Evidence that signal transduction for osmoreception is mediated by stretch-activated ion channels in tilapia

doi:10.1152/ajpcell.00532.2002

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Am J Physiol Cell Physiol 284: C1290-C1296, 2003. First published January 22, 2003; doi:10.1152/ajpcell.00532.2002
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Vol. 284, Issue 5, C1290-C1296, May 2003

Evidence that signal transduction for osmoreception is mediated by stretch-activated ion channels in tilapia

A. P. Seale¹^,³, N. H. Richman III¹, T. Hirano¹, I. Cooke²^,³, and E. G. Grau¹^,³

¹ Hawaii Institute of Marine Biology, University of Hawaii, Kaneohe 96744; and ² Pacific Biomedical Research Center and ³ Department of Zoology, University of Hawaii, Honolulu, Hawaii 96822

Prolactin (PRL) plays a central role in the freshwater osmoregulation of teleost fish, including the tilapia (Oreochromismossambicus). Consistent with this action, PRL release from thetilapia pituitary increases as extracellular osmolality is reducedboth in vitro and in vivo. Dispersed tilapia PRL cells were incubatedin a perfusion chamber that allowed simultaneous measurementsof cell volume and PRL release. Intracellular Ca²⁺ concentrations were measured from fura 2-loaded PRL cells treatedin a similar way. Gadolinium (Gd³⁺), known to block stretch-activated cation channels, inhibitedhyposmotically induced PRL release in a dose-related manner withoutpreventing cell swelling. Nifedipine, an L-type Ca²⁺ channel blocker, did not prevent the increase in PRL releaseduring hyposmotic stimulation. A high, depolarizing concentrationof KCl induced a transient and marked increase of intracellularCa²⁺ and release of PRL but did not prevent the rise in intracellularCa²⁺ and PRL release evoked by exposure to hyposmotic medium. Thesefindings suggest that a decrease in extracellular osmolality stimulatesPRL release through the opening of stretch-activated ion channels,which allow extracellular Ca²⁺ to enter the cell when itswells.

prolactin; hyposmotic stimulation; calcium; cell volume

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