Neurons in the central nervous system (CNS) often store more than one neurotransmitter, but as yet the functional significance of this type of coexistence is poorly understood. 5-Hydroxytryptamine (5-HT) modulates calcium-dependent K+ channels (KCa) responsible for the postspike afterhyperpolarization in different regions of the CNS. In lamprey, 5-HT neurons control apamine-sensitive KCa channels in spinal locomotor network interneurons, thereby in addition regulating the duration of locomotor bursts. We report here that these spinal 5-HT neurons also contain dopamine. Like 5-HT, dopamine causes a reduction of the afterhyperpolarization, but in this case it is due to a reduction of calcium entry during the action potential, which results in a reduced activation of KCa. 5-HT and dopamine are both released from these midline neurons, and both reduce the afterhyperpolarization through two distinctly different, but complementary cellular mechanisms. The net effect of dopamine (10-100 microM) on the locomotor network is similar to that of 5-HT, and the effects of dopamine and 5-HT are additive at the network level.
This article reports on a study that used focus groups to determine what helps battered women get out of their abusive relationships and survive and grow once they have left their abusers. The principles for social work practice with battered women that were derived from this research are based on the women's accounts of their experiences and of their needs.
A wide variety of neuroactive substances have been suggested to be involved in the respiratory depression observed in response to severe hypoxia. By use of the technique of microdialysis, the release of dopamine (DA) was measured in the nucleus tractus solitarii during severe hypoxic provocations (6% O2 in N2) in the adult pentobarbital-anesthetized rabbit. DA release was analyzed by high-performance liquid chromatography with electrochemical detection. Such hypoxic provocations caused pronounced phase of depression in the phrenic nerve activity and enhanced release of DA. After bilateral carotid sinus nerve denervation, acute severe hypoxia did not give rise to enhanced release of DA or to phrenic nerve depression. Mild hypoxic (9% or 12% O2 in N2) or hypercapnic (6% CO2) stimuli resulted in an increased phrenic nerve activity without any concomitant changes in DA release. Decerebration at the midcollicular level in rabbits prevented an enhanced release of DA in the nucleus tractus solitarii during severe hypoxia. The results suggest that 1) DA is involved in the central ventilatory response to severe hypoxia, 2) not only the initial excitatory but also the second depressive phase in response to severe hypoxia is mediated partially by the peripheral chemoreceptors, and 3) the depressive phase is dependent on intact connections from suprapontine structures.
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