A defined range of guard cell calcium oscillation parameters encodes stomatal movements

Oscillations in cytosolic calcium concentration ([Ca2+]cyt) are central regulators of signal transduction cascades, although the roles of individual [Ca2+]cyt oscillation parameters in regulating downstream physiological responses remain largely unknown. In plants, guard cells integrate environmental and endogenous signals to regulate the aperture of stomatal pores and [Ca2+]cyt oscillations are a fundamental component of stomatal closure. Here we systematically vary [Ca2+]cyt oscillation parameters in Arabidopsis guard cells using a ‘calcium clamp’ and show that [Ca2+]cyt controls stomatal closure by two mechanisms. Short-term ‘calcium-reactive’ closure occurred rapidly when [Ca2+]cyt was elevated, whereas the degree of long-term steady-state closure was ‘calcium programmed’ by [Ca2+]cyt oscillations within a defined range of frequency, transient number, duration and amplitude. Furthermore, in guard cells of the gca2 mutant, [Ca2+]cyt oscillations induced by abscisic acid and extracellular calcium had increased frequencies and reduced transient duration, and steady-state stomatal closure was abolished. Experimentally imposing [Ca2+]cyt oscillations with parameters that elicited closure in the wild type restored long-term closure in gca2 stomata. These data show that a defined window of guard cell [Ca2+]cyt oscillation parameters programs changes in steady-state stomatal aperture.

[1]  A Miyawaki,et al.  Dynamic and quantitative Ca2+ measurements using improved cameleons. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[2]  Z. Pei,et al.  Differential abscisic acid regulation of guard cell slow anion channels in Arabidopsis wild-type and abi1 and abi2 mutants. , 1997, The Plant cell.

[3]  Nicholas C. Spitzer,et al.  In vivo regulation of axon extension and pathfinding by growth-cone calcium transients , 1999, Nature.

[4]  Z. Pei,et al.  Role of farnesyltransferase in ABA regulation of guard cell anion channels and plant water loss. , 1998, Science.

[5]  N. Spitzer,et al.  Distinct aspects of neuronal differentiation encoded by frequency of spontaneous Ca2+ transients , 1995, Nature.

[6]  P. Camacho,et al.  Increased frequency of calcium waves in Xenopus laevis oocytes that express a calcium-ATPase. , 1993, Science.

[7]  M. Berridge The AM and FM of calcium signalling , 1997, Nature.

[8]  S. Hagiwara,et al.  Repetitive increases in cytosolic Ca2+ of guard cells by abscisic acid activation of nonselective Ca2+ permeable channels. , 1990, Proceedings of the National Academy of Sciences of the United States of America.

[9]  A. Trewavas,et al.  Ca2+ signalling in plant cells: the big network! , 1998, Current opinion in plant biology.

[10]  Roger Y. Tsien,et al.  Cell-permeant caged InsP3 ester shows that Ca2+ spike frequency can optimize gene expression , 1998, Nature.

[11]  C. M. Karssen,et al.  The isolation and characterization of abscisic acid-insensitive mutants of Arabidopsis thaliana , 1984 .

[12]  M. Blatt,et al.  Ca(2+) signalling and control of guard-cell volume in stomatal movements. , 2000, Current opinion in plant biology.

[13]  D. Ehrhardt,et al.  Calcium Spiking in Plant Root Hairs Responding to Rhizobium Nodulation Signals , 1996, Cell.

[14]  A. Hetherington,et al.  Abscisic acid induces oscillations in guard-cell cytosolic free calcium that involve phosphoinositide-specific phospholipase C. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[15]  R. Tsien,et al.  Cameleon calcium indicator reports cytoplasmic calcium dynamics in Arabidopsis guard cells. , 1999, The Plant journal : for cell and molecular biology.

[16]  A. Hills,et al.  Ca2+ channels at the plasma membrane of stomatal guard cells are activated by hyperpolarization and abscisic acid. , 2000, Proceedings of the National Academy of Sciences of the United States of America.

[17]  Mary A. Logan,et al.  DEPARTMENT OF BIOLOGY , 2003 .

[18]  M. Blatt,et al.  Membrane voltage initiates Ca2+ waves and potentiates Ca2+ increases with abscisic acid in stomatal guard cells. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[19]  Keli Xu,et al.  Calcium oscillations increase the efficiency and specificity of gene expression , 1998, Nature.

[20]  P. McCourt,et al.  A Protein Farnesyl Transferase Involved in Abscisic Acid Signal Transduction in Arabidopsis , 1996, Science.

[21]  Zhen-Ming Pei,et al.  Calcium channels activated by hydrogen peroxide mediate abscisic acid signalling in guard cells , 2000, Nature.

[22]  R Y Tsien,et al.  Alteration of stimulus-specific guard cell calcium oscillations and stomatal closing in Arabidopsis det3 mutant. , 2000, Science.

[23]  M. Fricker,et al.  Role of Calcium in Signal Transduction of Commelina Guard Cells. , 1991, The Plant cell.

[24]  P. De Koninck,et al.  Sensitivity of CaM kinase II to the frequency of Ca2+ oscillations. , 1998, Science.

[25]  J. Taylor,et al.  Stimulus-Induced Oscillations in Guard Cell Cytosolic Free Calcium. , 1995, The Plant cell.

[26]  E. Macrobbie,et al.  Signalling in guard cells and regulation of ion channel activity. , 1997, Journal of experimental botany.

[27]  J. Feijó,et al.  Pollen Tube Growth and the Intracellular Cytosolic Calcium Gradient Oscillate in Phase while Extracellular Calcium Influx Is Delayed. , 1997, The Plant cell.

[28]  A. Hetherington,et al.  Encoding specificity in Ca2+ signalling systems , 1998 .

[29]  E. Grill,et al.  Signalling of abscisic acid to regulate plant growth. , 1998, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.