were antagonized by concomitant perfusion with naloxone (1-2 microM) and recovered when perfusion with Met-enkephalin was stopped. Statistical analysis of synaptic responses indicated that the reduction of EPSP amplitude was due, at least to a major extent, to a decrease in presynaptic transmitter release.  相似文献   

20.
In the isolated frog spinal cord perfused with kainic acid (KA, 5 X 10(-4) M) containing Ringer's solution, within 2 hr there were increases in the amplitude of the dorsal root depolarization, as induced by the GABA-agonists. KA perfusion produced increases in the specific binding of [3H]muscimol to crude synaptic membranes and incubation with KA for 3 hr did not increase [3H]muscimol binding. [3H]GABA was released from KA-treated spinal cord slices in the presence of high K+. KA-induced supersensitivity of the dorsal root to GABA may relate to direct actions on primary afferent terminals and not to denervation of GABAergic neurons.  相似文献   

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