Tim Rehkämper scite author profile

Chronic lymphocytic leukemia (CLL) remains an incurable disease. Two recurrent cytogenetic aberrations, namely del(17p), affecting TP53, and del(11q), affecting ATM, are associated with resistance against genotoxic chemotherapy (del17p) and poor outcome (del11q and del17p). Both del(17p) and del(11q) are also associated with inferior outcome to the novel targeted agents, such as the BTK inhibitor ibrutinib. Thus, even in the era of targeted therapies, CLL with alterations in the ATM/p53 pathway remains a clinical challenge. Here we generated two mouse models of Atm- and Trp53-deficient CLL. These animals display a significantly earlier disease onset and reduced overall survival, compared to controls. We employed these models in conjunction with transcriptome analyses following cyclophosphamide treatment to reveal that Atm deficiency is associated with an exquisite and genotype-specific sensitivity against PARP inhibition. Thus, we generate two aggressive CLL models and provide a preclinical rational for the use of PARP inhibitors in ATM-affected human CLL.

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Targeting a non-oncogene addiction to the ATR/CHK1 axis for the treatment of small cell lung cancer

Doerr

George

Schmitt

et al. 2017

Sci Rep

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Small cell lung cancer (SCLC) is a difficult to treat subtype of lung cancer. One of the hallmarks of SCLC is its almost uniform chemotherapy sensitivity. However, chemotherapy response is typically transient and patients frequently succumb to SCLC within a year following diagnosis. We performed a transcriptome analysis of the major human lung cancer entities. We show a significant overexpression of genes involved in the DNA damage response, specifically in SCLC. Particularly CHEK1, which encodes for the cell cycle checkpoint kinase CHK1, is significantly overexpressed in SCLC, compared to lung adenocarcinoma. In line with uncontrolled cell cycle progression in SCLC, we find that CDC25A, B and C mRNAs are expressed at significantly higher levels in SCLC, compared to lung adenocarcinoma. We next profiled the efficacy of compounds targeting CHK1 and ATR. Both, ATR- and CHK1 inhibitors induce genotoxic damage and apoptosis in human and murine SCLC cell lines, but not in lung adenocarcinoma cells. We further demonstrate that murine SCLC tumors were highly sensitive to ATR- and CHK1 inhibitors, while Kras G12D-driven murine lung adenocarcinomas were resistant against these compounds and displayed continued growth under therapy. Altogether, our data indicate that SCLC displays an actionable dependence on ATR/CHK1-mediated cell cycle checkpoints.

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An Autochthonous Mouse Model ofMyd88- andBCL2-Driven Diffuse Large B-cell Lymphoma Reveals Actionable Molecular Vulnerabilities

Flümann

Rehkämper

Nieper

et al. 2021

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Based on gene expression profiles, diffuse large B-cell lymphoma (DLBCL) is subdivided into germinal center B-cell-like (GCB) and activated B-cell-like (ABC) DLBCL. Two of the most common genomic aberrations in ABC-DLBCL are mutations in MYD88 as well as BCL2 copy-number gains. Here, we employ immune phenotyping, RNA sequencing, and wholeexome sequencing to characterize a Myd88-and BCL2-driven mouse model of ABC-DLBCL. We show that this model resembles features of human ABC-DLBCL. We further demonstrate an actionable dependence of our murine ABC-DLBCL model on BCL2. This BCL2 dependence was also detectable in human ABC-DLBCL cell lines. Moreover, human ABC-DLBCLs displayed increased PD-L1 expression compared with GCB-DLBCL. In vivo experiments in our ABC-DLBCL model showed that combined venetoclax and PD-1 blockade significantly increased the overall survival of lymphoma-bearing animals, indicating that this combination may be a viable option for selected human ABC-DLBCL cases harboring MYD88 and BCL2 aberrations.SignificAnce: Oncogenic Myd88 and BCL2 cooperate in murine DLBCL lymphomagenesis. The resulting lymphomas display morphologic and transcriptomic features reminiscent of human ABC-DLBCL. Data derived from our Myd88/BCL2-driven autochthonous model demonstrate that combined BCL2 and PD-1 blockade displays substantial preclinical antilymphoma activity, providing preclinical proofof-concept data, which pave the way for clinical translation.

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DNA damage pathways and B-cell lymphomagenesis

Knittel

Rehkämper

Nieper

et al. 2018

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Purpose of review Recent lymphoma genome sequencing projects have shed light on the genomic landscape of indolent and aggressive lymphomas, as well as some of the molecular mechanisms underlying recurrent mutations and translocations in these entities. Here, we review these recent genomic discoveries, focusing on acquired DNA repair defects in lymphoma. In addition, we highlight recently identified actionable molecular vulnerabilities associated with recurrent mutations in chronic lymphocytic leukemia (CLL), which serves as a model entity. Recent findings The results of several large lymphoma genome sequencing projects have recently been reported, including CLL, T-PLL and DLBCL. We align these discoveries with proposed mechanisms of mutation acquisition in B-cell lymphomas. Moreover, novel autochthonous mouse models of CLL have recently been generated and we discuss how these models serve as preclinical tools to drive the development of novel targeted therapeutic interventions. Lastly, we highlight the results of early clinical data on novel compounds targeting defects in the DNA damage response of CLL with a particular focus on deleterious ATM mutations. Summary Defects in DNA repair pathways are selected events in cancer, including lymphomas. Specifically, ATM deficiency is associated with PARP1- and DNA-PKcs inhibitor sensitivity in vitro and in vivo.

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Autochthonous Mouse Models of Myd88 P.L265P - And Bcl2-Driven Diffuse Large B Cell Lymphoma

Fluemann¹,

Knittel²,

Nieper³

et al. 2019

HemaSphere

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Pf508 Autochthonous Mouse Models of MYD88 P.L265P ‐ and Bcl2‐driven Diffuse Large B Cell Lymphoma

et al. 2019

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to the absence of anemia (compensated hemolytic anemia) and the increase of hepcidine could be explained by the high ferritin levels. In the ineffective erythropoiesis group, despite the anemia, no statistically significant ERFE-hepcidin levels were observed. In splenectomized HS patients, ERFE/hepcidine levels were similar to those of the control group. The newly identified ERFE hormone may act as physiological hepcidin suppressor in cases with IDA, but we have to establish this relationship in other types of anemia, for which it is necessary to evaluate more patients. The high number of patients that we had to exclude due to ERFE results outside the assay sensitivity range implies the need of validation and standardization of the method.

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Data from An Autochthonous Mouse Model of Myd88- and BCL2-Driven Diffuse Large B-cell Lymphoma Reveals Actionable Molecular Vulnerabilities

Flümann¹,

Rehkämper²,

Nieper³

et al. 2023

Preprint

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<div>AbstractBased on gene expression profiles, diffuse large B-cell lymphoma (DLBCL) is subdivided into germinal center B-cell–like (GCB) and activated B-cell–like (ABC) DLBCL. Two of the most common genomic aberrations in ABC-DLBCL are mutations in MYD88 as well as BCL2 copy-number gains. Here, we employ immune phenotyping, RNA sequencing, and whole-exome sequencing to characterize a Myd88- and BCL2-driven mouse model of ABC-DLBCL. We show that this model resembles features of human ABC-DLBCL. We further demonstrate an actionable dependence of our murine ABC-DLBCL model on BCL2. This BCL2 dependence was also detectable in human ABC-DLBCL cell lines. Moreover, human ABC-DLBCLs displayed increased PD-L1 expression compared with GCB-DLBCL. In vivo experiments in our ABC-DLBCL model showed that combined venetoclax and PD-1 blockade significantly increased the overall survival of lymphoma-bearing animals, indicating that this combination may be a viable option for selected human ABC-DLBCL cases harboring MYD88 and BCL2 aberrations.Significance:Oncogenic Myd88 and BCL2 cooperate in murine DLBCL lymphomagenesis. The resulting lymphomas display morphologic and transcriptomic features reminiscent of human ABC-DLBCL. Data derived from our Myd88/BCL2-driven autochthonous model demonstrate that combined BCL2 and PD-1 blockade displays substantial preclinical antilymphoma activity, providing preclinical proof-of-concept data, which pave the way for clinical translation.This article is highlighted in the In This Issue feature, p. 1</div>

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Data from An Autochthonous Mouse Model of Myd88- and BCL2-Driven Diffuse Large B-cell Lymphoma Reveals Actionable Molecular Vulnerabilities

Flümann¹,

Rehkämper²,

Nieper³

et al. 2023

Preprint

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Tim Rehkämper

Two mouse models reveal an actionable PARP1 dependence in aggressive chronic lymphocytic leukemia

Targeting a non-oncogene addiction to the ATR/CHK1 axis for the treatment of small cell lung cancer

An Autochthonous Mouse Model ofMyd88- andBCL2-Driven Diffuse Large B-cell Lymphoma Reveals Actionable Molecular Vulnerabilities

DNA damage pathways and B-cell lymphomagenesis

Autochthonous Mouse Models of Myd88 P.L265P - And Bcl2-Driven Diffuse Large B Cell Lymphoma

Pf508 Autochthonous Mouse Models of MYD88 P.L265P ‐ and Bcl2‐driven Diffuse Large B Cell Lymphoma

Data from An Autochthonous Mouse Model of <i>Myd88</i>- and <i>BCL2</i>-Driven Diffuse Large B-cell Lymphoma Reveals Actionable Molecular Vulnerabilities

Data from An Autochthonous Mouse Model of <i>Myd88</i>- and <i>BCL2</i>-Driven Diffuse Large B-cell Lymphoma Reveals Actionable Molecular Vulnerabilities

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