Shinsuke Mizutani

8q24 amplified segments involve novel fusion genes between NSMCE2 and long noncoding RNAs in acute myelogenous leukemia

The pathogenetic roles of 8q24 amplified segments in leukemic cells with double minute chromosomes remain to be verified. Through comprehensive molecular analyses of 8q24 amplicons in leukemic cells from an acute myelogenous leukemia (AML) patient and AML-derived cell line HL60 cells, we identified two novel fusion genes between NSMCE2 and long noncoding RNAs (lncRNAs), namely, PVT1-NSMCE2 and BF104016-NSMCE2. Our study suggests that 8q24 amplicons are associated with the emergence of aberrant chimeric genes between NSMCE2 and oncogenic lncRNAs, and also implicate that the chimeric genes involving lncRNAs potentially possess as-yet-unknown oncogenic functional roles.

Cyclosporine A for Chemotherapy-Resistant Subcutaneous Panniculitis-Like T Cell Lymphoma with Hemophagocytic Syndrome

Subcutaneous panniculitis-like T cell lymphoma (SPTL) is a rare subtype of non-Hodgkin lymphoma for which a definitive therapeutic strategy has not been established yet. We report a case of chemotherapy-resistant SPTL with hemophagocytic syndrome (HPS) which was successfully treated with cyclosporine A (CsA) plus methylprednisolone (mPSL), and also reviewed 11 SPTL cases treated with CsA, previously reported in the literature. Our patient was a 38-year-old female with SPTL. The disease progressed despite conventional chemotherapy using cytotoxic agents including alkylators, anthracyclins or purine analogues, and, after 2 months of chemotherapy, was eventually complicated by HPS and disseminated intravascular coagulation (DIC). CsA (4 mg/kg/day) plus mPSL treatment dramatically improved HPS with DIC, reduced subcutaneous tumors within 2 weeks, and finally induced complete remission (CR) after 3 months. Currently, the patient has maintained CR while being treated with CsA for 12 months. In addition to our case, 9 of 11 SPTL cases were successfully treated with CsA, and 8 were induced to CR. Time to first response to CsA was within 2 weeks in most cases, regardless of prior treatment or the co-occurrence of HPS. Our case and this first comprehensive review on CsA for SPTL suggest that CsA may constitute a candidate treatment strategy for SPTL.

FTY720 induces apoptosis of chronic myelogenous leukemia cells via dual activation of BIM and BID and overcomes various types of resistance to tyrosine kinase inhibitors

PP2A activator FTY720 has been shown to possess the anti-leukemic activity for chronic myelogenous leukemia (CML), however, the cell killing mechanism underlying its anti-leukemic activity has remained to be verified. We investigated the precise mechanisms underlying the apoptosis induction by FTY720, especially focusing on the roles of BH3-only proteins, and the therapeutic potency of FTY720 for CML. Enforced expression of either BCL2 or the dominant-negative protein of FADD (FADD.DN) partly protected CML cells from apoptosis by FTY720, indicating the involvement of both cell extrinsic and intrinsic apoptosis pathways. FTY720 activates pro-apoptotic BH3-only proteins: BIM, which is essential for apoptosis by BCR-ABL1 tyrosine kinase inhibitors (TKIs), and BID, which accelerates the extrinsic apoptosis pathway. Gene knockdown of either BIM or BID partly protected K562 cells from apoptosis by FTY720, but the extent of cell protection was not as much as that by overexpression of either BCL2 or FADD.DN. Moreover, knockdown of both BIM and BID did not provide additional protection compared with knockdown of only BIM or BID, indicating that BIM and BID complement each other in apoptosis by FTY720, especially when either is functionally impaired. FTY720 can overcome TKI resistance caused by ABL kinase domain mutations, dysfunction of BIM resulting from gene deletion polymorphism, and galectin-3 overexpression. In addition, ABT-263, a BH3-mimetic, significantly augmented cell death induction by FTY720 both in TKI-sensitive and -resistant leukemic cells. These results provide the rationale that FTY720, with its unique effects on BIM and BID, could lead to new therapeutic strategies for CML.

RSK2 Ser227 at N-Terminal Kinase Domain Is a Potential Therapeutic Target for Multiple Myeloma

Multiple myeloma is an entity of cytogenetically and genetically heterogenous plasma cell neoplasms. Despite recent improvement in the treatment outcome of multiple myeloma by novel molecular-targeted chemotherapeutics, multiple myeloma remains incurable. The identification of a therapeutic target molecule in which various signaling for cell-survival converge is a core component for the development of new therapeutic strategies against multiple myeloma. RSK2 is an essential mediator of the ERK1/2 signaling pathway for cell survival and proliferation. In this study, we discovered that RSK2Ser227, which is located at the N-terminal kinase domain and is one site responsible for substrate phosphorylation, is activated through phosphorylation regardless of the type of cytogenetic abnormalities or upstream molecular signaling in all 12 multiple myeloma–derived cell lines examined and 6 of 9 patient-derived CD138-positive primary myeloma cells. The chemical inhibition of RSK2Ser227 by BI-D1870 or gene knockdown of RSK2 inhibits myeloma cell proliferation through apoptosis induction, and this anti-myeloma effect was accompanied by downregulation of c-MYC, cyclin D, p21WAF1/CIP1, and MCL1. RSK2Ser227 inhibition resulting from BI-D1870 treatment restored lenalidomide-induced direct cytotoxicity of myeloma cells from interleukin-6–mediated cell protection, showed no cross-resistance to bortezomib, and exerted additive/synergistic antiproliferative effects in conjunction with the mTOR, histone deacetylase, and BH3-mimicking BCL2/BCLXL inhibitors. These results suggest that RSK2Ser227 is a potential therapeutic target not only for newly diagnosed but also for patients with later phase multiple myeloma who are resistant or refractory to currently available anti-myeloma therapies. Mol Cancer Ther; 11(12); 2600–9. ©2012 AACR.

Phosphoinositide Protein Kinase PDPK1 Is a Crucial Cell Signaling Mediator in Multiple Myeloma

Multiple myeloma is a cytogenetically/molecularly heterogeneous hematologic malignancy that remains mostly incurable, and the identification of a universal and relevant therapeutic target molecule is essential for the further development of therapeutic strategy. Herein, we identified that 3-phosphoinositide-dependent protein kinase 1 (PDPK1), a serine threonine kinase, is expressed and active in all eleven multiple myeloma-derived cell lines examined regardless of the type of cytogenetic abnormality, the mutation state of RAS and FGFR3 genes, or the activation state of ERK and AKT. Our results revealed that PDPK1 is a pivotal regulator of molecules that are essential for myelomagenesis, such as RSK2, AKT, c-MYC, IRF4, or cyclin Ds, and that PDPK1 inhibition caused the growth inhibition and the induction of apoptosis with the activation of BIM and BAD, and augmented the in vitro cytotoxic effects of antimyeloma agents in myeloma cells. In the clinical setting, PDPK1 was active in myeloma cells of approximately 90% of symptomatic patients at diagnosis, and the smaller population of patients with multiple myeloma exhibiting myeloma cells without active PDPK1 showed a significantly less frequent proportion of the disease stage III by the International Staging System and a significantly more favorable prognosis, including the longer overall survival period and the longer progression-free survival period by bortezomib treatment, than patients with active PDPK1, suggesting that PDPK1 activation accelerates the disease progression and the resistance to treatment in multiple myeloma. Our study demonstrates that PDPK1 is a potent and a universally targetable signaling mediator in multiple myeloma regardless of the types of cytogenetic/molecular profiles.

Suppression of SERPINA1-albumin complex formation by galectin-3 overexpression leads to paracrine growth promotion of chronic myelogenous leukemia cells

Galectin-3 is induced in chronic myelogenous leukemia (CML) cells by co-culture with bone marrow stromal cells, making paracrine growth promotion of CML cells in conditioned medium (CM) from galectin-3 overexpressing CML cells more potent. We used gel filtration chromatography to demonstrate that the bovine SERPINA1-fetal bovine serum albumin (BSA) complex was specifically suppressed in CM from galectin-3 overexpressing cells. The SERPINA1-BSA complex as well as human plasma SERPINA1 inhibited the growth of CML cells, while exogenous galectin-3 partly offset this effect. These findings suggest that galectin-3 overexpression promotes paracrine growth of CML cells by interfering with the action of the growth inhibitory SERPINA1-albumin complex.

Clinical manifestation of angioimmunoblastic T-cell lymphoma with exuberant plasmacytosis.

Angioimmunoblastic T-cell lymphoma (AITL) is a rare subtype of non-Hodgkin lymphoma characterized by aggressive symptoms and various abnormal laboratory test results. One of the rare immunologic abnormalities in AITL is exuberant polyclonal plasmacytosis, but its clinical significance has not been evaluated. This report concerns three AITL cases with exuberant polyclonal plasmacytosis and investigates its clinical impact by comparison with 12 patients without plasmacytosis. Our study found that the performance status (PS) of the former was significantly worse and their serum immunoglobulin levels were significantly higher. All other parameters, including B symptoms, various prognostic scores, blood cell counts other than plasmacyte, and serum levels of lactate dehydrogenase, C-reactive protein and soluble interleukin-2 receptor, showed no significant differences. More importantly, although the diagnosis of AITL with plasmacytosis was not straightforward in our series, outcomes of treatment with conventional chemotherapy or immunosuppressive therapy with cyclosporine A were favorable. To conclude, AITL should be considered a candidate underlying disease of exuberant polyclonal plasmacytosis. Provided a correct diagnosis is made early and is followed by adequate treatment, the prognosis for AITL with plasmacytosis may not be worse than that for those without plasmacytosis despite the severe exhaustion at first presentation.

Loss of RUNX1/AML1 arginine‐methylation impairs peripheral T cell homeostasis

RUNX1 (previously termed AML1) is a frequent target of human leukaemia‐associated gene aberrations, and it encodes the DNA‐binding subunit of the Core‐Binding Factor transcription factor complex. RUNX1 expression is essential for the initiation of definitive haematopoiesis, for steady‐state thrombopoiesis, and for normal lymphocytes development. Recent studies revealed that protein arginine methyltransferase 1 (PRMT1), which accounts for the majority of the type I PRMT activity in cells, methylates two arginine residues in RUNX1 (R206 and R210), and these modifications inhibit corepressor‐binding to RUNX1 thereby enhancing its transcriptional activity. In order to elucidate the biological significance of these methylations, we established novel knock‐in mouse lines with non‐methylable, double arginine‐to‐lysine (RTAMR‐to‐KTAMK) mutations in RUNX1. Homozygous Runx1KTAMK/KTAMK mice are born alive and appear normal during adulthood. However, Runx1KTAMK/KTAMK mice showed a reduction in CD3+ T lymphoid cells and a decrease in CD4+ T cells in peripheral lymphoid organs, in comparison to their wild‐type littermates, leading to a reduction in the CD4+ to CD8+ T‐cell ratio. These findings suggest that arginine‐methylation of RUNX1 in the RTAMR‐motif is dispensable for the development of definitive haematopoiesis and for steady‐state platelet production, however this modification affects the role of RUNX1 in the maintenance of the peripheral CD4+ T‐cell population.

Hematopoietic Progenitor Cell Mobilization Using Low- Dose Cyclophosphamide and Granulocyte Colony- Stimulating Factor for Multiple Myeloma

High‐dose chemotherapy (HDT) supported by autologous stem cell transplantation (ASCT) has long been one of the standards of care for younger patients with multiple myeloma (MM). Cyclophosphamide (CY) plus granulocyte colony‐stimulating factor (G‐CSF) has been the conventional preparation for hematopoietic progenitor cell (HPC) mobilization, although the optimal dosage of CY in this setting has not yet been clearly defined. This study investigated the efficacy and safety of low‐dose (LD‐)CY (1.5 g/m2) plus G‐CSF for conditioning for HPC apheresis harvest (HPC‐A) in 18 MM patients, and compared it with a regimen consisting of intermediate‐dose (ID)‐CY (4 g/m2) plus G‐CSF for 13 MM patients. Eleven patients in the former and six in the latter were treated with bortezomib (BTZ) during the induction therapy. Both regimens were comparably effective in terms of CD34+ cell yields, while adverse events, such as leukopenia, thrombocytopenia, and febrile neutropenia, occurred significantly less frequently in the LD‐CY cohort. All patients in LD‐CY cohort started and completed their apheresis on day 7 or 8, whereas for the ID‐CY cohort the day of first apheresis varied widely from day 8 to 15. These findings indicate that the LD‐CY regimen is as effective as ID‐CY for HPC mobilization, while the former is clearly more practicable and convenient than the ID‐CY regimen for patients with MM. J. Clin. Apheresis 28:368–373, 2013.

Comprehensive cytogenetic study of primary cutaneous gamma-delta T-cell lymphoma by means of spectral karyotyping and genome-wide single nucleotide polymorphism array.

Primary cutaneous gamma-delta T-cell lymphoma (PCGD-TCL), which originates from activated mature gamma-delta T cells with a cytotoxic phenotype is a rare T-cell lymphoproliferative disease. The prognosis of PCGD-TCL has been rather unfavorable due to poor response to conventional chemotherapy, and its molecular features and pathophysiology underlying disease development remain unknown. We report here a case with primarily treatment-resistant PCGD-TCL featuring highly complex cytogenetic and genetic aberrations detected by spectral karyotyping and genome-wide single nucleotide polymorphism (SNP) array. Chromosomal aberrations included several chromosomal translocations involving breakpoints at 9p21, 14q11.2, 14q32.1, or 16q23.1, suggesting the involvement of WWOX, TCL gene cluster, and BCL11B, which are crucial for tumorigenesis in T-cell lymphomas. SNP analysis also identified genome copy number gains and losses in various regions, which can potently deregulate expression of various pro- and anti-oncogenic genes involved in RAS-related protein pathways, PI3K/AKT/MTOR-related pathways, MYC-related signaling, or TP53-related signaling. Thus, this case report may shed some light on the complex molecular abnormalities involved in the development of PCGD-TCL and on information that can aid the search for druggable target molecules in this disease.