Litcius/Paper detail

Increased Aurora B expression reduces substrate phosphorylation and induces chromosomal instability

Eric M. C. Britigan, Jun Wan, Daniel K. Sam, Sarah E. Copeland, Amber Lasek, Laura C. F. Hrycyniak, Lei Wang, Anjon Audhya, Mark E. Burkard, Avtar Roopra, Beth A. Weaver

2022Frontiers in Cell and Developmental Biology14 citationsDOIOpen Access PDF

Abstract

Increased Aurora B protein expression, which is common in cancers, is expected to increase Aurora B kinase activity, yielding elevated phosphorylation of Aurora B substrates. In contrast, here we show that elevated expression of Aurora B reduces phosphorylation of six different Aurora B substrates across three species and causes defects consistent with Aurora B inhibition. Complexes of Aurora B and its binding partner INCENP autophosphorylate in trans to achieve full Aurora B activation. Increased expression of Aurora B mislocalizes INCENP, reducing the local concentration of Aurora B:INCENP complexes at the inner centromere/kinetochore. Co-expression of INCENP rescues Aurora B kinase activity and mitotic defects caused by elevated Aurora B. However, INCENP expression is not elevated in concert with Aurora B in breast cancer, and increased expression of Aurora B causes resistance rather than hypersensitivity to Aurora B inhibitors. Thus, increased Aurora B expression reduces, rather than increases, Aurora B kinase activity.

Topics & Concepts

Aurora B kinaseAurora inhibitorAurora kinaseCell biologyPhosphorylationMitosisCentromereBiologyKinetochoreChemistryGeneticsCellCell cycleChromosomeGeneMicrotubule and mitosis dynamicsCancer-related Molecular PathwaysPlant nutrient uptake and metabolism