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Junction formation in aggregated embryonal carcinoma cells
Authors:Judy M. Strum  Sreedharan Kartha  Jeanette S. Felix
Affiliation:1. Developmental Genetics Laboratory, Department of Pediatrics, The Johns Hopkins University School of Medicine, Baltimore, Maryland 21205 USA;2. Department of Anatomy, University of Maryland School of Medicine, Baltimore, Maryland, USA
Abstract:Under the action of supplemental calcium, H6 mouse embryonal carcinoma cell aggregates undergo compaction, a morphological phenomenon similar to mouse embryonic compaction. Formation of various types of cell junctions, especially gap junctions, is associated with compaction of the embryo and we sought to analyze the pattern of junction formation during aggregation and compaction of H6 cells. At 24 hr of aggregation, gap junctions were abundant in both uncompacted and compacted aggregates but quantitative analysis of freeze fracture replicas of these junctions showed a 20-fold increase in the size of the largest gap junctions in compacted aggregates. Such a difference in size could even be detected at 12 hr of aggregation. Tight junctions were not normally formed in 12 hr aggregates but initial stages of tight junction formation could be noticed in 12 hr compacted aggregates. More definitive tight junctions and desmosomes were evident only after 48 hr of aggregation. Thus we have observed that both uncompacted and compacted aggregates can form gap junctions at similar frequencies, suggesting that cell flattening, which contributes to the compacted morphology, is not a requisite for gap junctions. Likewise, generation of the compacted morphology seems to be independent of gap junction formation. This supports the idea that compaction in embryonal carcinoma cells results from calcium-induced cell flattening, probably through the mobilization of cytoskeletal elements. Calcium-dependent features of H6 cell aggregation and compaction enables the independent analysis of separate steps in compaction.
Keywords:Address correspondence and reprint requests to Jeanette S. Felix   Department of Pediatrics   CMSC 6-124   Johns Hopkins Hospital   600 N. Wolfe Street   Baltimore   Md. 21205.
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