Functional synapses between small cell lung cancer and glutamatergic neurons

  1. Anna Schmitt
  2. Vignesh Sakthivelu
  3. Kristiano Ndoci
  4. Gulzar A Wani
  5. Marian Touet
  6. Isabel Pintelon
  7. Ilmars Kisis
  8. Olta Ibruli
  9. Julia Weber
  10. Roman Maresch
  11. Christina M Bebber
  12. Jonas Goergens
  13. Milica Jevtic
  14. Franka Odenthal
  15. Aleksandra Placzek
  16. Alexandru A Hennrich
  17. Karl-Klaus Conzelmann
  18. Maike Boecker
  19. Alena Heimsoeth
  20. Gülce S Gülcüler
  21. Ron D Jachimowicz
  22. Julie George
  23. Johannes Brägelmann
  24. Silvia von Karstedt
  25. Martin Peifer
  26. Thorsten Persigehl
  27. Holger Grüll
  28. Martin L Sos
  29. Jens Brüning
  30. Guido Reifenberger
  31. Matthias Fischer
  32. Dirk Adriaensen
  33. Reinhard Büttner
  34. Inge Brouns
  35. Roland Rad
  36. Roman K Thomas
  37. Matteo Bergami
  38. Elisa Motori
  39. Hans Christian Reinhardt
  40. Filippo Beleggia
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Abstract

Small cell lung cancer (SCLC) is a highly aggressive type of lung cancer, characterized by rapid proliferation, early metastatic spread, clinical recurrence and high rate of mortality. Usingin vivoinsertional mutagenesis screening in conjunction with cross-species genomic and transcriptomic validation, we identified a strong and consistent signal for neuronal, synaptic, and glutamatergic signaling gene sets in murine and human SCLC. We show that SCLC cells have the ability to develop intimate contacts with neuronal glutamatergic terminalsin vitro, in autochthonous primary lung tumors and in brain-engrafted tumors. These contacts can develop intobona fidesynapses, allowing SCLC cells to receive glutamatergic inputs. Fitting with a potential oncogenic role of neuron-SCLC interactions, we show that SCLC cells derive a robust proliferation advantage when co-cultured with neurons. Moreover, the repression of glutamate release and the stimulation of the inhibitory glutamate receptor GRM8 displayed therapeutic efficacy in an autochthonous mouse model of SCLC. Therefore, following malignant transformation, SCLC cells appear to hijack glutamatergic signaling to sustain tumor growth, thereby exposing a novel entry route for therapeutic intervention.

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