• SyncroPatch 384/768PE

    APC with highest throughput on the market
  • SyncroPatch 384/768PE

    384 cells in parallel => upgradable to 768
  • SyncroPatch 384/768PE

    True HTS AND Gigaohm seals
  • SyncroPatch 384/768PE

    True internal perfusion with continuous data acquisition
  • SyncroPatch 384/768PE

    Assay flexibility via high tech

2016 - pH-sensitive K+ channel TREK-1 is a novel target in pancreatic cancer

icon sp96  SyncroPatch 384PE publication in Biochimica et Biophysica Acta (2016)

Authors: 
Sauter D.R.P., Sørensen C.E., Rapedius M., Brüggemann A., Novak I.

Journal: 
Biochimica et Biophysica Acta (2016) 1862(10):1994-2003


Abstract: 

Pancreatic ductal adenocarcinoma (PDAC) is one of the most lethal cancers and new therapeutic targets are urgently needed. One of the hallmarks of cancer is changed pH-homeostasis and potentially pH-sensors may play an important role in cancer cell behavior. Two-pore potassium channels (K2P) are pH-regulated channels that conduct a background K+ current, which is involved in setting the plasma membrane potential (Vm). Some members of the K2P superfamily were reported as crucial players in driving tumor progression. The aim of this study was to investigate pH-regulated K+ currents in PDAC cells and determine possible effects on their pathological phenotype. Using a planar high-throughput patch-clamp system (SyncroPatch 384PE) we identified a pH-regulated K+ current in the PDAC cell line BxPC-3. The current was inhibited by extracellular acidification and intracellular alkalization. Exposure to a set of different K+ channel inhibitors, and the TREK-1 (K2P2.1)–specific activator BL1249, TREK-1 was identified as the main component of pH-regulated current. A voltage-sensor dye (VF2.1.Cl) was used to monitor effects of pH and BL1249 on Vm in more physiological conditions and TREK-1–mediated current was found as critical player in setting Vm. We assessed a possible role of TREK-1 in PDAC progression using cell proliferation and migration assays and observed similar trends with attenuated proliferation/migration rates in acidic (pH < 7.0) and alkaline (pH > 7.4) conditions. Notably, BL1249 inhibited both PDAC cell proliferation and migration indicating that hyperpolarization of Vm attenuates cancer cell behavior. TREK-1 may therefore be a promising novel target for PDAC therapy.


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