ABSTRACT
Centrosome abnormalities are the hallmark of cancer. How it affects tumorigenesis is still a mystery. However, the presence of more than two centrosomes at the onset of mitosis often leads to chromosomal instability and subsequent tumorigenesis. Unlike normal cells that undergo repair or apoptosis in response to this instability, cancer cells learn to cope with supernumerary centrosomes through various mechanisms and survive. Centrosome clustering is the most prevalent mechanism, allowing the cancer cells to form two daughter cells through a pseudo-bipolar spindle. Since healthy cells are devoid of the mechanisms involved in clustering, the de-clustering of centrosomes can be considered a promising approach to selectively eliminate cells with extra centrosomes. Several proteins such as PARP, KIFC1, Hsp70, Cortical actin, APC/C-CDH1 complex and Eg5 have been discussed in this review which participate in centrosome clustering, and the inhibition of these proteins can facilitate in impeding tumor growth specifically by declustering centrosomes. In this review, we also present the role of the centrosome in the cell cycle, centrosome amplification, clustering mechanism and reported centrosome de-clustering agents to present the current state of work in the field.