Optimization of proximity ligation assay (PLA) for detection of protein interactions and fusion proteins in non-adherent cells: application to pre-B lymphocytes

Lydie Debaize; Hélène Jakobczyk; Anne-Gaëlle Rio; Virginie Gandemer; Marie-Bérengère Troadec

doi:10.1186/s13039-017-0328-2

Optimization of proximity ligation assay (PLA) for detection of protein interactions and fusion proteins in non-adherent cells: application to pre-B lymphocytes

Mol Cytogenet. 2017 Jul 20:10:27. doi: 10.1186/s13039-017-0328-2. eCollection 2017.

Authors

Lydie Debaize^{1

2}, Hélène Jakobczyk^{1

2}, Anne-Gaëlle Rio^{1

2}, Virginie Gandemer^{1

2

3}, Marie-Bérengère Troadec^{1

2}

Affiliations

¹ Institut de Génétique et Développement de Rennes, UMR 6290 CNRS, Université de Rennes 1, UBL, 2 avenue du Professeur Léon Bernard, 35043 RENNES CEDEX, France.
² SFR Biosit UMS CNRS 3480/US INSERM 018, Rennes, France.
³ Centre Hospitalier Universitaire, Rennes, France.

Abstract

Background: Genetic abnormalities, including chromosomal translocations, are described for many hematological malignancies. From the clinical perspective, detection of chromosomal abnormalities is relevant not only for diagnostic and treatment purposes but also for prognostic risk assessment. From the translational research perspective, the identification of fusion proteins and protein interactions has allowed crucial breakthroughs in understanding the pathogenesis of malignancies and consequently major achievements in targeted therapy.

Methods: We describe the optimization of the Proximity Ligation Assay (PLA) to ascertain the presence of fusion proteins, and protein interactions in non-adherent pre-B cells. PLA is an innovative method of protein-protein colocalization detection by molecular biology that combines the advantages of microscopy with the advantages of molecular biology precision, enabling detection of protein proximity theoretically ranging from 0 to 40 nm.

Results: We propose an optimized PLA procedure. We overcome the issue of maintaining non-adherent hematological cells by traditional cytocentrifugation and optimized buffers, by changing incubation times, and modifying washing steps. Further, we provide convincing negative and positive controls, and demonstrate that optimized PLA procedure is sensitive to total protein level. The optimized PLA procedure allows the detection of fusion proteins and protein interactions on non-adherent cells.

Conclusion: The optimized PLA procedure described here can be readily applied to various non-adherent hematological cells, from cell lines to patients' cells. The optimized PLA protocol enables detection of fusion proteins and their subcellular expression, and protein interactions in non-adherent cells. Therefore, the optimized PLA protocol provides a new tool that can be adopted in a wide range of applications in the biological field.

Keywords: B-cells; Chromosomal rearrangement; Fusion gene; Fusion protein; Non-adherent cells; PLA; Proximity ligation assay.