Real-time imaging of renin release in vitro

doi:10.1152/ajprenal.00420.2003

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Real-time imaging of renin release in vitro

János Peti-Peterdi,¹^,2 Attila Fintha,¹ Amanda L. Fuson,¹ Albert Tousson,³ and Robert H. Chow²

¹Nephrology Research and Training Center, Division of Nephrology, Department of Medicine, and ³High Resolution Imaging Facility, University of Alabama at Birmingham, Birmingham, Alabama 35294; and ²Department of Physiology and Biophysics and Zilkha Neurogenetic Institute, Keck School of Medicine, University of Southern California, Los Angeles, California 90089

Submitted 2 December 2003 ; accepted in final form 6 April 2004

Renin release from juxtaglomerular granular cells is consideredthe rate-limiting step in activation of the renin-angiotensinsystem that helps to maintain body salt and water balance. Availableassays to measure renin release are complex, indirect, and workwith significant internal errors. To directly visualize andstudy the dynamics of both the release and tissue activity ofrenin, we isolated and perfused afferent arterioles with attachedglomeruli dissected from rabbit kidneys and used multiphotonfluorescence imaging. Acidotropic fluorophores, such as quinacrineand LysoTrackers, clearly and selectively labeled renin granules.Immunohistochemistry of mouse kidney with a specific renin antibodyand quinacrine staining colocalized renin granules and quinacrinefluorescence. A low-salt diet for 1 wk caused an approximatelyfivefold increase in the number of both individual granulesand renin-positive granular cells. Time-lapse imaging showedno signs of granule trafficking or any movement, only the dimmingand disappearance of fluorescence from individual renin granuleswithin 1 s in response to 100 µM isoproterenol. Thereappeared to be a quantal release of the granular contents; i.e.,an all-or-none phenomenon. Using As4.1 cells, a granular cellline, we observed further classic signs of granule exocytosis,the emptying of granule content associated with a flash of quinacrinefluorescence. Using a fluorescence resonance energy transfer-based,5-(2-aminoethylamino)naphthalene-1-sulfonic acid (EDANS)-conjugatedrenin substrate in the bath, an increase in EDANS fluorescence(renin activity) was observed around granular cells in responseto isoproterenol. Fluorescence microscopy is an excellent toolfor the further study of the mechanism, regulation, and dynamicsof renin release.

multiphoton excitation; fluorescence microscopy; juxtaglomerular apparatus; renin activity; quinacrine

Address for reprint requests and other correspondence: J. Peti-Peterdi, ZNI335, MC 2821, 1501 San Pablo St., Los Angeles, CA 90089-2821 (E-mail: petipete{at}usc.edu).

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