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An osmoreceptor is a sensory receptor primarily found in the hypothalamus of most organisms that detects changes in osmotic pressure. Osmoreceptors can be found in several structures, including two of the circumventricular organs – the vascular organ of the lamina terminalis, and the subfornical organ. They contribute to osmoregulation, controlling fluid balance in the body. Osmoreceptors are also found in the where they also modulate osmolality.
The osmoreceptors have a defined functionality as neurons that are endowed with the ability to detect extracellular fluid osmolarity. Osmoreceptors have aquaporin 4 proteins spanning through their plasma membranes in which water can diffuse, from an area of high to low water concentration. If plasma osmolarity rises above 290 mOsmol/L, then water will move out of the cell due to osmosis, causing the neuroreceptor to shrink in size. Embedded into the cell membrane are stretch inactivated cation channels (SICs), which when the cell shrinks in size, open and allow positively charged ions, such as Na+ and K+ ions to enter the cell. This causes initial depolarisation of the osmoreceptor and activates voltage-gated sodium channel, which through a complex conformational change, allows more sodium ions to enter the neuron, leading to further depolarisation and an action potential to be generated. This action potential travels along the axon of the neuron, and causes the opening of voltage-dependent calcium channels in the axon terminal. This leads to a Ca2+ influx, due to calcium ions diffusing into the neuron along their electrochemical gradient. The calcium ions binds to the synaptotagmin 1 sub-unit of the SNARE protein attached to the Vasopressin (AVP) containing vesicle membrane. This causes the fusion of the vesicle with the neuronal post synaptic membrane. Subsequent release of AVP into the posterior pituitary gland occurs, whereby vasopressin is secreted into the blood stream of the nearby capillaries.
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