Activation of the metaphase checkpoint and an apoptosis programme in the early zebrafish embryo, by treatment with the spindle-destabilising agent nocodazole
- 1 February 1997
- journal article
- research article
- Published by Cambridge University Press (CUP) in Zygote
- Vol. 5 (4), 329-350
- https://doi.org/10.1017/s0967199400003919
Abstract
We have studied the developmental activation of the metaphase checkpoint, and the consequences of activating this checkpoint, in the zebrafish embryo. (1) Treatment with nocodazole (a microtubule destabiliser) before mid-blastula transition (MBT) produces complete destruction of all nuclei in the deep cell layer of the embryo. In contrast, nocodazole treatment after MBT efficiently produces metaphase arrest in this cell layer. Thus, the metaphase checkpoint becomes activated at MBT. (2) Although a metaphase arrest is induced by nocodazole, it is not induced by paclitaxel (a microtubule stabiliser). Thus the metaphase checkpoint appears to sense a destabilisation, but not a stabilisation, of spindle microtubules. (3) Metaphase-arrested cells (in nocodazole) can be driven into the next interphase by adding the Ca2+-specific ionophore A23187. Thus, a Ca2+-signalling pathway lies downstream of, or parallel to, the metaphase checkpoint. (4) After mid-gastrula stage, treatment with nocodazole produces DNA fragmentation in all three cell layers. In the enveloping epithelial monolayer (EVL), this is associated with a classical apoptotic phenotype. In the deep layer, it is associated with an unusual, highly condensed nuclear state that is entered directly from metaphase arrest. Thus, after the mid-gastrula stage, the embryo responds to nocodazle by undergoing apoptosis. (5) Nocodazole-induced apoptosis in the deep cell layer can be blocked by the caspase-1,4,5 inhibitors Ac-YVAD-CHO and Ac-YVAD-CMK. This suggests that a homologue of the C. elegans ced-9—ced-4—ced-3 pathway is involved in control over apoptosis in the early zebrafish embryo.Keywords
This publication has 93 references indexed in Scilit:
- Caenorhabditis elegans CED-4 stimulates CED-3 processing and CED-3-inducedCurrent Biology, 1997
- Activation of the Budding Yeast Spindle Assembly Checkpoint Without Mitotic Spindle DisruptionScience, 1996
- Paclitaxel-induced apoptotic changes followed by time-lapse video microscopy in cell lines established from head and neck cancerZeitschrift für Krebsforschung und Klinische Onkologie, 1996
- Stages of embryonic development of the zebrafishDevelopmental Dynamics, 1995
- Phases of the cell cycle sensitive to endoreduplication induction in CHO-K1 cellsMutation Research, 1995
- Feedback control of mitosis in budding yeastCell, 1991
- S. cerevisiae genes required for cell cycle arrest in response to loss of microtubule functionCell, 1991
- A major developmental transition in early xenopus embryos: II. control of the onset of transcriptionCell, 1982
- A major developmental transition in early xenopus embryos: I. characterization and timing of cellular changes at the midblastula stageCell, 1982
- Exogenous control of morphogenesis in isolated Fundulus blastoderms by nutrient chemical factorsJournal of Experimental Zoology, 1956