Complete loss of the tumor suppressor MAD2 causes premature cyclin B degradation and mitotic failure in human somatic cells.

Abstract	MAD2 inhibits the anaphase-promoting complex when chromosomes are unattached to the mitotic spindle. It acts as a tumor suppressor gene because MAD2+/-cells enter anaphase early and display chromosome instability, leading to the formation of lung tumors in mice. Complete MAD2 inactivation has not been identified in human tumors, although partial defects are prevalent. By employing RNA interference in human somatic cells, we found that severe reduction of MAD2 protein levels results in mitotic failure and extensive cell death arising from defective spindle formation, incomplete chromosome condensation, and premature mitotic exit leading to multinucleation. Cyclin B is degraded prematurely in the MAD2 short interfering RNA-treated cells but not in MAD2+/- cells, suggesting an explanation for the spindle failure and mitotic catastrophe in the MAD2 knockdown cells. Thus, anaphase-promoting complex substrates exhibit distinct sensitivities in the presence of different MAD2 doses, which in turn determine MAD2's role as either a tumor suppressor or an essential gene.
Authors	Loren Michel, Elena Diaz-Rodriguez, Gopeshwar Narayan, Eva Hernando, Vundavalli V V S Murty, Robert Benezra
Journal	Proceedings of the National Academy of Sciences of the United States of America (Proc Natl Acad Sci U S A) Vol. 101 Issue 13 Pg. 4459-64 (Mar 30 2004) ISSN: 0027-8424 [Print] United States
PMID	15070740 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't, Research Support, U.S. Gov't, P.H.S.)
Chemical References	Calcium-Binding Proteins Cell Cycle Proteins Cyclin B MAD2L1 protein, human Mad2 Proteins Repressor Proteins
Topics	Base Sequence Calcium-Binding Proteins (genetics) Cell Cycle (genetics) Cell Cycle Proteins Cell Death Chromosomes, Human (genetics, ultrastructure) Cyclin B (metabolism) Gene Deletion Genes, Essential Genes, Tumor Suppressor Humans Mad2 Proteins Microscopy, Fluorescence Mitosis (genetics) Open Reading Frames (genetics) Repressor Proteins Transfection

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