Abstract.
Using spectrofluorescence imaging of fura-2 loaded renal A6 cells, we have investigated the generation of the cytosolic Ca2+ signal in response to osmotic shock and localized membrane stretch. Upon hypotonic exposure, the cells began to swell prior to a transient increase in [Ca2+] i and the cells remained swollen after [Ca2+] i had returned towards basal levels. Exposure to 2/3rd strength Ringer produced a cell volume increase within 3 min, followed by a slow regulatory volume decrease (RVD). The hypotonic challenge also produced a transient increase in [Ca2+] after a delay of 22 sec. Both the RVD and [Ca2+] i response to hypotonicity were inhibited in a Ca2+-free bathing solution and by gadolinium (10 μm), an inhibitor of stretch-activated channels. Stretching the membrane by application of subatmospheric pressure (-2 kPa) inside a cell-attached patch-pipette induced a similar global increase in [Ca2+] i as occurred after hypotonic shock. A stretch-sensitive [Ca2+] i increase was also observed in a Ca2+-free bathing solution, provided the patch-pipette contained Ca2+. The mechanosensitive [Ca2+] i response was by gadolinium (10 μm) or Ca2+-free pipette solutions, even when Ca2+ (2 mm) was present in the bath. Long-term (>10 min) pretreatment of the cells with thapsigargin inhibited the [Ca2+] i response to hypotonicity. These results provide evidence that cell swelling or mechanical stimulation can activate a powerful amplification system linked to intracellular Ca2+ release mechanisms.
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Received: 3 August 1998/Revised: 19 November 1998
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Urbach, V., Leguen, I., O'Kelly, I. et al. Mechanosensitive Calcium Entry and Mobilization in Renal A6 Cells. J. Membrane Biol. 168, 29–37 (1999). https://doi.org/10.1007/s002329900495
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DOI: https://doi.org/10.1007/s002329900495