Chapter title |
Taurine Homeostasis and Volume Control
|
---|---|
Chapter number | 3 |
Book title |
Glial Amino Acid Transporters
|
Published in |
Advances in neurobiology, January 2017
|
DOI | 10.1007/978-3-319-55769-4_3 |
Pubmed ID | |
Book ISBNs |
978-3-31-955767-0, 978-3-31-955769-4
|
Authors |
Herminia Pasantes-Morales, Pasantes-Morales, Herminia |
Abstract |
Taurine content is high (mM) in mammalian brain. By its major role as an osmolyte, taurine contributes to the cell volume control, which is particularly critical in the brain. Taurine participates in osmotic adjustments required to maintain the organization and size of intracellular compartments. It counteracts volume fluctuations in unbalanced transmembrane fluxes of ions and neurotransmitters, preserving the functional synaptic contacts. Taurine has a key role in the long-term adaptation to chronic hyponatremia as well as in other pathologies leading to brain edema. Together with other osmolytes, taurine corrects cell shrinkage, preventing mysfunction of organelles and apoptosis. Swelling corrective taurine efflux occurs through a leak pathway, likely formed by LCRR8 protein isoforms. Shrinkage-activated influx comes largely by the increased activity of the Na(+)/Cl(-)-dependent transporter. The brain taurine pool results from the equilibrium between (i) dietary intake and active transport into the cell, (ii) synthesis in the brain itself or import of that synthesized elsewhere, and (iii) leak and posterior excretion. The interplay between these elements preserves brain taurine homeostasis in physiological conditions and permits the proper adjustments upon deviations of normal in the internal/external environment. |
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