NCBI Summary:
HEC is one of several proteins involved in spindle checkpoint signaling. This surveillance mechanism assures correct segregation of chromosomes during cell division by detecting unaligned chromosomes and causing prometaphase arrest until the proper bipolar attachment of chromosomes is achieved.[supplied by OMIM]
General function
Comment
Hec1-Dependent Cyclin B2 Stabilization Regulates the G2-M Transition and Early Prometaphase in Mouse Oocytes. Gui L et al. The functions of the Ndc80/Hec1 subunit of the highly conserved Ndc80 kinetochore complex are normally restricted to M phase when it exerts a pivotal kinetochore-based role. Here, we find that in mouse oocytes, depletion of Hec1 severely compromises the G2-M transition because of impaired activation of cyclin-dependent kinase 1 (Cdk1). Unexpectedly, impaired M phase entry is due to instability of the Cdk1-activating subunit, cyclin B2, which cannot be covered by cyclin B1. Hec1 protects cyclin B2 from destruction by the Cdh1-activated anaphase-promoting complex (APC(Cdh1)) and remains important for cyclin B2 stabilization during early M phase, required for the initial stages of acentrosomal spindle assembly. By late M phase, however, Hec1 and cyclin B2 become uncoupled, and although Hec1 remains stable, APC(Cdc20) triggers cyclin B2 destruction. These data identify another dimension to Hec1 function centered on M phase entry and early prometaphase progression and challenge the view that cyclin B2 is completely dispensable in mammals.
Cellular localization
Secreted, Nuclear
Comment
What the hec is up with mouse oocyte meiosis? Campbell CS et al. In this issue of Developmental Cell, Gui and Homer (2013) report that the proper execution of meiosis I in mouse oocytes requires the stabilization of cyclin B2 by the kinetochore protein Hec1, revealing unanticipated functions for both proteins.
Ovarian function
Oogenesis, Oocyte maturation
Comment
Hec1 inhibition alters spindle morphology and chromosome alignment in porcine oocytes. Wei X 2014 et al.
Aneuploidy is caused by incorrect chromosome segregation and can result in cancer or birth defects. The spindle assembly checkpoint (SAC) guarantees proper cell cycle progression. Highly Expressed in Cancer protein 1 (Hec1, also called Ndc80) is the core component of the Ndc80 complex and is involved in regulating both kinetochore-microtubule interactions and the SAC during mitosis in multiple cell types. However, its involvement in pig oocyte meiotic maturation remains uncertain. Thus, we investigated Hec1 expression, localization, and possible functions during porcine oocyte meiosis. Immunofluorescent staining showed that Hec1 was expressed in porcine oocytes and was associated with centromeres at both the metaphase I and metaphase II stages. Disrupting Hec1 function with its inhibitor INH1 resulted in polar body extrusion defects in porcine oocytes. Moreover, inhibiting Hec1 activity also resulted in severe chromosome misalignments and aberrant spindle morphology. Our results showed a unique localization pattern for Hec1 in porcine oocytes and suggested that Hec1 was required for chromosome alignment and spindle organization. Thus, Hec1 might regulate spindle checkpoint activity during mammalian oocyte meiosis.
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Ndc80 regulates meiotic spindle organization, chromosome alignment, and cell cycle progression in mouse oocytes. Sun SC et al. Ndc80 (called Hec1 in human), the core component of the Ndc80 complex, is involved in regulation of both kinetochore-microtubule interactions and the spindle assembly checkpoint in mitosis; however, its role in meiosis remains unclear. Here, we report Ndc80 expression, localization, and possible functions in mouse oocyte meiosis. Ndc80 mRNA levels gradually increased during meiosis. Immunofluorescent staining showed that Ndc80 was restricted to the germinal vesicle and associated with spindle microtubules from the Pro-MI to MII stages. Ndc80 was localized on microtubules and asters in the cytoplasm after taxol treatment, while Ndc80 staining was diffuse after disruption of microtubules by nocodazole treatment, confirming its microtubule localization. Disruption of Ndc80 function by either siRNA injection or antibody injection resulted in severe chromosome misalignment, spindle disruption, and precocious polar body extrusion. Our data show a unique localization pattern of Ndc80 in mouse oocytes and suggest that Ndc80 may be required for chromosome alignment and spindle organization, and may regulate spindle checkpoint activity during mouse oocyte meiosis.
Expression regulated by
Comment
Ovarian localization
Oocyte
Comment
Ndc80 complex: New evidence for the existence of spindle assembly checkpoint in mammalian oocyte meiosis. Sun QY et al. Comment on: Sun SC, et al. Cell Cycle 2010; 9:4552 - 4559.