BMC Genomics (Apr 2019)

Comprehensive kinome NGS targeted expression profiling by KING-REX

  • Giovanni Carapezza,
  • Carlo Cusi,
  • Ettore Rizzo,
  • Laura Raddrizzani,
  • Sebastiano Di Bella,
  • Alessio Somaschini,
  • Antonella Leone,
  • Rosita Lupi,
  • Margherita Mutarelli,
  • Vincenzo Nigro,
  • Diego di Bernardo,
  • Paolo Magni,
  • Antonella Isacchi,
  • Roberta Bosotti

DOI
https://doi.org/10.1186/s12864-019-5676-3
Journal volume & issue
Vol. 20, no. 1
pp. 1 – 12

Abstract

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Abstract Background Protein kinases are enzymes controlling different cellular functions. Genetic alterations often result in kinase dysregulation, making kinases a very attractive class of druggable targets in several human diseases. Existing approved drugs still target a very limited portion of the human ‘kinome’, demanding a broader functional knowledge of individual and co-expressed kinase patterns in physiologic and pathologic settings. The development of novel rapid and cost-effective methods for kinome screening is therefore highly desirable, potentially leading to the identification of novel kinase drug targets. Results In this work, we describe the development of KING-REX (KINase Gene RNA EXpression), a comprehensive kinome RNA targeted custom assay-based panel designed for Next Generation Sequencing analysis, coupled with a dedicated data analysis pipeline. We have conceived KING-REX for the gene expression analysis of 512 human kinases; for 319 kinases, paired assays and custom analysis pipeline features allow the evaluation of 3′- and 5′-end transcript imbalances as readout for the prediction of gene rearrangements. Validation tests on cell line models harboring known gene fusions demonstrated a comparable accuracy of KING-REX gene expression assessment as in whole transcriptome analyses, together with a robust detection of transcript portion imbalances in rearranged kinases, even in complex RNA mixtures or in degraded RNA. Conclusions These results support the use of KING-REX as a rapid and cost effective kinome investigation tool in the field of kinase target identification for applications in cancer biology and other human diseases.

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