Journal
HUMAN GENETICS
Volume 140, Issue 7, Pages 1047-1060Publisher
SPRINGER
DOI: 10.1007/s00439-021-02273-4
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Funding
- Japan Society for the Promotion of Science (JSPS) from the Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan [17K17693]
- Nanken-Kyoten, Tokyo Medical and Dental University
- Grants-in-Aid for Scientific Research [17K17693] Funding Source: KAKEN
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Mutations in proteins involved in cell division and chromosome segregation, such as microtubule-regulating, centrosomal and kinetochore proteins, are linked to microcephaly and/or short stature. Specifically, a rare de novo missense variant in NUF2, encoding a subunit of the NDC80 complex in the outer kinetochore, was found to be associated with microcephaly, short stature, and additional features like bilateral vocal cord paralysis and atrial septal defect. The variant affected the stability of NDC80-NUF2 complex, leading to aneuploidy, micronuclei formation, and spindle abnormality in patient-derived cell line.
Mutations in proteins involved in cell division and chromosome segregation, such as microtubule-regulating, centrosomal and kinetochore proteins, are associated with microcephaly and/or short stature. In particular, the kinetochore plays an essential role in mitosis and cell division by mediating connections between chromosomal DNA and spindle microtubules. To date, only a few genes encoding proteins of the kinetochore complex have been identified as causes of syndromes that include microcephaly. We report a male patient with a rare de novo missense variant in NUF2, after trio whole-exome sequencing analysis. The patient presented with microcephaly and short stature, with additional features, such as bilateral vocal cord paralysis, micrognathia and atrial septal defect. NUF2 encodes a subunit of the NDC80 complex in the outer kinetochore, important for correct microtubule binding and spindle assembly checkpoint. The mutated residue is buried at the calponin homology (CH) domain at the N-terminus of NUF2, which interacts with the N-terminus of NDC80. The variant caused the loss of hydrophobic interactions in the core of the CH domain of NUF2, thereby impairing the stability of NDC80-NUF2. Analysis using a patient-derived lymphoblastoid cell line revealed markedly reduced protein levels of both NUF2 and NDC80, aneuploidy, increased micronuclei formation and spindle abnormality. Our findings suggest that NUF2 may be the first member of the NDC80 complex to be associated with a human disorder.
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