Cell surface localisation and stability of uvomorulin during early mouse development

Cell surface localisation and stability of uvomorulin during early mouse development

We have examined immunocytochemically the subcellular distribution of the cell adhesion molecule uvomorulin in cleavage stage mouse embryos using conventional and confocal microscopy, under a range of detergent extraction and fixation regimes. Only traces of uvomorulin were detectable on the surface...

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Bibliographic Details
Published in:Zygote (Cambridge) Vol. 1; no. 4; p. 333
Main Authors: Clayton, L, Stinchcombe, S V, Johnson, M H
Format: Journal Article
Language:English
Published: England 01-11-1993
Subjects:
Animals
Blastomeres - metabolism
Blastomeres - ultrastructure
Cadherins - metabolism
Cell Adhesion
Cell Membrane - metabolism
Drug Stability
Embryonic and Fetal Development - physiology
Female
Fertilization - physiology
Immunohistochemistry
Male
Mice
Mitosis
Morula - cytology
Morula - metabolism
Oocytes - metabolism
Pregnancy
Zygote - metabolism
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Summary:We have examined immunocytochemically the subcellular distribution of the cell adhesion molecule uvomorulin in cleavage stage mouse embryos using conventional and confocal microscopy, under a range of detergent extraction and fixation regimes. Only traces of uvomorulin were detectable on the surface of unfertilised oocytes, whereas between 6 and 11 h after activation detergent-resistant surface expression was evident. This shift correlates with previously demonstrated changes in the pattern of synthesis and accumulation of uvomorulin from precursor state in unfertilised oocytes to mature protein after fertilisation. Embryos at subsequent stages up to the 8-cell stage exhibited a uniform distribution of uvomorulin on free surfaces and its concentration in regions of contact between blastomeres. At the 8-cell stage, during compaction, there was increased intercellular adhesion with concomitant accumulation of uvomorulin at intercellular contacts, whilst free surface uvomorulin was reduced and became relatively more susceptible to detergent extraction. When compact 8-cell embryos were decompacted in calcium-free medium, uvomorulin at contacts decreased while free surface and cytoplasmic staining increased. Blastomeres disaggregated from 4- and 8-cell embryos showed traces or 'footprints' of anti-uvomorulin staining in regions previously in apposition. These footprints disappeared over 45-60 min, during which time uvomorulin distribution became uniform. Possible mechanisms underlying the rearrangements which take place both at fertilisation and during compaction and experimental decompaction are discussed.
ISSN:0967-1994
DOI:10.1017/S0967199400001660