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The Variability of Basal Action Potential Firing Is Positively Correlated with Bursting in Hypothalamic Oxytocin Neurones (2000)

Brown, D. ; Fontanaud, P. ; Moos, F. C.

Oxford, UK : Blackwell Science Ltd

Journal of neuroendocrinology 12 (2000), S. 0

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ISSN: 1365-2826

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Magnocellular oxytocin neurones are proposed as a suitable system for studying the mechanisms involved in the regulation of neuronal bursting activity. They display high frequency (50 sp./s) bursts of spikes (approximately every 300 s), in response to specific stimuli, which are superimposed on a variable level of basal activity and are tightly co-ordinated as a result of network interactions. The relationship between the strength of the bursting activity (as quantified by burst amplitude and interburst interval) and the characteristics of the interburst basal activity were assessed. During control conditions, mean basal activity and variability of firing increased just before bursts. During experimental conditions leading to burst facilitation, burst amplitude increased and interburst interval decreased while a sustained increase in mean firing rate occurred. Variability of firing (measured by both the standard deviation of firing rate, and the index of dispersion which corrected this standard deviation for differences in mean firing rate), increased demonstrating an increase in spike clustering greater than expected as a result of increased basal activity. When bursting was restrained (i.e. interburst interval increased), mean basal activity increased substantially, but index of dispersion decreased. A narrowing of the interspike interval distribution occurred, indicating increased regularity of firing. The aspect of basal activity most strongly correlated with bursting was variability of firing rate. The strongest correlate of burst amplitude was the standard deviation of mean firing rate, whereas the strongest and most consistent correlate of interburst interval was the index of dispersion. In conclusion, bursting behaviour is most strongly related to the irregularity rather than the level of basal activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2826.2000.00478.x

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High Voltage-Activated Ca2+ Currents in Rat Supraoptic Neurones: Biophysical Properties and Expression of the Various Channel α1 Subunits (2001)

Joux, N. ; Chevaleyre, V. ; Alonso, G. ; [et al.]

Oxford, UK : Blackwell Science, Ltd

Journal of neuroendocrinology 13 (2001), S. 0

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ISSN: 1365-2826

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: The diversity of Ca2+ currents was studied in voltage-clamped acutely dissociated neurones from the rat supraoptic nucleus (SON), and the expression of the various corresponding pore-forming α1 subunits determined by immunohistochemistry. We observed the presence of all high voltage-activated L-, N-, P/Q- and R-type currents. We did not observe low-voltage-activated T-type current. The multimodal current/voltage relationships of L- and R-type currents indicated further heterogeneity within these current types, each exhibiting two components that differed by a high (−20 mV) and a lower (−40 mV) threshold potential of activation. L- and R-type currents were fast activating and showed time-dependent inactivation, conversely to N- and P/Q-type currents, which activated more slowly and did not inactivate. The immunocytochemical staining indicated that the soma and proximal dendrites of SON neurones were immunoreactive for Cav1.2, Cav1.3 (forming L-type channels), Cav2.1 (P/Q-type), Cav2.2 (N-type) and Cav2.3 subunits (R-type). Each subunit exhibited further specificity in its distribution throughout the nucleus, and we particularly observed strong immunostaining of Cav1.3 and Cav2.3 subunits within the dendritic zone of the SON. These data show a high heterogeneity of Ca2+ channels in SON. neurones, both in their functional properties and cellular distribution. The lower threshold and rapidly activating L- and R-type currents should underlie major Ca2+ entry during action potentials, while the slower and higher threshold N- and P/Q-type currents should be preferentially recruited during burst activity. It will be of key interest to determine their respective role in the numerous Ca2+-dependent events that control the activity and physiology of SON neurones

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2826.2001.00679.x

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