Lactate dehydrogenases promote glioblastoma growth and invasion via a metabolic symbiosis

  1. Guyon, J.
  2. Fernandez-Moncada, I.
  3. Larrieu, C.M.
  4. Bouchez, C.L.
  5. Pagano Zottola, A.C.
  6. Galvis, J.
  7. Chouleur, T.
  8. Burban, A.
  9. Joseph, K.
  10. Ravi, V.M.
  11. Espedal, H.
  12. Røsland, G.V.
  13. Daher, B.
  14. Barre, A.
  15. Dartigues, B.
  16. Karkar, S.
  17. Rudewicz, J.
  18. Romero-Garmendia, I.
  19. Klink, B.
  20. Grützmann, K.
  21. Derieppe, M.-A.
  22. Molinié, T.
  23. Obad, N.
  24. Léon, C.
  25. Seano, G.
  26. Miletic, H.
  27. Heiland, D.H.
  28. Marsicano, G.
  29. Nikolski, M.
  30. Bjerkvig, R.
  31. Bikfalvi, A.
  32. Daubon, T.
  33. Show all authors +
Journal:
EMBO Molecular Medicine

ISSN: 1757-4684 1757-4676

Year of publication: 2022

Volume: 14

Issue: 12

Type: Article

DOI: 10.15252/EMMM.202115343 GOOGLE SCHOLAR lock_openOpen access editor

Sustainable development goals

Data source: Scopus