Investigative Ophthalmology & Visual Science, Vol 38, 2300-2312, Copyright © 1997 by Association for Research in Vision and Ophthalmology

ARTICLES AND REPORTS

Calcium homeostasis of isolated single cortical fibers of rat lens

SK Srivastava, LF Wang, NH Ansari and A Bhatnagar
Department of Human Biological Chemistry and Genetics, University of Texas Medical Branch, Galveston 77555-0647, USA.

PURPOSE: To investigate the calcium homeostasis in single fiber cells isolated from rat ocular lens cortex and to quantify the changes in the concentration of free intracellular calcium [Ca2+]i during the process of disintegrative globulization. METHODS: Individual fiber cells from the cortex of the adult rat lens were isolated by treatment with trypsin in ion-free buffered sucrose. The isolated fiber cells were loaded with the acetoxymethyl esters of Fluo-3 or Calcium Green-2, or with Fluo-3 and Fura Red, and changes in [Ca2+]i of single cortical fibers were measured using a microfluorometer. The time course of increase of [Ca2+]i in fiber cells exposed to Ringer's solution was measured, and the effects on the increase of [Ca2+]i of calcium channel blocker, verapamil, Na-Ca exchange inhibitors Ni2+ and Zn2+, and protease inhibitor, leupeptin, Na+-free and K+-free media and Ca2+- containing isotonic sucrose solution, were investigated. RESULTS: In Hepes sucrose solution (containing approximately 1.5 microM Ca2+), the isolated fiber cells maintained stable values of [Ca2+]i at 99.6+/-10 nM (n = 32). Exposure of the isolated fibers to Ringer's solution (containing 2 mM Ca2+) led to a monoexponential increase of [Ca2+]i at a rate of 0.12 min(-1). This increase in [Ca2+]i was accompanied by disintegration of the isolated fibers into discrete but resealed globules. Changes in [Ca2+]i, monitored by using a two-dye ratiometric method using Fura Red and fluo-3, showed a progressive increase in [Ca2+]i in fibers exposed to Ringer's solution, preceding globulization. The [Ca2+]i in the globules in Ringer's solution, determined using Calcium Green-2, was 3.6+/-0.7 microM (n = 23). Compared with that in fibers in Ringer's solution, the rate of increase of [Ca2+]i in fibers was much slower in the presence of 50 microM verapamil (0.047 min[-1]), in Na+-free (0.086 min[-1]) and in K+-free (0.062 min[-1]) Ringer's solution, or when the fibers were suspended in Hepes-sucrose solution, containing 2 mM Ca2+ (0.046 min[-1]). After 30 minutes, the [Ca2+]i of fiber cells exposed to Ringer's solution, containing 2 mM Ni2+ (574.7+/-29 nM; n = 7) or Zn2+ (402.6+/-77 nM; n = 7) was significantly lower (P < 0.001) compared with that in fiber cells exposed to Ringer's solution alone (1995+/-461 nM, n = 10). In Ringer's solution, leupeptin delayed globulization without significantly affecting the increase in [Ca2+]i. The [Ca2+]i of fiber cells isolated from outer and inner cortex and suspended in Hepes- sucrose was comparable; however, after 15 minutes of exposure to Ringer's solution, [Ca2+]i in fibers from the outer cortex was approximately three times higher than [Ca2+]i in those from the inner cortex. CONCLUSIONS: Exposure to high (millimolar) concentrations of calcium in the external medium leads to an increase in [Ca2+]i of isolated individual fiber cells, which precedes disintegrative globulization. The protective effects of Na+-free and K+-free solutions on globulization appear to be due to a lower rate of increase of [Ca2+]i. Part of the calcium influx may be mediated by L-type calcium channels and by Na-Ca exchange, operating in reverse. Proteolytic inhibitors do not affect the increase in [Ca2+]i but delay globulization by inhibiting calcium-mediated proteolysis. The isolated fiber cells and the disintegrated globules maintain a 100- to 300-fold gradient of calcium across their plasma membranes.

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