Neurotrophin modulation of NMDA receptors in cultured murine and isolated rat neurons. J. Neurophysiol. 78: 2363-2371, 1997. Patch-clamp and calcium imaging techniques were used to assess the acute effects of the neurotrophins, brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), and nerve growth factor (NGF), on the responses of cultured and acutely isolated hippocampal and cultured striatal neurons to the glutamate receptor agonist N-methyl--aspartic acid (NMDA). The effects of BDNF on NMDA-activated currents were examined in greater detail. Currents evoked by NMDA, and the accompanying changes in intracellular calcium, were enhanced by low concentrations of the neurotrophins (1-20 ng/ml). The potentiation by the neurotrophins was rapid in onset and offset (<1 s). The neurotrophins also reduced desensitization of these currents in most cells. The enhancement of NMDA-activated currents by BDNF was observed using both perforated and whole cell patch recording techniques and could be demonstrated in outside-out patches. Furthermore, its effects were not attenuated by pretreatment with the protein kinase inhibitors genistein or 1-(5-isoquinolynesulfony)2-methylpiperazine (H7). Therefore, the actions of BDNF do not appear to be mediated by phosphorylation. Similar enhancements were observed with NT-3 and NT-4 and with NGF despite the fact that hippocampal neurons lack TrkA receptors. All together this evidence suggests that the enhancement of NMDA-evoked currents is unlikely to be mediated through the activation of growth factor receptors. Modulation of NMDA responses by BDNF was dependent on the concentration of extracellular glycine. The most pronounced potentiation by BDNF was observed at low concentrations, whereas no potentiation was observed in saturating concentrations of glycine, suggesting that BDNF may have increased the affinity of the NMDA receptor for glycine. However, the competitive glycine-site antagonist 7-chloro-kynurenic acid blocked the enhancement by BDNF without shifting the dose-inhibition relationship for this antagonist, and Mg2+ consistently depressed the potentiation of NMDA-evoked currents by BDNF, indicating that BDNF does not alter glycine affinity. BDNF also reversibly increased the probability of opening of NMDA channels recorded from outside-out patches taken from cultured hippocampal neurons. Other unrelated peptides including dynorphin and somatostatin also caused a glycine-dependent enhancement of NMDA currents and depressed the currents in saturating concentrations of glycine. In contrast, a shortened analogue dynorphin (6-17), which lacks N-terminus glycine residues, and another peptide met-enkephalin were without effects on NMDA currents recorded in low concentrations of glycine. Our results suggest that neurotrophins and other peptides can serve as glycine-like ligands for the NMDA receptor.
The electrosensory lateral line lobe (ELL) of the South American gymnotiform fish Apteronotus leptorhynchus has a laminar structure: electroreceptor afferents terminate ventrally whereas feedback input distributes to a superficial molecular layer containing the dendrites of the ELL principle (pyramidal) cells. There are two feedback pathways: a direct feedback projection that enters the ELL via a myelinated tract (stratum fibrosum, StF) and terminates in the ventral molecular layer (VML) and an indirect projection that enters as parallel fibers and terminates in the dorsal molecular layer. It has been proposed that the direct feedback pathway serves as a "searchlight" mechanism. This study characterizes StF synaptic transmission to determine whether the physiology of the direct feedback projection is consistent with this hypothesis. We used field and intracellular recordings from the ELL to investigate synaptic transmission of the StF in an in vitro slice preparation. Stimulation of the StF produced field potentials with a maximal negativity confined to a narrow band of tissue dorsal to the StF. Current source density analysis revealed two current sinks: an early sink within the StF and a later sink that corresponded to the anatomically defined VML. Field potential recordings from VML demonstrated that stimulation of the StF evoked an excitatory postsynaptic potential (EPSP) that peaked at a latency of 4-7 ms with a slow decay ( approximately 50 ms) to baseline. Intracellular recordings from pyramidal cells revealed that StF-evoked EPSPs consisted of at least two components: a fast gap junction mediated EPSP (peak 1.2-1.8 ms) and a chemical synaptic potential (peak 4-7 ms) with a slow decay phase ( approximately 50 ms). The amplitudes of the peak and decay phases of the chemical EPSP were increased by depolarizing current injection. Pharmacological studies demonstrated that the chemical EPSP was mainly due to ionotropic glutamate receptors with bothN-methyl--aspartate (NMDA) and non-NMDA components. NMDA receptors contributed substantially to both the early and late phase of the EPSP, whereas non-NMDA receptors contributed mainly to the early phase. Stimulation of the StF at physiological rates (100-200 Hz, 100 ms) produced an augmenting depolarization of the membrane potential of pyramidal cells. Temporal summation and a voltage-dependent enhancement of later EPSPs in the stimulus train permitted the compound EPSP to reach spike threshold. The nonlinear behavior of StF synaptic potentials is appropriate for the putative role of the direct feedback pathway as part of a searchlight mechanism allowing these fish to increase the electrodetectability of scanned objects.
1. Three parallel maps of the distribution of tuberous electroreceptor inputs are found in the medullary electrosensory lateral line lobe (ELL) of weakly electric fish. Pyramidal cells in each map are known to respond differentially to the frequency of amplitude modulations (AMs) of external electric fields in vivo. We used an in vitro ELL slice preparation of Apteronotus leptorhynchus to compare the characteristics of spontaneously active single units across the three tuberous maps. It was our objective to determine whether spontaneous bursting activity of pyramidal cells in each map correlates with the known AM frequency selectivities of pyramidal cells in vivo. 2. Single-unit discharges were recorded from the pyramidal cell layer of the centromedial segment (CMS), centrolateral segment (CLS), and lateral segment (LS) of the ELL. Stochastic analysis of interspike intervals (ISIs) was used to identify bursting and nonbursting unit activity, and to separately analyze intra- and interburst ISIs. Four ISI patterns were identified as 1) bursting, 2) regular spiking, 3) irregular spiking, and 4) highly irregular spiking. This work focuses primarily on the characteristics of bursting units across the ELL segments. 3. Spontaneous bursting discharge was identified in all three maps (68 of 97 units), with several characteristics changing in a gradual manner across the maps. The coefficient of variation (CV) of ISIs and intraburst ISIs decreased significantly from the CMS to the LS, whereas the CV of burst periods increased significantly from the CMS to the LS. Autocorrelations and power spectral density analysis identified units discharging in an oscillatory manner with the following ratio: CMS, 75%; CLS, 4%; LS, 8%. 4. The mean period of spike bursts decreased significantly across the segments (CMS, 2.7 s; CLS, 1.2 s; LS, 1.1 s) primarily because of a shortening of mean burst duration (CMS, 1.0 s; CLS, 0.1 s; LS, 0.05 s). The average number of spikes per burst decreased significantly across the maps (CMS, 61; CLS, 8; LS, 8), whereas the average frequency of spikes per burst increased (CMS, 90 Hz; CLS, 130 Hz; LS, 178 Hz), mainly through an increase in the maximal frequencies attained by units within each map. 5. Bursts in the CMS were unstructured in that the intraburst ISIs were serially independent, whereas for many units in the CLS and especially the LS there were serial dependencies of successive spikes, with alternating short and long ISIs during the burst. 6. These data reveal that the characteristics of bursting unit activity differ between the CMS, CLS, and LS maps in vitro, implying a modulation of the factors underlying burst discharge across multiple sensory maps. Because the pattern of change in burst activity between these maps parallels that of pyramidal cell AM frequency selectivity in vivo, oscillatory and burst discharge may represent the cellular mechanism used to tune these cells to specific frequencies of afferent input during electrolocation and electrocommunication.
Benign abnormalities of bone are common, especially in children.Malignant bone sarcomas are aggressive and have a poor outcome, particularly if treatment is delayed or initiated in a non-specialist centre.Conversely, specialist tumour centres are overwhelmed with referrals for benign disease, a predictable outcome of an increasingly litigious medical environment. This review aims to arm the general orthopaedic surgeon or general practitioner with information to better discern a benign bone lesion from a malignant one, and explain the process of investigation and onward referral for those in whom malignant disease is suspected.Cite this article: Plant J, Cannon S. Diagnostic work up and recognition of primary bone tumours: a review. EFORT Open Rev 2016;1:247-253. DOI: 10.1302/2058-5241.1.000035.
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