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11.03.2019 | Original Paper

Combined inhibition of RAC1 and Bcl-2/Bcl-xL synergistically induces glioblastoma cell death through down-regulation of the Usp9X/Mcl-1 axis

verfasst von: Michal Hlavac, Annika Dwucet, Richard Eric Kast, Jens Engelke, Mike-Andrew Westhoff, Markus D. Siegelin, Klaus-Michael Debatin, Christian Rainer Wirtz, Marc-Eric Halatsch, Georg Karpel-Massler

Erschienen in: Cellular Oncology | Ausgabe 3/2019

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Abstract

Purpose

Anti-apoptotic and pro-migratory phenotypes are hallmarks of neoplastic diseases, including primary brain malignancies. In this work, we examined whether reprogramming of the apoptotic and migratory machineries through a multi-targeting approach would induce enhanced cell death and enhanced inhibition of the migratory capacity of glioblastoma cells.

Methods

Preclinical testing and molecular analyses of combined inhibition of Bcl-2/Bcl-xL and RAC1 were performed in established, primary cultured and stem-like glioblastoma cell systems.

Results

We found that the combined inhibition of Bcl-2/Bcl-xL and RAC1 resulted in synergistic pro-apoptotic and anti-migratory effects in a broad range of different glioblastoma cells. At the molecular level, we found that RAC1 inhibition led to a decreased expression of the deubiquitinase Usp9X, followed by a decreased stability of Mcl-1. We also found that the combined inhibition led to a significantly decreased migratory activity and that tumor formation of glioblastoma cells on chorion allantoic membranes of chicken embryos was markedly impaired following the combined inhibition.

Conclusions

Our data indicate that concomitant inhibition of RAC1 and Bcl-2/Bcl-xL induces pro-apoptotic and anti-migratory glioblastoma phenotypes as well as synergistic anti-neoplastic activities. The clinical efficacy of this inhibitory therapeutic strategy warrants further evaluation.

Nur mit Berechtigung zugänglich

D. Hanahan, R.A. Weinberg, Hallmarks of cancer: The next generation. Cell 144, 646–674 (2011)CrossRefPubMed

P. Friedl, S. Alexander, Cancer invasion and the microenvironment: Plasticity and reciprocity. Cell 147, 992–1009 (2011)CrossRefPubMed

S. Venneti, C.B. Thompson, Metabolic reprogramming in brain tumors. Annu Rev Pathol 12, 515–545 (2017)CrossRefPubMed

R. Stupp, W.P. Mason, M.J. van den Bent, M. Weller, B. Fisher, M.J. Taphoorn, K. Belanger, A.A. Brandes, C. Marosi, U. Bogdahn, J. Curschmann, R.C. Janzer, S.K. Ludwin, T. Gorlia, A. Allgeier, D. Lacombe, J.G. Cairncross, E. Eisenhauer, R.O. Mirimanoff, Radiotherapy plus concomitant and adjuvant temozolomide for glioblastoma. N Engl J Med 352, 987–996 (2005)CrossRefPubMed

A.P. Patel, I. Tirosh, J.J. Trombetta, A.K. Shalek, S.M. Gillespie, H. Wakimoto, D.P. Cahill, B.V. Nahed, W.T. Curry, R.L. Martuza, D.N. Louis, O. Rozenblatt-Rosen, M.L. Suva, A. Regev, B.E. Bernstein, Single-cell RNA-seq highlights intratumoral heterogeneity in primary glioblastoma. Science 344, 1396–1401 (2014)CrossRefPubMedPubMedCentral

G. Karpel-Massler, C.T. Ishida, Y. Zhang, M.E. Halatsch, M.A. Westhoff, M.D. Siegelin, Targeting intrinsic apoptosis and other forms of cell death by BH3-mimetics in glioblastoma. Expert Opin Drug Discov 12, 1031–1040 (2017)CrossRefPubMedPubMedCentral

S. Krajewski, M. Krajewska, A. Shabaik, T. Miyashita, H.G. Wang, J.C. Reed, Immunohistochemical determination of in vivo distribution of Bax, a dominant inhibitor of Bcl-2. Am J Pathol 145, 1323–1336 (1994)PubMedPubMedCentral

Z. Oltvai, C. Milliman, S.J. Korsmeyer, Bcl-2 heterodimerizes in vivo with a conserved homolog, Bax, that accelerates programmed cell death. Cell 74, 609–619 (1993)CrossRefPubMed

J. Kale, E.J. Osterlund, D.W. Andrews, Bcl-2 famiy proteins: Changing partners in the dance towards death. Cell Death Differ 25, 65–80 (2018)CrossRefPubMed

10.

J.M. Adams, S. Cory, The Bcl-2 apoptotic switch in cancer development and therapy. Oncogene 26, 1324–1337 (2007)CrossRefPubMedPubMedCentral

11.

M. Konopleva, R. Contractor, T. Tsao, I. Samudio, P.P. Ruvolo, S. Kitada, X. Deng, D. Zhai, Y.X. Shi, T. Sneed, M. Verhaegen, M. Soengas, V.R. Ruvolo, T. McQueen, W.D. Schober, J.C. Watt, T. Jiffar, X. Ling, F.C. Marini, D. Harris, M. Dietrich, Z. Estrov, J. McCubrey, W.S. May, J.C. Reed, M. Andreeff, Mechanisms of apoptosis sensitivity and resistance to the BH3 mimetic ABT-737 in acute myeloid leukemia. Cancer Cell 10, 375–388 (2006)CrossRefPubMed

12.

S. Etienne-Manneville, A. Hall, Rho GTPases in cell biology. Nature 420, 629–635 (2002)CrossRefPubMed

13.

R. Khosravi-Far, P.A. Solski, G.J. Clark, M.S. Kinch, C.J. Der, Activation of Rac1, RhoA, and mitogen-activated protein kinases is required for Ras transformation. Mol Cell Biol 15, 6443–6453 (1995)CrossRefPubMedPubMedCentral

14.

R.G. Qiu, J. Chen, D. Kirn, F. McCormick, M. Symons, An essential role for Rac in Ras transformation. Nature 374, 457–459 (1995)CrossRefPubMed

15.

G. Fritz, I. Just, B. Kaina, Rho GTPases are over-expressed in human tumors. Int J Cancer 81, 682–687 (1999)CrossRefPubMed

16.

P. Jordan, R. Brazao, M.G. Boavida, C. Gespach, E. Chastre, Cloning of a novel human Rac1b splice variant with increased expression in colorectal tumors. Oncogene 18, 6835–6839 (1999)CrossRefPubMed

17.

A. Schnelzer, D. Prechtel, U. Knaus, K. Dehne, M. Gerhard, H. Graeff, N. Harbeck, M. Schmitt, E. Lengyel, Rac1 in human breast cancer: Overexpression, mutation analysis, and characterization of a new isoform, Rac1b. Oncogene 19, 3013–3020 (2000)CrossRefPubMed

18.

A.Y. Chan, S.J. Coniglio, Y.Y. Chuang, D. Michaelson, U.G. Knaus, M.R. Philips, M. Symons, Roles of the Rac1 and Rac3 GTPases in human tumor cell invasion. Oncogene 24, 7821–7829 (2005)CrossRefPubMed

19.

J. Didsbury, R.F. Weber, G.M. Bokoch, T. Evans, R. Snyderman, Rac, a novel ras-related family of proteins that are botulinum toxin substrates. J Biol Chem 264, 16378–16382 (1989)PubMed

20.

G. Karpel-Massler, M.-A. Westhoff, S. Zhou, L. Nonnenmacher, A. Dwucet, R. Kast, M. Bachem, C. Wirtz, K.-M. Debatin, M.-E. Halatsch, Combined inhibition of HER1/EGFR and RAC1 results in a synergistic antiproliferative effect on established and primary cultured human glioblastoma cells. Mol Cancer Ther 12, 1783–1795 (2013)CrossRefPubMed

21.

D. Opel, M.A. Westhoff, A. Bender, V. Braun, K.M. Debatin, S. Fulda, Phosphatidylinositol 3-kinase inhibition broadly sensitizes glioblastoma cells to death receptor- and drug-induced apoptosis. Cancer Res 68, 6271–6280 (2008)CrossRefPubMed

22.

M. Schneider, S. Ströbele, L. Nonnenmacher, M.D. Siegelin, M. Tepper, S. Stroh, S. Hasslacher, S. Enzenmüller, G. Strauss, B. Baumann, G. Karpel-Massler, M.A. Westhoff, K.M. Debatin, M.E. Halatsch, A paired comparison between glioblastoma "stem cells" and differentiated cells. Int J Cancer 138, 1709–1718 (2016)CrossRefPubMed

23.

S. Ströbele, M. Schneider, L. Schneele, M.D. Siegelin, L. Nonnenmacher, S. Zhou, G. Karpel-Massler, M.A. Westhoff, M.E. Halatsch, K.M. Debatin, A potential role for the inhibition of PI3K signaling in glioblastoma therapy. PLoS One 10, e0131670 (2015)CrossRefPubMedPubMedCentral

24.

G. Karpel-Massler, B.A. Horst, C. Shu, L. Chau, T. Tsujiuchi, J.N. Bruce, P. Canoll, L.A. Greene, J.M. Angelastro, M.D. Siegelin, A synthetic cell-penetrating dominant-negative ATF5 peptide exerts anti-cancer activity against a broad spectrum of treatment resistant cancers. Clin Cancer Res 22, 4698–4711 (2016)CrossRefPubMedPubMedCentral

25.

G. Karpel-Massler, C.T. Ishida, E. Bianchetti, Y. Zhang, C. Shu, T. Tsujiuchi, M.A. Banu, F. Garcia, K.A. Roth, J.N. Bruce, P. Canoll, M.D. Siegelin, Induction of synthetic lethality in IDH1-mutated gliomas through inhibition of Bcl-xL. Nat Commun 8, 1067 (2017)

26.

G. Karpel-Massler, F. Pareja, P. Aime, C. Shu, L. Chau, M.A. Westhoff, M.E. Halatsch, J.F. Crary, P. Canoll, M.D. Siegelin, PARP inhibition restores extrinsic apoptotic sensitivity in glioblastoma. PLoS One 9, e114583 (2014)CrossRefPubMedPubMedCentral

27.

G. Karpel-Massler, D. Ramani, C. Shu, M.E. Halatsch, M.A. Westhoff, J.N. Bruce, P. Canoll, M.D. Siegelin, Metabolic reprogramming of glioblastoma cells by L-asparaginase sensitizes for apoptosis in vitro and in vivo. Oncotarget 7, 33512–33528 (2016)PubMedPubMedCentral

28.

F. Pareja, D. Macleod, C. Shu, J.F. Crary, P.D. Canoll, A.H. Ross, M.D. Siegelin, PI3K and Bcl-2 inhibition primes glioblastoma cells to apoptosis through downregulation of Mcl-1 and Phospho-BAD. Mol Cancer Res 12, 987–1001 (2014)CrossRefPubMed

29.

O.L. Chinot, W. Wick, W. Mason, R. Henriksson, F. Saran, R. Nishikawa, A.F. Carpentier, K. Hoang-Xuan, P. Kavan, D. Cernea, A.A. Brandes, M. Hilton, L. Abrey, T. Cloughesy, Bevacizumab plus radiotherapy-temozolomide for newly diagnosed glioblastoma. N Engl J Med 370, 709–722 (2014)CrossRefPubMed

30.

M.R. Gilbert, J.J. Dignam, T.S. Armstrong, J.S. Wefel, D.T. Blumenthal, M.A. Vogelbaum, H. Colman, A. Chakravarti, S. Pugh, M. Won, R. Jeraj, P.D. Brown, K.A. Jaeckle, D. Schiff, V.W. Stieber, D.G. Brachman, M. Werner-Wasik, I.W. Tremont-Lukats, E.P. Sulman, K.D. Aldape, W.J.J. Curran, M.P. Mehta, A randomized trial of bevacizumab for newly diagnosed glioblastoma. N Engl J Med 370, 699–708 (2014)CrossRefPubMedPubMedCentral

31.

M. van den Bent, A. Brandes, R. Rampling, M. Kouwenhoven, J. Kros, A. Carpentier, P. Clement, M. Frenay, M. Campone, J. Baurain, J. Armand, M. Taphoorn, A. Tosoni, H. Kletzl, B. Klughammer, D. Lacombe, T. Gorlia, Randomized phase II trial of erlotinib versus temozolomide or carmustine in recurrent glioblastoma: EORTC brain tumor group study 26034. J Clin Oncol 27, 1268–1274 (2009)CrossRefPubMedPubMedCentral

32.

M. Schwickart, X. Huang, J.R. Lill, J. Liu, R. Ferrando, D.M. French, H. Maecker, K. O'Rourke, F. Bazan, J. Eastham-Anderson, P. Yue, D. Dornan, D.C. Huang, V.M. Dixit, Deubiquitinase USP9X stabilizes MCL1 and promotes tumour cell survival. Nature 463, 103–107 (2010)CrossRefPubMed

33.

G. Karpel-Massler, M.A. Banu, C. Shu, M.E. Halatsch, M.A. Westhoff, J.N. Bruce, P. Canoll, M.D. Siegelin, Inhibition of deubiquitinases primes glioblastoma cells to apoptosis in vitro and in vivo. Oncotarget 7, 12791–12805 (2016)PubMedPubMedCentral

34.

G. Karpel-Massler, C.T. Ishida, E. Bianchetti, C. Shu, R. Perez-Lorenzo, B. Horst, M. Banu, K.A. Roth, J.N. Bruce, P. Canoll, D.C. Altieri, M.D. Siegelin, Inhibition of mitochondrial matrix chaperones and antiapoptotic Bcl-2 family proteins empower antitumor therapeutic responses. Cancer Res 77, 3513–3526 (2017)CrossRefPubMedPubMedCentral

35.

J.V. Joseph, S. Conroy, K. Pavlov, P. Sontakke, T. Tomar, E. Eggens-Meijer, V. Balasubramaniyan, M. Wagemakers, W.F. den Dunnen, F.A. Kruyt, Hypoxia enhances migration and invasion in glioblastoma by promoting a mesenchmal shift mediated by the HIF1α-ZEB1 axis. Cancer Lett 359, 107–116 (2015)CrossRefPubMed

36.

M. Osswald, E. Jung, F. Sahm, G. Solecki, V. Venkataramani, J. Blaes, S. Weil, H. Horstmann, B. Wiestler, M. Syed, L. Huang, M. Ratliff, K. Karimian Jazi, F.T. Kurz, T. Schmenger, D. Lemke, M. Gömmel, M. Pauli, Y. Liao, P. Häring, S. Pusch, V. Herl, C. Steinhäuser, D. Krunic, M. Jarahian, H. Miletic, A.S. Berghoff, O. Griesbeck, G. Kalamakis, O. Garaschuk, M. Preusser, S. Weiss, H. Liu, S. Heiland, M. Platten, P.E. Huber, T. Kuner, A. von Deimling, W. Wick, F. Winkler, Brain tumour cells interconnect to a functional and resistant network. Nature 528, 93–98 (2015)CrossRefPubMed

37.

S.J. Hanna, K. McCoy-Simandle, V. Miskolci, P. Guo, M. Cammer, L. Hodgson, D. Cox, The role of Rho-GTPases and actin polymerization during macrophage tunneling nanotube biogenesis. Sci Rep 7, 8547 (2017)CrossRefPubMedPubMedCentral

38.

A.J. Ridley, H.F. Paterson, C.L. Johnstone, D. Diekmann, A. Hall, The small GTP-binding protein rac regulates growth factor-induced membrane ruffling. Cell 70, 401–410 (1992)CrossRefPubMed

39.

T.I. Oprea, L.A. Sklar, J.O. Agola, Y. Guo, M. Silberberg, J. Roxby, A. Vestling, E. Romero, Z. Surviladze, C. Murray-Krezan, A. Waller, O. Ursu, L.G. Hudson, A. Wandinger-Ness, Novel activities of select NSAID R-enantiomers against RAC1 and Cdc42 GTPases. PLoS One 10, e0142182 (2015)CrossRefPubMedPubMedCentral

40.

W. Xu, Q. Wan, S. Na, H. Yokota, J.L. Yan, K. Hamamura, Suppressed invasive and migratory behaviors of SW1353 chondrosarcoma cells through the regulation of Src, Rac1 GTPase, and MMP13. Cell Signal 27, 2332–2342 (2015)CrossRefPubMed

Titel: Combined inhibition of RAC1 and Bcl-2/Bcl-xL synergistically induces glioblastoma cell death through down-regulation of the Usp9X/Mcl-1 axis
verfasst von: Michal Hlavac
Annika Dwucet
Richard Eric Kast
Jens Engelke
Mike-Andrew Westhoff
Markus D. Siegelin
Klaus-Michael Debatin
Christian Rainer Wirtz
Marc-Eric Halatsch
Georg Karpel-Massler
Publikationsdatum: 11.03.2019
Verlag: Springer Netherlands
Erschienen in: Cellular Oncology / Ausgabe 3/2019
Print ISSN: 2211-3428
Elektronische ISSN: 2211-3436
DOI: https://doi.org/10.1007/s13402-019-00425-3

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Combined inhibition of RAC1 and Bcl-2/Bcl-xL synergistically induces glioblastoma cell death through down-regulation of the Usp9X/Mcl-1 axis

Abstract

Purpose

Methods

Results

Conclusions

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Assistierter Suizid durch Infusion von Thiopental

Molekularpathologische Untersuchungen im Wandel der Zeit

Vergleichende Pathologie in der onkologischen Forschung

Gastrointestinale Stromatumoren

Live-Webinar "Urologie und Sexualmedizin in der Praxis"

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Abstract

Purpose

Methods

Results

Conclusions

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