Evasion of Cell Senescence Leads to Medulloblastoma Progression | Zendy

Lukas Tamayo-Orrego | Zendy; ChiaLun Wu | Zendy; Nicolas Bouchard | Zendy; Ahmed Khedher | Zendy; Shan M. Swikert | Zendy; Marc Remke | Zendy; Patryk Skowron | Zendy; Michael D. Taylor | Zendy; Frédéric Charron | Zendy

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Evasion of Cell Senescence Leads to Medulloblastoma Progression

Author(s) -

Lukas Tamayo-Orrego,

ChiaLun Wu,

Nicolas Bouchard,

Ahmed Khedher,

Shan M. Swikert,

Marc Remke,

Patryk Skowron,

Michael D. Taylor,

Frédéric Charron

Publication year - 2016

Publication title -

cell reports

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.264

H-Index - 154

eISSN - 2639-1856

pISSN - 2211-1247

DOI - 10.1016/j.celrep.2016.02.061

Subject(s) - senescence , medulloblastoma , evasion (ethics) , microbiology and biotechnology , biology , cellular senescence , cell , cancer research , genetics , gene , phenotype , immune system

How brain tumors progress from precancerous lesions to advanced cancers is not well understood. Using Ptch1(+/-) mice to study medulloblastoma progression, we found that Ptch1 loss of heterozygosity (LOH) is an early event that is associated with high levels of cell senescence in preneoplasia. In contrast, advanced tumors have evaded senescence. Remarkably, we discovered that the majority of advanced medulloblastomas display either spontaneous, somatic p53 mutations or Cdkn2a locus inactivation. Consistent with senescence evasion, these p53 mutations are always subsequent to Ptch1 LOH. Introduction of a p53 mutation prevents senescence, accelerates tumor formation, and increases medulloblastoma incidence. Altogether, our results show that evasion of senescence associated with Ptch1 LOH allows progression to advanced tumors.

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