2004
DOI: 10.1523/jneurosci.2146-04.2004
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Mechanism of Spontaneous Firing in Dorsomedial Suprachiasmatic Nucleus Neurons

Abstract: We studied acutely dissociated neurons from the dorsomedial (shell) region of the rat suprachiasmatic nucleus (SCN) with the aim of determining the ionic conductances that underlie spontaneous firing. Most isolated neurons were spontaneously active, firing rhythmically at an average frequency of 8 Ϯ 4 Hz. After application of TTX, oscillatory activity generally continued, but more slowly and at more depolarized voltages; these oscillations were usually blocked by 2 M nimodipine. To quantify the ionic currents … Show more

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Cited by 164 publications
(241 citation statements)
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“…However, it is controversial as to the precise physiological role of this rhythm in suprachiasmatic nucleus neurons (Pennartz et al 2002;Cloues and Sather 2003;Jackson et al 2004). One possibility is that L-type VGCCs could participate in the circadian input pathway to synchronize the rhythmicity of the expression of clock genes such as Per2 and Bmal1 (Nahm et al 2005).…”
Section: Discussionmentioning
confidence: 99%
“…However, it is controversial as to the precise physiological role of this rhythm in suprachiasmatic nucleus neurons (Pennartz et al 2002;Cloues and Sather 2003;Jackson et al 2004). One possibility is that L-type VGCCs could participate in the circadian input pathway to synchronize the rhythmicity of the expression of clock genes such as Per2 and Bmal1 (Nahm et al 2005).…”
Section: Discussionmentioning
confidence: 99%
“…46 In MCCs and RCCs this is not always the case, in some cells the block of firing by Cd 2+ causes slight depolarizations, as illustrated in Figure 2, indicating a parallel block of Ca 2+ -activated K + currents. As in SNc [46][47][48][49][50] and other neurons, [51][52][53][54][55][56] the persisting firing in the presence of TTX can be effectively blocked by nifedipine (3 μM) and accelerated by BayK 8644 (1 μM) (Fig. 2, bottom), suggesting a main role of LTCCs in controlling AP firing in these cells.…”
Section: Why Chromaffin Cells Fire Spontaneously?mentioning
confidence: 95%
“…As LTCCs are mainly expressed in the soma and proximal dendrites of neurons and abundantly in neuroendocrine cells, their inhibition by CB1R most likely will alter somatic activities and hormone release. For instance, LTCCs activating at subthreshold potentials are expressed in midbrain dopaminergic neurons of substantia nigra [57] and hypothalamic suprachiasmatic nucleus neurons [58], which also express high densities of CB1R [59]. LTCCs regulate the shape of action potentials and the frequency of spontaneous firing [60], thus an effective up-or down-modulation of these channels by CB1R activation or deactivation can cause drastic changes to neuronal firing, neurotransmitter release and brain functions control.…”
Section: Role Of the Cb1r-mediated Inhibition Of Ltccs In Hormone Relmentioning
confidence: 99%