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Segregation of calcium signalling mechanisms in magnocellular neurones and terminals
G. Dayanithi, O. Forostyak, Y. Ueta, A. Verkhratsky, EC. Toescu,
Language English Country Netherlands
Document type Journal Article, Research Support, Non-U.S. Gov't, Review
- MeSH
- Homeostasis MeSH
- Pituitary Gland physiology MeSH
- Receptor Cross-Talk MeSH
- Humans MeSH
- Nerve Endings metabolism MeSH
- Neurosecretion MeSH
- Oxytocin metabolism MeSH
- Presynaptic Terminals metabolism MeSH
- Calcium Signaling MeSH
- Calcium Channels metabolism MeSH
- Vasopressins metabolism MeSH
- Animals MeSH
- Check Tag
- Humans MeSH
- Animals MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
- Review MeSH
Every cell or neuronal type utilizes its own specific organization of its Ca(2+) homeostasis depending on its specific function and its physiological needs. The magnocellular neurones, with their somata situated in the supraoptic and paraventricular nuclei of the hypothalamus and their nerve terminals populating the posterior hypophysis (neural lobe) are a typical and classical example of a neuroendocrine system, and an important experimental model for attempting to understand the characteristics of the neuronal organization of Ca(2+) homeostasis. The magnocellular neurones synthesize, in a cell specific manner, two neurohormones: arginine-vasopressin (AVP) and oxytocin (OT), which can be released, in a strict Ca(2+)-dependent manner, both at the axonal terminals, in the neural lobe, and at the somatodendritic level. The two types of neurones show also distinct type of bioelectrical activity, associated with specific secretory patterns. In these neurones, the Ca(2+) homeostatic pathways such as the Na(+)/Ca(2+) exchanger (NCX), the endoplasmic reticulum (ER) Ca(2+) pump, the plasmalemmal Ca(2+) pump (PMCA) and the mitochondria are acting in a complementary fashion in clearing Ca(2+) loads that follow neuronal stimulation. The somatodendritic AVP and OT release closely correlates with intracellular Ca(2+) dynamics. More importantly, the ER Ca(2+) stores play a major role in Ca(2+) homeostatic mechanism in identified OT neurones. The balance between the Ca(2+) homeostatic systems that are in the supraoptic neurones differ from those active in the terminals, in which mainly Ca(2+) extrusion through the Ca(2+) pump in the plasma membrane and uptake by mitochondria are active. In both AVP and OT nerve terminals, no functional ER Ca(2+) stores can be evidenced experimentally. We conclude that the physiological significance of the complexity of Ca(2+) homeostatic mechanisms in the somatodendritic region of supraoptic neurones and their terminals can be multifaceted, attributable, in major part, to their specialized electrical activity and Ca(2+)-dependent neurohormone release.
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- $a Every cell or neuronal type utilizes its own specific organization of its Ca(2+) homeostasis depending on its specific function and its physiological needs. The magnocellular neurones, with their somata situated in the supraoptic and paraventricular nuclei of the hypothalamus and their nerve terminals populating the posterior hypophysis (neural lobe) are a typical and classical example of a neuroendocrine system, and an important experimental model for attempting to understand the characteristics of the neuronal organization of Ca(2+) homeostasis. The magnocellular neurones synthesize, in a cell specific manner, two neurohormones: arginine-vasopressin (AVP) and oxytocin (OT), which can be released, in a strict Ca(2+)-dependent manner, both at the axonal terminals, in the neural lobe, and at the somatodendritic level. The two types of neurones show also distinct type of bioelectrical activity, associated with specific secretory patterns. In these neurones, the Ca(2+) homeostatic pathways such as the Na(+)/Ca(2+) exchanger (NCX), the endoplasmic reticulum (ER) Ca(2+) pump, the plasmalemmal Ca(2+) pump (PMCA) and the mitochondria are acting in a complementary fashion in clearing Ca(2+) loads that follow neuronal stimulation. The somatodendritic AVP and OT release closely correlates with intracellular Ca(2+) dynamics. More importantly, the ER Ca(2+) stores play a major role in Ca(2+) homeostatic mechanism in identified OT neurones. The balance between the Ca(2+) homeostatic systems that are in the supraoptic neurones differ from those active in the terminals, in which mainly Ca(2+) extrusion through the Ca(2+) pump in the plasma membrane and uptake by mitochondria are active. In both AVP and OT nerve terminals, no functional ER Ca(2+) stores can be evidenced experimentally. We conclude that the physiological significance of the complexity of Ca(2+) homeostatic mechanisms in the somatodendritic region of supraoptic neurones and their terminals can be multifaceted, attributable, in major part, to their specialized electrical activity and Ca(2+)-dependent neurohormone release.
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