Abstract
Chromosomal instability (CIN) is a hallmark of cancer that contributes to tumour heterogeneity and other malignant properties. Aberrant centromere and kinetochore function causes CIN through chromosome missegregation, leading to aneuploidy, rearrangements and micronucleus formation. Here we develop a Centromere and kinetochore gene Expression Score (CES) signature that quantifies the centromere and kinetochore gene misexpression in cancers. High CES values correlate with increased levels of genomic instability and several specific adverse tumour properties, and prognosticate poor patient survival for breast and lung cancers, especially early-stage tumours. They also signify high levels of genomic instability that sensitize cancer cells to additional genotoxicity. Thus, the CES signature forecasts patient response to adjuvant chemotherapy or radiotherapy. Our results demonstrate the prognostic and predictive power of the CES, suggest a role for centromere misregulation in cancer progression, and support the idea that tumours with extremely high CIN are less tolerant to specific genotoxic therapies.
Highlights
Chromosomal instability (CIN) is a hallmark of cancer that contributes to tumour heterogeneity and other malignant properties
This list was restricted to proteins known to have an impact on centromere or kinetochore structure and function[23], including CENP-A, downstream Centromere Associated Network (CCAN) and KMN components, and factors required for CENP-A nucleosome assembly and centromere propagation[32,33,36]
Analyses of numerous cancer databases demonstrate that 14 centromere and kinetochore (CEN/KT) genes are consistently overexpressed in a wide spectrum of human cancer types and prognosticate patient survival
Summary
Chromosomal instability (CIN) is a hallmark of cancer that contributes to tumour heterogeneity and other malignant properties. Another possible mechanism involves centromeres and their associated kinetochores These structures are required for proper spindle attachment, chromosome congression, mitotic checkpoint activity and separation of sister chromatids during mitosis[18,19]. Their misregulation results in chromosome abnormalities and DNA damage through various pathways, and may be an important potential cause of CIN in human cancers[20,21]. The CCAN recruits the KMN network (KNL1 complex, MIS12 complex and NDC80 complex) to the outer kinetochore, where NDC80 and other components interact with spindle microtubules to ensure proper chromosome segregation[30,31] All these centromere and kinetochore proteins require CENP-A for their localization[22]
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