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Optimizing Drug Combinations for T-PLL: Restoring DNA Damage and P53-Mediated Apoptotic Responses.
von Jan, Jana; Timonen, Sanna; Braun, Till; Jiang, Qu; Ianevski, Aleksandr; Peng, Yayi; McConnell, Kathleen; Sindaco, Paola; Müller, Tony Andreas; Pützer, Sabine; Klepzig, Hanna; Jungherz, Dennis; Dechow, Annika; Wahnschaffe, Linus; Giri, Anil K; Kankainen, Matti; Kuusanmäki, Heikki; Neubauer, Heidi A; Moriggl, Richard H; Mazzeo, Paolo; Schmidt, Nicole; Koch, Raphael; Hallek, Michael J; Chebel, Amel; Armisen, David; Genestier, Laurent; Bachy, Emmanuel; Mishra, Anjali; Schrader, Alexandra; Aittokallio, Tero; Mustjoki, Satu; Herling, Marco.
Afiliación
  • von Jan J; University of Cologne (UoC), Cologne, Germany.
  • Timonen S; University of Helsinki, Helsinki, Finland.
  • Braun T; University of Cologne, University Hospital Cologne, Cologne, Germany.
  • Jiang Q; University Hospital Leipzig, Leipzig, Germany.
  • Ianevski A; Institute for Molecular Medicine Finland (FIMM), Helsinki, Finland.
  • Peng Y; University of Cologne (UoC), Cologne, Germany.
  • McConnell K; Thomas Jefferson University, Philadelphia, Pennsylvania, United States.
  • Sindaco P; Thomas Jefferson University, Philadelphia, Pennsylvania, United States.
  • Müller TA; University of Cologne (UoC), Cologne, Germany.
  • Pützer S; University Hospital of Cologne, Cologne, Germany.
  • Klepzig H; University of Cologne, University Hospital Cologne, Cologne, Germany.
  • Jungherz D; University of Leipzig Medical Center, Leipzig, Germany.
  • Dechow A; University of Cologne, University Hospital Cologne, Cologne, Germany.
  • Wahnschaffe L; University Hospital of Cologne, Cologne, Germany.
  • Giri AK; University of Helsinki, Helsinki, Finland.
  • Kankainen M; University of Helsinki, Helsinki, Finland.
  • Kuusanmäki H; Institute of Molecular Medicine Finland (FIMM), Helsinki, Finland.
  • Neubauer HA; Institute for Medical Biochemistry, Vienna, Austria.
  • Moriggl RH; Department of Biosciences & Medical Biology, Salzburg, Austria.
  • Mazzeo P; University Medical Center Goettingen (UMG), Goettingen, Germany.
  • Schmidt N; University Medical Center Göttingen, Göttingen, Germany.
  • Koch R; University Medical Center Goettingen, Goettingen, Germany.
  • Hallek MJ; University of Cologne, Cologne, Germany.
  • Chebel A; UCBL1-CIRI INSERM U1111 CNRS UMR5308-ENS de Lyon-Hospices Civils de Lyon, Oullins, France.
  • Armisen D; Centre International de Recherche en Infectiologie - Universite Claude Bernard Lyon 1, Oullins-Pierre Benite, France.
  • Genestier L; INSERM, Oullins, France.
  • Bachy E; Hospices Civils de Lyon, Pierre-Bénite, France.
  • Mishra A; Thomas Jefferson University and Sidney Kimmel Cancer Center, Philadelphia, Pennsylvania, United States.
  • Schrader A; Hospices Civils de Lyon, Université Claude Bernard Lyon I-ENS de Lyon, France.
  • Aittokallio T; Oslo Centre for Biostatistics and Epidemiology (OCBE), Faculty of Medicine, Institute for Cancer Research, University of Oslo, Norway.
  • Mustjoki S; University of Helsinki, Helsinki, Finland.
  • Herling M; University of Cologne, University Hospital Cologne, Germany.
Blood ; 2024 Jun 28.
Article en En | MEDLINE | ID: mdl-38941598
ABSTRACT
T-prolymphocytic leukemia (T-PLL) is a mature T-cell neoplasm associated with marked chemotherapy resistance and continued poor clinical outcomes. Current treatments, i.e. the CD52-antibody alemtuzumab, offer transient responses, with relapses being almost inevitable without consolidating allogeneic transplantation. Recent more detailed concepts of T-PLL's pathobiology fostered the identification of actionable vulnerabilities (i) altered epigenetics, (ii) defective DNA damage responses, (iii) aberrant cell-cycle regulation, and (iv) deregulated pro-survival pathways, including TCR and JAK/STAT signaling. To further develop related pre-clinical therapeutic concepts, we studied inhibitors of (H)DACs, BCL2, CDK, MDM2, and clas-sical cytostatics, utilizing (a) single-agent and combinatorial compound testing in 20 well-characterized and molecularly-profiled primary T-PLL (validated by additional 42 cases), and (b) 2 independent murine models (syngeneic transplants and patient-derived xenografts). Overall, the most efficient/selective single-agents and combinations (in vitro and in mice) in-cluded Cladribine, Romidepsin ((H)DAC), Venetoclax (BCL2), and/or Idasanutlin (MDM2). Cladribine sensitivity correlated with expression of its target RRM2. T-PLL cells revealed low overall apoptotic priming with heterogeneous dependencies on BCL2 proteins. In additional 38 T-cell leukemia/lymphoma lines, TP53 mutations were associated with resistance towards MDM2 inhibitors. P53 of T-PLL cells, predominantly in wild-type configuration, was amenable to MDM2 inhibition, which increased its MDM2-unbound fraction. This facilitated P53 activa-tion and down-stream signals (including enhanced accessibility of target-gene chromatin re-gions), in particular synergy with insults by Cladribine. Our data emphasize the therapeutic potential of pharmacologic strategies to reinstate P53-mediated apoptotic responses. The identified efficacies and their synergies provide an informative background on compound and patient selection for trial designs in T-PLL.
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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Blood Año: 2024 Tipo del documento: Article País de afiliación: Alemania Pais de publicación: Estados Unidos
Texto completo
Añadir a Mi BVS
Imprimir
XML
PubMed Links
Buscar en Google

Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Blood Año: 2024 Tipo del documento: Article País de afiliación: Alemania Pais de publicación: Estados Unidos