Aluminium effects on microtubule organization in dividing root-tip cells of Triticum turgidum. I. Mitotic cells

G. FRANTZIOS; B. GALATIS; P. APOSTOLAKOS

doi:10.1046/j.1469-8137.2000.00580.x

Abstract

The effects of aluminium (Al) on dividing root-tip cells of Triticum turgidum were investigated with tubulin immunolabelling and electron microscopy. Aluminium affects the mechanisms controlling the organization of microtubule (MT) cytoskeleton, as well as tubulin polymerization, and induces the following aberrations in mitotic cells. (1) It delays the MT disassembly during mitosis, resulting in the persistence of preprophase MT bands in the late prophase cells, the presence of prophase spindles in prometaphase cells, and a disturbance in the shortening of kinetochore MT bundles in anaphase cells. (2) It interferes with the self-organization process of MTs into bipolar systems, inhibiting the formation of prophase and metaphase spindles. (3) Aluminium induces the formation of atypical MT arrays, which in the immunofluorescent specimens appear as ring-like tubulin aggregations in the cortical cytoplasm of the preprophase/prophase cells and as endoplasmic tubulin bundles in prophase and metaphase/anaphase cells; abnormal preprophase MT bands are assembled, consisting of atypical cortical and endoplasmic MT bundles, the latter clearly lining the nuclear envelope on the preprophase MT band plane. (4) It disorders the chromosome movements carried out by the mitotic spindle. In addition, after prolonged Al treatments chromatin condensation is inhibited. The outcome is greatly disturbed organization and function of the mitotic apparatus, as well as inhibition of cells from entering mitosis. This study shows that the MT cytoskeleton is a target site of Al toxicity in mitotic root-tip cells of T. turgidum. The possible mechanisms by which Al exerts its toxicity on MT organization and function are discussed.

Crossref Citations

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Komis, G. Apostolakos and Galatis, B. 2001. Altered patterns of tubulin polymerization in dividing leaf cells of Chlorophyton comosum after a hyperosmotic treatment. New Phytologist, Vol. 149, Issue. 2, p. 193.

Komis, George Apostolakos, Panagiotis and Galatis, Basil 2002. Hyperosmotic Stress Induces Formation of Tubulin Macrotubules in Root-Tip Cells of Triticum turgidum: Their Probable Involvement in Protoplast Volume Control. Plant and Cell Physiology, Vol. 43, Issue. 8, p. 911.

Rengel, Z. and Zhang, W.‐H. 2003. Role of dynamics of intracellular calcium in aluminium‐toxicity syndrome. New Phytologist, Vol. 159, Issue. 2, p. 295.

Dovgalyuk, A. Kalynyak, T. and Blume, Ya.B. 2003. Heavy metals have a different action from aluminium in disrupting microtubules in Allium cepa meristematic cells. Cell Biology International, Vol. 27, Issue. 3, p. 193.

Campos, José Marcello Salabert De and Viccini, Lyderson Facio 2003. Cytotoxicity of aluminum on meristematic cells ofZea maysandAllium cepa. Caryologia, Vol. 56, Issue. 1, p. 65.

Ramgareeb, Sumita Cooke, John A. and Watt, M.Paula 2004. Responses of meristematic callus cells of two Cynodon dactylon genotypes to aluminium. Journal of Plant Physiology, Vol. 161, Issue. 11, p. 1245.

Mohanty, Suprava Das, Anath Bandhu Das, Premananda and Mohanty, Prasanna 2004. Effect of a low dose of aluminum on mitotic and meiotic activity, 4C DNA content, and pollen sterility in rice, Oryza sativa L. cv. Lalat. Ecotoxicology and Environmental Safety, Vol. 59, Issue. 1, p. 70.

Frantzios, G. Galatis, B. and Apostolakos, P. 2005. Aluminium causes variable responses in actin filament cytoskeleton of the root tip cells of Triticum turgidum. Protoplasma, Vol. 225, Issue. 3-4, p. 129.

Kochian, Leon V. Piñeros, Miguel A. and Hoekenga, Owen A. 2005. The Physiology, Genetics and Molecular Biology of Plant Aluminum Resistance and Toxicity. Plant and Soil, Vol. 274, Issue. 1-2, p. 175.

Kochian, Leon V. Piñeros, Miguel A. and Hoekenga, Owen A. 2005. Root Physiology: from Gene to Function. Vol. 4, Issue. , p. 175.

Ng, Sing Muk and Narayanaswamy, R. 2006. Fluorescence sensor using a molecularly imprinted polymer as a recognition receptor for the detection of aluminium ions in aqueous media. Analytical and Bioanalytical Chemistry, Vol. 386, Issue. 5, p. 1235.

Přibyl, Pavel Cepák, Vladislav and Zachleder, Vilém 2008. Cytoskeletal alterations in interphase cells of the green alga Spirogyra decimina in response to heavy metals exposure: II. The effect of aluminium, nickel and copper. Toxicology in Vitro, Vol. 22, Issue. 5, p. 1160.

Chandran, Divya Sharopova, Natasha Ivashuta, Sergey Gantt, J. Stephen VandenBosch, Kathryn A. and Samac, Deborah A. 2008. Transcriptome profiling identified novel genes associated with aluminum toxicity, resistance and tolerance in Medicago truncatula. Planta, Vol. 228, Issue. 1, p. 151.

Apostolakos, Panagiotis Livanos, Pantelis and Galatis, Basil 2009. Microtubule involvement in the deposition of radial fibrillar callose arrays in stomata of the fern Asplenium nidus L.. Cell Motility, Vol. 66, Issue. 6, p. 342.

Jiang, Huan-Xin Tang, Ning Zheng, Jin-Gui and Chen, Li-Song 2009. Antagonistic actions of boron against inhibitory effects of aluminum toxicity on growth, CO2 assimilation, ribulose-1,5-bisphosphate carboxylase/oxygenase, and photosynthetic electron transport probed by the JIP-test, of Citrus grandisseedlings. BMC Plant Biology, Vol. 9, Issue. 1,

Liu, Donghua Xue, Ping Meng, Qingmin Zou, Jing Gu, Jiegang and Jiang, Wusheng 2009. Pb/Cu effects on the organization of microtubule cytoskeleton in interphase and mitotic cells of Allium sativum L.. Plant Cell Reports, Vol. 28, Issue. 4, p. 695.

Adamakis, I.-D. S. Panteris, E. and Eleftheriou, E. P. 2010. Tungsten affects the cortical microtubules of Pisum sativum root cells: experiments on tungstenâmolybdenum antagonism. Plant Biology, Vol. 12, Issue. 1, p. 114.

Dho, Stefania Camusso, Wanda Mucciarelli, Marco and Fusconi, Anna 2010. Arsenate toxicity on the apices of Pisum sativum L. seedling roots: Effects on mitotic activity, chromatin integrity and microtubules. Environmental and Experimental Botany, Vol. 69, Issue. 1, p. 17.

Livanos, Pantelis Galatis, Basil Quader, Hartmut and Apostolakos, Panagiotis 2012. Disturbance of reactive oxygen species homeostasis induces atypical tubulin polymer formation and affects mitosis in root‐tip cells of Triticum turgidum and Arabidopsis thaliana. Cytoskeleton, Vol. 69, Issue. 1, p. 1.

Mishra, Sagarika Sahoo, Lingaraj and Panda, Sanjib K. 2012. Improving Crop Productivity in Sustainable Agriculture. p. 49.

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Aluminium effects on microtubule organization in dividing root-tip cells of Triticum turgidum. I. Mitotic cells

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Aluminium effects on microtubule organization in dividing root-tip cells of Triticum turgidum. I. Mitotic cells

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