Analysis of the "centrosome-ome" identifies MCPH1 deletion as a cause of centrosome amplification in human cancer

Sci Rep. 2020 Jul 17;10(1):11921. doi: 10.1038/s41598-020-68629-4.

Abstract

The centrosome is the microtubule organizing center of human cells and facilitates a myriad of cellular functions including organization of the mitotic spindle to ensure faithful chromosome segregation during mitosis, cell polarization and migration, and primary cilia formation. A numerical increase in centrosomes, or centrosome amplification (CA), is common in cancer and correlates with more aggressive clinical features and worse patient outcomes. However, the causes of CA in human cancer are unclear. Many previous studies have identified mechanisms of CA in cellulo, such as overexpression of PLK4, but it is unclear how often these are the primary mechanism in human disease. To identify a primary cause of CA, we analyzed The Cancer Genome Atlas (TCGA) genomic and transcriptomic data for genes encoding the 367 proteins that localize to the centrosome (the "centrosome-ome"). We identified the following candidates for primary causes of CA: gain-of-function alterations of CEP19, CEP72, CTNNB1, PTK2, NDRG1, SPATC1, TBCCD1; and loss-of-function alterations of CEP76, MCPH1, NEURL4, and NPM1. In cellulo analysis of these candidates revealed that loss of MCPH1/microcephalin caused the most robust increase in centriole number. MCPH1 deep gene deletions are seen in 5-15% of human cancers, depending on the anatomic site of the tumor. Mechanistic experiments demonstrated that loss of MCPH1 caused a CDK2-dependent increase in STIL levels at the centrosome to drive CA. We conclude that loss of MCPH1 is common in human cancer and is likely to be a cause of CA.

Publication types

  • Research Support, N.I.H., Extramural

MeSH terms

  • Cell Cycle Proteins / genetics*
  • Cell Line, Tumor
  • Centrioles / metabolism
  • Centrosome / metabolism*
  • Chromosomal Instability / genetics
  • Cytoskeletal Proteins / genetics*
  • Gene Deletion*
  • Homozygote
  • Humans
  • Neoplasms / genetics*
  • Nucleophosmin
  • Penetrance
  • Proteome / metabolism*
  • Tumor Suppressor Protein p53 / metabolism

Substances

  • Cell Cycle Proteins
  • Cytoskeletal Proteins
  • MCPH1 protein, human
  • NPM1 protein, human
  • Proteome
  • Tumor Suppressor Protein p53
  • Nucleophosmin