Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Experiments on anesthetized cats with partial lesions of the spinal cord show that reticulospinal pathways in the ventral part of the lateral funiculus take part in the polysynaptic reflex inhibition caused by stimulation of ipsi- and contralateral reticular formation. The reticulofugal volley in the ventrolateral funiculus produced relatively short (up to 7 ms) inhibitory PSP in some motoneurons of the internal intercostal nerve and at the same time long-lasting depression of EPSPs evoked by high-threshold segmentary afferents. This volley also caused inhibitory PSP in segmental interneurons (in 14 out of 91, i.e. 15.5%). The IPSPs lasted no longer than 100 ms, while the segmentary excitatory responses of 21 out of 43 interneurons were depressed for 120-500 ms. The described inhibitory action of the lateral reticulospinal system on segmentary reflex pathways is suggested to be caused by several synaptic mechanisms which do not necessarily include hyperpolarization of spinal neurons. Possible mechanisms of such inhibition are discussed.
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PMID:[Inhibitory influences of reticulospinal fibers of the lateral funiculus on neurons of the reflex arc of the thoracic region of the spinal cord]. 65 98

Activity of neurons in the lateral line lobe was studied by intracellular recording of responses to stimulation of the lateral line nerves and of electroreceptors on the skin surface. Two modes of activation occur for cells responding to inputs from medium receptors. There is a direct monosynaptic input mediated by a single fiber. Short latency of response and antidromic spread from cell to afferent fiber indicate that the mediating synapse is electrotonic. The second input is from a number of additional fibers and is relayed, presumably by the granule cells. At shortest latency this input is disynaptic, probably involving at least one electrotonic synapse. A relay is indicated by heterosynaptic facilitation of the PSP and by pronounced depression with repetitive stimulation. The monosynaptic input may be on the axon. Disynaptic inputs are distributed over the dendrites, and impulses can arise in the dendrites. What appear to be spikes restricted to dendritic regions are often recorded as small brief potentials in the cell body. There is a somatotopic projection of the electroreceptors to the lateral line lobe. The monosynaptic input comes from a specific receptor in the periphery. Strong disynaptic inputs come from a group of receptors generally found anterior, but less commonly posterior or lateral, to the receptor giving rise to the monosynaptic input. Additional inputs that are inhibitory come from surrounding receptors. The inhibition only affects responses to the disynaptic input. The different inputs and multiple sites of impulse initiation must modify the cell's response as compared with the input-output relations that would be obtained with inputs acting on a single summation point. Cells responding to activation of large receptors are infrequent. They are characterized by low threshold, little latency change near threshold, and ability to follow high frequencies of stimulation.
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PMID:Responses of cells of posterior lateral line lobe to activation of electroreceptors in a mormyrid fish. 96 37

It is well established that cardiac dysfunction independent of atherosclerosis develops in both humans and animals with diabetes mellitus. The etiology is complex, involving many different processes, one of which may be increased fatty acid utilization and/or a concomitant decrease in glucose utilization by the diabetic heart. We compared control and 6-wk streptozotocin (STZ)-induced diabetic isolated working rat hearts and were able to demonstrate cardiac dysfunction in the diabetic as assessed by depressed heart rate (HR), heart rate peak systolic pressure product (HR.PSP), left ventricular developed pressure (LVDP), and rate of pressure rise (+dP/dt). Paralleling depressed cardiac function in the diabetic were hyperglycemia, hyperlipidemia, and decreased body weight gain compared with age-matched controls. The addition of free fatty acids, in the form of 1.2 mM palmitate, to the isolated working heart perfusate had no effect on either control or diabetic heart function, with the exception of a depressive effect on +dP/dt of diabetic hearts. But diabetic hearts perfused with palmitate-containing perfusate plus the glucose oxidation stimulator dichloroacetate (DCA) showed a marked improvement in function. HR and HR.PSP in spontaneously beating hearts, as well as LVDP and +dP/dt in paced hearts were all restored to control heart values in diabetic hearts perfused in the presence of DCA. Creatine phosphate and ATP levels were similar under all perfusion conditions, thus eliminating energy stores as the limiting factor in heart function. Results indicate that DCA will acutely reverse diabetic cardiac function depression. Therefore glucose oxidation depression in the diabetic heart may be a significant factor contributing to cardiac dysfunction.
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PMID:Effects of free fatty acids and dichloroacetate on isolated working diabetic rat heart. 192 88

A hypothesis of the role of autoadrenoreceptors in the processes of synaptic depression, facilitation, PSP amplitude stabilization and amplitude increase with the stimulation frequency growth is described by means of a mathematical model. Synaptic depression is realized by activation of alpha-autoadrenoreceptors, synaptic facilitation--by beta-autoadrenoreceptors activation. A "stable secretion zone" is formed between the autoadrenoreceptor activation curves at which noradrenaline secretion is stabilized. Experimental studies of H3-NA secretion from rats cerebral cortex slices showed that autoadrenoreceptors really form a stable secretion zone. The presence of stable secretion zone provides for self-facilitation and stabilization of H3-NA secretion elicited by 5-fold consecutive K+-depolarizations of slices with time interval 30 min. The absence of the stable secretion zone leads to destabilization of H3-NA secretion. With an increase of the stimulation intensity the curves of autoadrenoreceptors activity and stable secretion zone shift toward high noradrenaline concentrations.
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PMID:[Regulation of the efficacy of adrenergic synaptic transmission by autoadrenoreceptors in rat brain slices]. 303 85

The vibration-sensitivity of larval lamprey Mauthner (Mth) neurones is dependent on behavioural state. Animals are maximally vibration-sensitive when at rest and less so when active or aroused. To demonstrate this effect in freely behaving larvae, we provided repeated vibratory or electrical stimuli to the vestibular labyrinths while animals made transitions between rest and activity. Stimuli which were adequate to elicit Mth spikes 100% of the time in a resting animal (recorded extracellularly from the spinal cord) were consistently subthreshold while the animal was swimming. The same effect was seen in semi-intact preparations, both moving and curarized, while recording intracellularly from Mth cell bodies. Mth vibration-sensitivity decreased abruptly with the onset of 'arousal', defined here by the presence of tonic, descending spinal cord discharge. During arousal, the Mth soma exhibited a slight depolarization (2-8 mV), an increased membrane conductance, and a strong depression of vibration-evoked excitatory postsynaptic potential (EPSP) amplitude. This Mth PSP depression (MPD) appears to underlie altered vibration-sensitivity.
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PMID:Modulated vibration-sensitivity of lamprey Mauthner neurones. 358 44

Mechanisms underlying the potentiation of contractions after periods of high frequency stimulation (post-stimulation potentiation; PSP) and periods of rest (rest potentiation; RP) were investigated in isolated rat atria. Transmembrane action potentials were not changed during PSP and RP and were superimposable upon the pre-test action potentials. However, the 45Ca content of atrial strips was significantly increased during PSP, which indicates a net gain in intracellular Ca. 45Ca content was not changed during RP. PSP and RP were increased in magnitude in atria pre-treated with gallopamil (2.5 mumol/l). This effect was due to a greater depression by gallopamil of the pre-test contractions than the potentiated post-test contractions. In contrast, PSP was abolished in atria exposed to 7.5 mmol/l [Ca]o and a transient depression of the post-test contractions was seen. RP was also abolished by high Ca medium, but contractions were not depressed after periods of rest. RP, but not PSP, was unmasked when gallopamil was added to high Ca medium to decrease the size of the basal contractions. Conversely, ryanodine (100 mmol/l) abolished RP but did not affect PSP. With ryanodine present, PSP was greatly increased when the extracellular Ca concentration was increased to 5 mmol/l, whereas RP remained abolished. These results suggest that PSP may reflect an increased transsarcolemmal influx of extracellular Ca, possibly mediated through Na-Ca exchange. In contrast, the mechanism suggested for RP is a transient increase in contractile Ca resulting from an intracellular redistribution of Ca to release sites in the sarcoplasmic reticulum.
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PMID:Mechanisms of frequency-induced potentiation of contractions in isolated rat atria. 382 39

The hatchetfish, Gasteropelecus, possesses large pectoral fin adductor muscles whose simultaneous contraction enables the fish to dart upwards at the approach of a predator. These muscles can be excited by either Mauthner fiber. In the medulla, each Mauthner fiber forms axo-axonic synapses on four "giant fibers," two on each side of the midline. Each pair of giant fibers innervates ipsilateral motoneurons controlling the pectoral fin adductor muscles. Mauthner fibers and giant fibers can be penetrated simultaneously by microelectrodes close to the synapses between them. Electrophysiological evidence indicates that transmission from Mauthner to giant fiber is chemically mediated. Under some conditions miniature postsynaptic potentials (PSP's) are observed, suggesting quantal release of transmitter. However, relatively high frequency stimulation reduces PSP amplitude below that of the miniature potentials, but causes no complete failures of PSP's. Thus quantum size is reduced or postsynaptic membrane is desensitized. Ramp currents in Mauthner fibers that rise too slowly to initiate spikes can evoke responses in giant fibers that appear to be asynchronous PSP's. Probably both spikes and ramp currents act on the same secretory mechanism. A single Mauthner fiber spike is followed by prolonged depression of transmission; also PSP amplitude is little affected by current pulses that markedly alter presynaptic spike height. These findings suggest that even a small spike releases most of an immediately available store of transmitter. If so, the probability of release by a single spike is high for any quantum of transmitter within this store.
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PMID:Chemically mediated transmission at a giant fiber synapse in the central nervous system of a vertebrate. 430 56

Hemodynamic and antidysrhythmic studies were performed to determine the effects of manganese (Mn) on inotropy and chronotropy in normally perfused isolated rabbit hearts (IRHs), and the efficacy of Mn in suppressing and terminating ventricular dysrhythmias (VDs) in regionally ischemic IRHs. Four groups of eight hearts were perfused with Krebs-Ringer bicarbonate solution (KRB) during the control period, followed by 10 min of perfusion with either KRB, as control, or KRB containing 1.0 mM (A), 0.1 mM (B), or 0.01 mM (C) MnCl2. All hearts were then again perfused, for 10 min, with KRB alone (washout). A caused marked depression of heart rate (HR), peak left ventricular (LV) systolic pressure (PSP) and peak LV dP/dt, B resulted in significant depression of HR alone, and C resulted in significant increases in PSP and dP/dt, with a slight fall in HR. Negative effects of Mn were rapidly reversed during washout. Sustained (greater than 2 min) VDs were induced in five of six by sequential bolus injections of isoproterenol and procaine, following ligation of the left marginal coronary artery. A second group of identically treated hearts developed identical VDs with the same frequency, but were reverted to sinus rhythm by a 2-mol bolus of 10 mM MnCl2, without induction of AV block. In a third group of hearts, treated as described for the two groups above, but perfused with KRB containing 0.1 mM Mn, only one of six developed a sustained VD. These results encourage further work, in ischemic whole animal models, to determine the antidysrhythmic efficacy of manganese.
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PMID:Antidysrhythmic and dose-related hemodynamic effects of manganese in perfused isolated rabbit hearts. 617 92

1. The excitation of lumbar motoneurons by reticulospinal axons traveling in the medial longitudinal fasciculus (MLF) was investigated in the newborn rat using intracellular recordings from lumbar motoneurons in an in vitro preparation of the brain stem and spinal cord. The tracer DiI (1,1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine) was introduced into the MLF of 6-day-old littermate rats that had been fixed with paraformaldehyde to evaluate the anatomic extent of this developing pathway. 2. Fibers labeled from the MLF by DiI were present in the cervical ventral and lateral white matter and a smaller number of labeled fibers extended to the lumbar enlargement. Patches of sparse terminal labeling were seen in the lumbar ventral gray. 3. In the in vitro preparation of the brain stem and spinal cord, MLF stimulation excited motoneurons through long-latency pathways in most motoneurons and through both short-(< 40 ms) and long-latency connections in 16 of 40 motoneurons studied. Short- and longer-latency components of the excitatory response were evaluated using mephenesin to reduce activity in polysynaptic pathways. 4. Paired-pulse stimulation of the MLF revealed a modest temporal facilitation of the short-latency excitatory postsynaptic potential (EPSP) at short interstimulus intervals (20-200 ms). Trains of stimulation at longer interstimulus intervals (1-30 s) resulted in a depression of EPSP amplitude. The time course of the synaptic depression was compared with that found in EPSPs resulting from paired-pulse stimulation of the dorsal root and found to be comparable. 5. The short-latency MLF EPSP was reversibly blocked by 6-cyano-7-nitroquinoxaline (CNQX), an antagonist of non-N-methyl-D-aspartate glutamate receptors, with a small CNQX-resistant component. Longer-latency components of the MLF EPSP were also blocked by CNQX, and some late components of the PSP were sensitive to strychnine. MLF activation of multiple polysynaptic pathways in the spinal cord is discussed.
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PMID:Excitation of lumbar motoneurons by the medial longitudinal fasciculus in the in vitro brain stem spinal cord preparation of the neonatal rat. 812 May 80

1. Dual intracellular recording was used to examine the interactions between neighbouring spiny (excitatory) and smooth (inhibitory) neurones in layer 4 of cat visual cortex in vitro. Synaptic connections were found in seventeen excitatory-inhibitory neurone pairs, along with one inhibitory-inhibitory connection. 2. Fast excitatory inputs onto smooth neurones (basket cells) from spiny cells (spiny stellate or pyramidal cells) (n = 6) produce large excitatory postsynaptic potentials (EPSPs) of up to 4 mV mean amplitude, whereas basket cells evoke slower inhibitory postsynaptic potentials (IPSPs) in their postsynaptic targets (n = 17), of smaller amplitude (up to 1.6 mV at membrane potentials of -60 mV). 3. Both types of PSP appear to be multiquantal, and both may exhibit depression of up to 60 % during short trains of presynaptic spikes. This depression can involve presynaptic and/or postsynaptic factors. 4. One-third (n = 5) of the spiny cell-smooth cell pairs tested were reciprocally connected, and in the one pair for which the suprathreshold interactions were comprehensively investigated, the pattern of basket cell firing was strongly influenced by the activity in the connected excitatory neurone. The basket cell was only effective in inhibiting spiny cell firing when the excitatory neurone was weakly driven.
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PMID:Synaptic interactions between smooth and spiny neurones in layer 4 of cat visual cortex in vitro. 950 1


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