Binucleated cells

Binucleated cells

A binucleated cell has two nuclei. The cell above was stained with DAPI to highlight the nuclei and treated with antibodies against tubulin to highlight the microtubules to show the binucleation.
Classification and external resources

Binucleated cells are cells that contain two nuclei. This type of cell is most commonly found in cancer cells and may arise from a variety of causes. Binucleation can be easily visualized through staining and microscopy. In general, binucleation has negative effects on cell viability and subsequent mitosis.

Causes

Cartoon of cleavage furrow formation and resolution. (A) depicts a normal cleavage furrow resolution. (B) depicts a cleavage furrow regression leading to a binucleated cell

Medical relevance

Detection

Binucleated cells can be observed using microscopy. Cells must first be fixed to arrest them wherever they are in the cell cycle and to keep their structures from degrading. Their nuclei and tubulin must next be made visible so that binucleation can be identified. DAPI is a dye that binds to DNA and fluoresces blue. For this reason, it is particularly useful at labeling nuclei. Antibody probes can be used to label tubulin fluorescently. The immunofluorescence may then be observed with microscopy. Binucleated cells are most easily identified by viewing tubulin, which surrounds the two nuclei in the cell. Binucleated cells may be mistaken for two cells in close proximity when viewing only nuclei.

The binucleated cell above is an oral squamous cell carcinoma, cell line UPMC-SCC103. A: The cancer cell treated with antibodies against tubulin. B: The same cancer cell stained with DAPI, highlighting the nuclei. C: Both photos superimposed.

Cancer

Binucleation occurs at a much higher rate in cancer cells.[1] Other identifying features of cancer cells include multipolar spindles, micronuclei, and chromatin bridge. However, the increased rate of binucleation is usually not high enough to make it a conclusive diagnostic tool.

Effects

The fate of binucleated cells depends largely on the type of cell they originated from.[1] A large percentage of binucleated cells arising from normal cells remain in interphase and never enter mitosis again.[1] Cells that contain many mutations before they become binucleate are much more likely to proceed through subsequent rounds of mitosis.[1] One study found that more than 50% of binucleated cells never entered mitosis again while greater than 95% of cancer cells were able to proceed through mitosis.[1] Subsequent rounds of mitosis in binucleated cells have much higher rates of errors in chromosomal disjunction making it much more likely for cells to accumulate mutations.[1]

See also

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 Shi, Qinghua; Randall W. King (13 October 2005). "Chromosome nondisjunction yields tetraploid rather than aneuploid cells in human cell lines" (PDF). Nature 437 (7061): 1038–42. doi:10.1038/nature03958. PMID 16222248.