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Targeting TACC3 represents a novel vulnerability in highly aggressive breast cancers with centrosome amplification.

Authors :
Saatci O
Akbulut O
Cetin M
Sikirzhytski V
Uner M
Lengerli D
O'Quinn EC
Romeo MJ
Caliskan B
Banoglu E
Aksoy S
Uner A
Sahin O
Source :
Cell death and differentiation [Cell Death Differ] 2023 May; Vol. 30 (5), pp. 1305-1319. Date of Electronic Publication: 2023 Mar 02.
Publication Year :
2023

Abstract

Centrosome amplification (CA) is a hallmark of cancer that is strongly associated with highly aggressive disease and worse clinical outcome. Clustering extra centrosomes is a major coping mechanism required for faithful mitosis of cancer cells with CA that would otherwise undergo mitotic catastrophe and cell death. However, its underlying molecular mechanisms have not been fully described. Furthermore, little is known about the processes and players triggering aggressiveness of cells with CA beyond mitosis. Here, we identified Transforming Acidic Coiled-Coil Containing Protein 3 (TACC3) to be overexpressed in tumors with CA, and its high expression is associated with dramatically worse clinical outcome. We demonstrated, for the first time, that TACC3 forms distinct functional interactomes regulating different processes in mitosis and interphase to ensure proliferation and survival of cancer cells with CA. Mitotic TACC3 interacts with the Kinesin Family Member C1 (KIFC1) to cluster extra centrosomes for mitotic progression, and inhibition of this interaction leads to mitotic cell death via multipolar spindle formation. Interphase TACC3 interacts with the nucleosome remodeling and deacetylase (NuRD) complex (HDAC2 and MBD2) in nucleus to inhibit the expression of key tumor suppressors (e.g., p21, p16 and APAF1) driving G1/S progression, and its inhibition blocks these interactions and causes p53-independent G1 arrest and apoptosis. Notably, inducing CA by p53 loss/mutation increases the expression of TACC3 and KIFC1 via FOXM1 and renders cancer cells highly sensitive to TACC3 inhibition. Targeting TACC3 by guide RNAs or small molecule inhibitors strongly inhibits growth of organoids and breast cancer cell line- and patient-derived xenografts with CA by induction of multipolar spindles, mitotic and G1 arrest. Altogether, our results show that TACC3 is a multifunctional driver of highly aggressive breast tumors with CA and that targeting TACC3 is a promising approach to tackle this disease.<br /> (© 2023. The Author(s).)

Details

Language :
English
ISSN :
1476-5403
Volume :
30
Issue :
5
Database :
MEDLINE
Journal :
Cell death and differentiation
Publication Type :
Academic Journal
Accession number :
36864125
Full Text :
https://doi.org/10.1038/s41418-023-01140-1