Martin Janz scite author profile

Germinal centers (GC) are sites of intense B cell proliferation, central for T cell dependent antibody responses. However, the role of MYC, a key cell cycle regulator, in this process has been questioned. Here, we identified MYC positive B cell subpopulations in immature and mature GCs, and show through genetic ablation of Myc that they play indispensable roles in GC formation and maintenance. The identification of these functionally critical cellular subsets has important implications for human B cell lymphomagenesis, which mostly originates from GC B cells and frequently involves MYC chromosomal translocations. As these translocations are generally dependent on transcription of the recombining partner loci, the MYC positive GC subpopulations may be at a particularly high risk for malignant transformation.

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Derepression of an endogenous long terminal repeat activates the CSF1R proto-oncogene in human lymphoma

Lamprecht

Walter

Kreher

et al. 2010

Nat Med

314

296

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Mammalian genomes contain many repetitive elements, including long terminal repeats (LTRs), which have long been suspected to have a role in tumorigenesis. Here we present evidence that aberrant LTR activation contributes to lineage-inappropriate gene expression in transformed human cells and that such gene expression is central for tumor cell survival. We show that B cell-derived Hodgkin's lymphoma cells depend on the activity of the non-B, myeloid-specific proto-oncogene colony-stimulating factor 1 receptor (CSF1R). In these cells, CSF1R transcription initiates at an aberrantly activated endogenous LTR of the MaLR family (THE1B). Derepression of the THE1 subfamily of MaLR LTRs is widespread in the genome of Hodgkin's lymphoma cells and is associated with impaired epigenetic control due to loss of expression of the corepressor CBFA2T3. Furthermore, we detect LTR-driven CSF1R transcripts in anaplastic large cell lymphoma, in which CSF1R is known to be expressed aberrantly. We conclude that LTR derepression is involved in the pathogenesis of human lymphomas, a finding that might have diagnostic, prognostic and therapeutic implications.

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Intrinsic inhibition of transcription factor E2A by HLH proteins ABF-1 and Id2 mediates reprogramming of neoplastic B cells in Hodgkin lymphoma

et al. 2005

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B cell differentiation is controlled by a complex network of lineage-restricted transcription factors. How perturbations to this network alter B cell fate remains poorly understood. Here we show that classical Hodgkin lymphoma tumor cells, which originate from mature B cells, have lost the B cell phenotype as a result of aberrant expression of transcriptional regulators. The B cell-specific transcription factor program was disrupted by overexpression of the helix-loop-helix proteins ABF-1 and Id2. Both factors antagonized the function of the B cell-determining transcription factor E2A. As a result, expression of genes specific to B cells was lost and expression of genes not normally associated with the B lineage was upregulated. These data demonstrate the plasticity of mature human lymphoid cells and offer an explanation for the unique classical Hodgkin lymphoma phenotype.

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YB-1 as a Cell Cycle-regulated Transcription Factor Facilitating Cyclin A and Cyclin B1 Gene Expression

Jürchott

Bergmann

Stein

et al. 2003

Journal of Biological Chemistry

191

198

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Expression of the Y-box protein YB-1 is increased in proliferating normal and cancer cells, but its role in cell proliferation and cell cycle progression is unclear. We have identified a cell cycle-dependent relocalization of YB-1 from the cytoplasm to the nucleus at the G 1 /S phase transition and demonstrate that both the charged zipper and the cold shock domain are involved in regulating this process. Using cell lines that constitutively overexpress YB-1, we show that nuclear accumulation of YB-1 is associated with increased cyclin A and cyclin B1 mRNA and protein expression. We provide evidence that deregulated YB-1 expression is linked to adhesion-independent cell proliferation through the induction of cyclin A. Thus, we have identified YB-1 as a cell cycle stage-specific transcription factor important for cell proliferation.

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PTEN loss defines a PI3K/AKT pathway-dependent germinal center subtype of diffuse large B-cell lymphoma

Pfeifer

Grau

Lenze

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

237

189

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Diffuse large B-cell lymphoma (DLBCL) represents a heterogeneous diagnostic category with distinct molecular subtypes that can be defined by gene expression profiling. However, even within these defined subtypes, heterogeneity prevails. To further elucidate the pathogenesis of these entities, we determined the expression of the tumor suppressor phosphatase and tensin homolog (PTEN) in 248 primary DLBCL patient samples. These analyses revealed that loss of PTEN was detectable in 55% of germinal center B-cell-like (GCB) DLBCLs, whereas this abnormality was found in only 14% of non-GCB DLBCL patient samples. In GCB DLBCL, the PTEN status was inversely correlated with activation of the oncogenic PI3K/ protein kinase B (AKT) pathway in both DLBCL cell lines and primary patient samples. Reexpression of PTEN induced cytotoxicity in PTEN-deficient GCB DLBCL cell line models by inhibiting PI3K/AKT signaling, indicating an addiction to this pathway in this subset of GCB DLBCLs. PI3K/AKT inhibition induced down-regulation of the transcription factor MYC. Reexpression of MYC rescued GCB DLBCL cells from PTEN-induced toxicity, identifying a regulatory mechanism of MYC expression in DLBCL. Finally, pharmacologic PI3K inhibition resulted in toxicity selectively in PTEN-deficient GCB DLBCL lines. Collectively, our results indicate that PTEN loss defines a PI3K/ AKT-dependent GCB DLBCL subtype that is addicted to PI3K and MYC signaling and suggest that pharmacologic inhibition of PI3K might represent a promising therapeutic approach in these lymphomas. Diffuse large B-cell lymphoma (DLBCL) represents the most frequent lymphoma subtype and is considered a heterogeneous diagnostic category (1). Using gene expression profiling, two major molecular subtypes can be distinguished termed germinal center B-cell-like (GCB) DLBCL and activated B-cell-like (ABC) DLBCL (2). GCB DLBCLs are derived from germinal center B cells, whereas ABC DLBCLs originate from postgerminal center B cells that are in the transition of being differentiated into plasma cells. However, full plasma cell maturation is blocked in ABC DLBCL by different genetic abnormalities inhibiting the function of BLIMP1 that regulates plasmacytic differentiation (3-5).Recent work suggested constitutive activation of the PI3K/ protein kinase B (AKT) pathway that plays a crucial role in mediating growth, proliferation, and cell survival in a substantial number of DLBCL patient samples determined by immunohistochemical staining for phospho-AKT (p-AKT) (6, 7). However, these studies did not investigate the molecular mechanisms leading to constitutive PI3K/AKT signaling. The tumor suppressor PTEN is the major negative regulator of PI3K/AKT. PTEN functions as a lipid phosphatase dephosphorylating the 3′ position of phosphatidyl-inositol-3,-4,-5-trisphosphate, which serves as a trigger for AKT activation (8, 9). However, recent studies showed that PTEN has additional PI3K/AKT-independent tumor suppressor functions. Nuclear PTEN, for example, acts as guardian of genome integrity by up-...

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Second-Line Tisagenlecleucel or Standard Care in Aggressive B-Cell Lymphoma

Bishop

Dickinson

Purtill³

et al. 2022

N Engl J Med

261

187

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c-FLIP Mediates Resistance of Hodgkin/Reed-Sternberg Cells to Death Receptor–induced Apoptosis

et al. 2004

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Resistance to death receptor–mediated apoptosis is supposed to be important for the deregulated growth of B cell lymphoma. Hodgkin/Reed-Sternberg (HRS) cells, the malignant cells of classical Hodgkin's lymphoma (cHL), resist CD95-induced apoptosis. Therefore, we analyzed death receptor signaling, in particular the CD95 pathway, in these cells. High level CD95 expression allowed a rapid formation of the death-inducing signaling complex (DISC) containing Fas-associated death domain–containing protein (FADD), caspase-8, caspase-10, and most importantly, cellular FADD-like interleukin 1β–converting enzyme-inhibitory protein (c-FLIP). The immunohistochemical analysis of the DISC members revealed a strong expression of CD95 and c-FLIP overexpression in 55 out of 59 cases of cHL. FADD overexpression was detectable in several cases. Triggering of the CD95 pathway in HRS cells is indicated by the presence of CD95L in cells surrounding them as well as confocal microscopy showing c-FLIP predominantly localized at the cell membrane. Elevated c-FLIP expression in HRS cells depends on nuclear factor (NF)-κB. Despite expression of other NF-κB–dependent antiapoptotic proteins, the selective down-regulation of c-FLIP by small interfering RNA oligoribonucleotides was sufficient to sensitize HRS cells to CD95 and tumor necrosis factor–related apoptosis-inducing ligand–induced apoptosis. Therefore, c-FLIP is a key regulator of death receptor resistance in HRS cells.

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Y‐box factor YB‐1 predicts drug resistance and patient outcome in breast cancer independent of clinically relevant tumor biologic factors HER2, uPA and PAI‐1

Janz

Harbeck

Dettmar

et al. 2001

Intl Journal of Cancer

162

155

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Intrinsic or acquired resistance to chemotherapy is responsible for failure of current treatment regimens in breast cancer patients. The Y-box protein YB-1 regulates expression of the P-glycoprotein gene mdr1, which plays a major role in the development of a multidrug-resistant tumor phenotype. In human breast cancer, overexpression and nuclear localization of YB-1 is associated with upregulation of P-glycoprotein. In our pilot study, we analyzed the clinical relevance of YB-1 expression in breast cancer (n ‫؍‬ 83) after a median follow-up of 61 months and compared it with tumor-biologic factors already used for clinical risk-group discrimination, i.e., HER2, urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor type 1 (PAI-1). High YB-1 expression in tumor tissue and surrounding benign breast epithelial cells was significantly associated with poor patient outcome. In patients who received postoperative chemotherapy, the 5-year relapse rate was 66% in patients with high YB-1 expression. In contrast, in patients with low YB-1 expressions, no relapse has been observed so far. YB-1 expression thus indicates clinical drug resistance in breast cancer. Moreover, YB-1 correlates with breast cancer aggressiveness: in patients not treated with postoperative chemotherapy, those with low YB-1 expression are still free of disease, whereas the 5-year relapse rate in those with high YB-1 was 30%. There was no significant correlation between YB-1 expression and either HER2 expression or uPA and PAI-1 levels. Risk-group assessment achieved by YB-1 differed significantly from that by HER2 or uPA/PAI-1. In conclusion, YB-1 demonstrated prognostic and predictive significance in breast cancer by identifying high-risk patients in both the presence and absence of postoperative chemotherapy, independent of tumor-biologic factors currently available for clinical decision making. One of the most important current issues in breast cancer research is early identification of patients at high risk for relapse coupled with risk-adapted individualized therapy concepts. We have previously shown that the Y-box protein YB-1 is involved in regulating transcription of the P-glycoprotein gene mdr1 and that nuclear localization of YB-1 in human breast cancer is associated with increased P-glycoprotein expression. 1 In the experimental setting, expression of P-glycoprotein confers cross-resistance to a variety of cytotoxic agents differing in structure and mechanism of action (e.g., anthracyclines, vinca alkaloids, epipodophyllotoxins and taxanes), resulting in a multidrug-resistant phenotype. 2 However, the functional relevance of P-glycoprotein expression for clinical drug resistance in breast cancer is controversial, since evidence for an association between P-glycoprotein expression and survival is not supported by all investigations. 3 At present, it is still unclear which functions can be directly attributed to P-glycoprotein, or whether P-glycoprotein expression is merely a surrogate marker for other genetic and biolog...

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Martin Janz

The cell-cycle regulator c-Myc is essential for the formation and maintenance of germinal centers

Derepression of an endogenous long terminal repeat activates the CSF1R proto-oncogene in human lymphoma

Intrinsic inhibition of transcription factor E2A by HLH proteins ABF-1 and Id2 mediates reprogramming of neoplastic B cells in Hodgkin lymphoma

YB-1 as a Cell Cycle-regulated Transcription Factor Facilitating Cyclin A and Cyclin B1 Gene Expression

PTEN loss defines a PI3K/AKT pathway-dependent germinal center subtype of diffuse large B-cell lymphoma

Second-Line Tisagenlecleucel or Standard Care in Aggressive B-Cell Lymphoma

c-FLIP Mediates Resistance of Hodgkin/Reed-Sternberg Cells to Death Receptor–induced Apoptosis

Y‐box factor YB‐1 predicts drug resistance and patient outcome in breast cancer independent of clinically relevant tumor biologic factors HER2, uPA and PAI‐1

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