Mitosis blocked

Plant alkaloids Taxol (paclitaxel) Vinblastine Vincristine Inhibits mitosis Interfere with mitosis, block P tubuhn polymerisation... 

Paclitaxel acts by enhancing microtubule assembly and stabilizing microtubules (1,2). Microtubules consist of polymers of tubulin in dynamic equilibrium with tubulin heterodimers. Their principal function is the formation of the mitotic spindle during cell division, but they are also active in many interphase functions, such as cellular motility, intracellular transport, and signal transmission. Paclitaxel inhibits the depolymerization of tubulin, and the microtubules formed in the presence of paclitaxel are extremely stable and dysfunctional. This stabilization impairs the essential assembly and disassembly required for dynamic cellular processes, and death of the cell results through disruption of the normal microtubular dynamics required for interphase processes and cell division. In tumor cells, cytotoxicity is represented by the appearance of abnormal microtubular bundles, which accumulate during G2 and mitosis, blocking the cell cycle (3). 

The influences of herbicides on cell division fall into two classes, ie, dismption of the mitotic sequence and inhibition of mitotic entry from interphase (G, S, G2). If ceU-cycle analyses indicate increases in abnormal mitotic figures, combined with decreases in one or more of the normal mitotic stages, the effect is upon mitosis. Mitotic effects usually involve the microtubules of the spindle apparatus in the form of spindle depolymerization, blocked tubulin synthesis, or inhibited microtubule polymerization (163). Alkaloids such as colchicine [64-86-8J,viahla.stiae [865-21-4] and vincristine [57-22-7] dismpt microtubule function (164). Colchicine prevents microtubule formation and promotes disassembly of those already present. Vinblastine and vincristine also bind to free tubulin molecules, precipitating crystalline tubulin in the cytoplasm. The capacities of these dmgs to interfere with mitotic spindles, blocking cell division, makes them useful in cancer treatment. 

When mitosis is blocked by colchicine, the treated cells may be left with an extra set of chromosomes. Plants with extra sets of chromosomes are typically larger and more vigorous than normal plants. Flowers developed in this way may grow with double the normal number of petals, and fruits may produce much larger amounts of sugar. 

Protoanemonin, which has been isolated from Anemone pulsatilla and Ranunculus spp., was reported to inhibit root growth by slowing down metabolism and blocking mitosis 35). Erickson and Rosen 35) observed cytological effects in corn root tips at concentrations of 10M and lower. Cells undergoing division appeared to accumulate in the interphase or prophase stages. Metaphase, anaphase, and telophase stages were not observed. Cytoplasmic and vacuolar structures were disturbed and the presence of mitochondria could not be demonstrated in treated tissue. Thimann and Bonner 141) reported that protoanemonin was 10 to 30 times more inhibitory than coumarin in coleoptile and split pea stem tests, and that BAL prevented the inhibitory action. 

APC is active from mid-M phase (anaphase) to the end of G1 phase and required for disconnecting sister chromatids and exit from M-Phase to Gl. The complex mediates the ubiquitination of Securin and Cyclin B. Degradation of these proteins, which block mitotic progression, promotes anaphase onset and exit from mitosis. 

Vinca alkaloids are derived from the Madagascar periwinkle plant, Catharanthus roseus. The main alkaloids are vincristine, vinblastine and vindesine. Vinca alkaloids are cell-cycle-specific agents and block cells in mitosis. This cellular activity is due to their ability to bind specifically to tubulin and to block the ability of the protein to polymerize into microtubules. This prevents spindle formation in mitosing cells and causes arrest at metaphase. Vinca alkaloids also inhibit other cellular activities that involve microtubules, such as leukocyte phagocytosis and chemotaxis as well as axonal transport in neurons. Side effects of the vinca alkaloids such as their neurotoxicity may be due to disruption of these functions. 

Despite the complexity of the experiments and the enormous data manipulation necessary, complex biological pathways, as well as new drug targets are being identified by this method. Examples include screens for compounds that arrest cells in mitosis, that block cell migration, and that block the secretory pathway [50], or assays with primary T cells from PLP TCR transgenic mice for their inhibitory activity on the proliferation and secretion of proinflammatory cytokines in PLP-reactive T cells [51], and identification of small-molecule inhibitors of histone acetyltransferase activity [52]. 

Chia An interesting experiment in which we blocked division with String and then kicked the cells into mitosis again with heat-shock String, to see whether the... 

Colchicine is allelochemical from Colchicium genera, which binds the tubulin and prevents the mitosis (Fig. 2) Cytochalasin B, cell permeable fungal toxin from Helminthosporium dematiodeum, which inhibits cell division by blocking the active polymerization and formation of contractile actomyosin microfilaments, inhibit the germination of microspores (Roshchina, 2005a). Therefore, one mechanism of action of some allelochemicals from plants and... 

Since cellular immunity results in the release of chemotactic lymphocytes that in turn enhance phagocytosis, a deficiency in cellular immunity may also result in chronic infections. Cellular immunity is mediated by T cells, macrophages, and NK cells involved in complex compensatory networks and secondary changes. Immunosuppressive agents may act directly by lethality to T cells, or indirectly by blocking mitosis, lymphokine synthesis, lymphokine release, or membrane receptors to lymphokines. In addition, cellular immunity is involved in the production and release of interferon, a lymphokine that ultimately results in blockage of viral replication (Table 15.4). Viruses are particularly susceptible to cytolysis by T cells since they often attach to the surface of infected cells. Thus, immunosuppression of any of the components of cellular immunity may result in an increase in protozoan, fungal, and viral infections as well as opportunistic bacterial infections. 

Pioneer work in this field has been carried out by J. S. Mitchell.1 The idea is to select a radiosensitizing compound which blocks entry of cells into mitosis and also provides chromosome breakage. The compound itself must also be of low toxicity. 

Aminouracil produces a block in the mitotic cycle of various plants. For example, cessation of mitosis occurred in Vida faba roots incubated 24 h with this compound [392—394]. Depending on different experimental conditions, thymidine or thymidylic acid may or may not alleviate these effects [392—394]. It was concluded that 5-aminouracil depressed the rate of DNA synthesis, which led to an accumulation of cells in the S phase. After removal of the agent, DNA synthesis resumed. Similar results have been observed with Allium cepa and Haplopappus gracilis [395, 396]. Inhibition of guanosine incorporation into RNA of meristematic cells in Vida faba by 5-aminouracil was also reported [397]. 

Beside this dermatoxic activity pederin (147) has various biological activities (92). When administered in appropriate doses to partially hepatectomized rats, this compound stimulates development of hepatic tissues. The inhibitory effect at the cellular level has been found in chicken heart fibroblast cultures, and mice embryo, dog kidney, HeLa, and KB cell lines. In plants, root growth of Lupinus albus is inhibited and mitosis in Allium cepa blocked at the metaphasic stage. Also, pederin (147) inhibits protein synthesis and growth of yeast cells. In addition, the treatment of rat ascites sarcoma with purified extracts of P. fuscipes produces almost complete regression. 

It blocks mitosis and produces metaphase arrest by binding to microtubular protein tubulin, preventing its polymerization. 

At the end of mitosis imtil the restriction point R, pRb exists in an underphosphory-lated form. In the underphosphorylated form, pRb has a growth-inhibiting function in that it blocks the activity of activity of transcription factors that control expression of S phase genes. 

Colchicine is a specific spindle poison, which binds to tubulin, and inhibits its polymerization. Consequently, colchicine blocks mitosis, causing aneuploidy, the unequal partition of chromosomes, and metaphase arrest. 

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