Miho Nara

The role of microRNA-150 as a tumor suppressor in malignant lymphoma

MicroRNA (miRNA; miR) is a class of small regulatory RNA molecules, the aberrant expression of which can lead to the development of cancer. We recently reported that overexpression of miR-21 and/or miR-155 leads to activation of the phosphoinositide 3-kinase (PI3K)–AKT pathway in malignant lymphomas expressing CD3−CD56+ natural killer (NK) cell antigen. Through expression analysis, we show in this study that in both NK/T-cell lymphoma lines and samples of primary lymphoma, levels of miR-150 expression are significantly lower than in normal NK cells. To examine its role in lymphomagenesis, we transduced miR-150 into NK/T-cell lymphoma cells, which increased the incidence of apoptosis and reduced cell proliferation. Moreover, the miR-150 transductants appeared senescent and showed lower telomerase activity, resulting in shortened telomeric DNA. We also found that miR-150 directly downregulated expression of DKC1 and AKT2, reduced levels of phosphorylated AKTser473/4 and increased levels of tumor suppressors such as Bim and p53. Collectively, these results suggest that miR-150 functions as a tumor suppressor, and that its aberrant downregulation induces continuous activation of the PI3K–AKT pathway, leading to telomerase activation and immortalization of cancer cells. These findings provide new insight into the pathogenesis of malignant lymphoma.

MicroRNA-150 inhibits tumor invasion and metastasis by targeting the chemokine receptor CCR6, in advanced cutaneous T-cell lymphoma.

In this study, we show that microRNA-150 (miR-150) is significantly downregulated in advanced cutaneous T-cell lymphoma (CTCL), and that this downregulation is strongly associated with tumor invasion/metastasis. Inoculation of CTCL cell lines into nonobese diabetic/Shi-scid interleukin 2γ (IL-2γ) null mice led to CTCL cell migration to multiple organs; however, prior transfection of the cells with miR-150 substantially reduced the invasion/metastasis by directly downregulating CCR6, a specific receptor for the chemokine CCL20. We also found that IL-22 and its specific receptor subunit, IL22RA1, were aberrantly overexpressed in advanced CTCL, and that production of IL-22 and CCL20 was increased in cultured CTCL cells. IL22RA1 knockdown specifically reduced CCL20 production in CTCL cells, suggesting that IL-22 upregulation may activate the production of CCL20 and its binding to CCR6, thereby enhancing the multidirectional migration potential of CTCL cells. CTCL cells also exhibited nutrition- and CCL20-dependent chemotaxis, which were inhibited by miR-150 transfection or CCR6 knockdown. From these findings, we conclude that, in the presence of continuous CCR6 upregulation accompanied by miR-150 downregulation, IL-22 activation leads to continuous CCL20-CCR6 interaction in CTCL cells and, in turn, autocrine metastasis to distal organs. This suggests miR-150, CCL20, and CCR6 could be key targets for the treatment of advanced CTCL.

Enucleation of human erythroblasts involves non-muscle myosin IIB

Mammalian erythroblasts undergo enucleation, a process thought to be similar to cytokinesis. Although an assemblage of actin, non-muscle myosin II, and several other proteins is crucial for proper cytokinesis, the role of non-muscle myosin II in enucleation remains unclear. In this study, we investigated the effect of various cell-division inhibitors on cytokinesis and enucleation. For this purpose, we used human colony-forming unit-erythroid (CFU-E) and mature erythroblasts generated from purified CD34(+) cells as target cells for cytokinesis and enucleation assay, respectively. Here we show that the inhibition of myosin by blebbistatin, an inhibitor of non-muscle myosin II ATPase, blocks both cell division and enucleation, which suggests that non-muscle myosin II plays an essential role not only in cytokinesis but also in enucleation. When the function of non-muscle myosin heavy chain (NMHC) IIA or IIB was inhibited by an exogenous expression of myosin rod fragment, myosin IIA or IIB, each rod fragment blocked the proliferation of CFU-E but only the rod fragment for IIB inhibited the enucleation of mature erythroblasts. These data indicate that NMHC IIB among the isoforms is involved in the enucleation of human erythroblasts.

Dysregulation of BMI1 and microRNA-16 collaborate to enhance an anti-apoptotic potential in the side population of refractory mantle cell lymphoma

The proto-oncogene BMI1 and its product, Bmi1, is overexpressed in various types of tumors, particularly in aggressive tumors and tumors resistant to conventional chemotherapy. BMI1/Bmi1 is also crucially involved in cancer-initiating cell maintenance, and is recurrently upregulated in mantle cell lymphoma (MCL), especially aggressive variants. Recently, side population (SP) cells were shown to exhibit tumor-initiating characteristics in various types of tumors. In this study, we show that recurrent MCL cases significantly exhibit upregulation of BMI1/Bmi1. We further demonstrate that clonogenic MCL SP shows such tumor-initiating characteristics as high tumorigenicity and self-renewal capability, and that BMI1 was upregulated in the SP from recurrent MCL cases and MCL cell lines. On screening for upstream regulators of BMI1, we found that expression of microRNA-16 (miR-16) was downregulated in MCL SP cells by regulating Bmi1 in the SPs, leading to reductions in tumor size following lymphoma xenografts. Moreover, to investigate downstream targets of BMI1 in MCL, we performed cross-linking/chromatin immunoprecipitation assay against MCL cell lines and demonstrated that Bmi1 directly regulated pro-apoptotic genes such as BCL2L11/Bim and PMAIP1/Noxa, leading to enhance anti-apoptotic potential of MCL. Finally, we found that a proteasome inhibitor bortezomib, which has been recently used for relapsed MCL, effectively induced apoptosis among MCL cells while reducing expression of Bmi1 and increasing miR-16 in MCL SP. These results suggest that upregulation of BMI1 and downregulation of miR-16 in MCL SP has a key role in the disease’s progression by reducing MCL cell apoptosis. Our results provide important new insight into the pathogenesis of MCL and strongly suggest that targeting BMI1/Bmi1 might be an effective approach to treating MCL, particularly refractory and recurrent cases.

Bortezomib reduces the tumorigenicity of multiple myeloma via downregulation of upregulated targets in clonogenic side population cells.

Side population (SP) cells in cancers, including multiple myeloma, exhibit tumor-initiating characteristics. In the present study, we isolated SP cells from human myeloma cell lines and primary tumors to detect potential therapeutic targets specifically expressed in SP cells. We found that SP cells from myeloma cell lines (RPMI 8226, AMO1, KMS-12-BM, KMS-11) express CD138 and that non-SP cells include a CD138-negative population. Serial transplantation of SP and non-SP cells into NOD/Shi-scid IL-2γnul mice revealed that clonogenic myeloma SP cells are highly tumorigenic and possess a capacity for self-renewal. Gene expression analysis showed that SP cells from five MM cell lines (RPMI 8226, AMO1, KMS-12-BM, KMS-11, JJN3) express genes involved in the cell cycle and mitosis (e.g., CCNB1, CDC25C, CDC2, BIRC5, CENPE, SKA1, AURKB, KIFs, TOP2A, ASPM), polycomb (e.g., EZH2, EPC1) and ubiquitin-proteasome (e.g., UBE2D3, UBE3C, PSMA5) more strongly than do non-SP cells. Moreover, CCNB1, AURKB, EZH2 and PSMA5 were also upregulated in the SPs from eight primary myeloma samples. On that basis, we used an aurora kinase inhibitor (VX-680) and a proteasome inhibitor (bortezomib) with RPMI 8226 and AMO1 cells to determine whether these agents could be used to selectively target the myeloma SP. We found that both these drugs reduced the SP fraction, though bortezomib did so more effectively than VX-680 due to its ability to reduce levels of both phospho-histone H3 (p-hist. H3) and EZH2; VX-680 reduced only p-hist. H3. This is the first report to show that certain oncogenes are specifically expressed in the myeloma SP, and that bortezomib effectively downregulates expression of their products. Our approach may be useful for screening new agents with which to target a cell population possessing strong tumor initiating potential in multiple myeloma.

Renal paradoxical embolism in a hypertensive young adult without acute ischemic symptoms

A 22-year-old woman, who often carried heavy books, was admitted for evaluation of hyperreninemic hypertension. Two months prior to admission, she noted leg edema. Radiological examinations revealed bilateral renal infarction with no other abnormal findings. An echocardiography showed a patent foramen ovale (PFO). Hypertension was considered secondary to renal infarction caused by paradoxical embolism through PFO. Antihypertensive and anticoagulant therapy led to improvement of hypertension. In previously reported cases of renal paradoxical embolism, multiorgan involvement was usually observed. Our case is unique in that embolism was confirmed only in the kidneys, and that clinical characteristics of renal embolism were not observed.

Drug interaction of (S)-warfarin, and not (R)-warfarin, with itraconazole in a hematopoietic stem cell transplant recipient.

BACKGROUND Itraconazole is a potent inhibitor of CYP3A4 and P-glycoprotein, but not CYP2C9. Herein, we report a case study in which the plasma concentration of the CYP2C9 substrate (S)-warfarin, and not the CYP3A4 substrate (R)-warfarin, increased with itraconazole coadministration. CASE A 67-y-old man received an allogenic bone marrow transplant for acute lymphoid leukemia. He was taking oral itraconazole (200mg/day) and was started on a warfarin dose of 2.0mg/day. The plasma concentrations of (S)- and (R)-warfarin 3 days after starting warfarin administration were 216 and 556 ng/mL, respectively (INR 0.98), and after 10 days, the concentrations were 763 and 545 ng/mL, respectively (INR 2.43). On day 11 after withdrawal of itraconazole, the concentrations of (S)- and (R)-warfarin were 341 and 605ng/mL, respectively (INR 1.38). The concentration of (R)-warfarin was not affected by itraconazole; however, the final (S)-warfarin concentration had increased 7.3-fold. The (S)-warfarin/(S)-7-hydroxywarfarin ratio decreased to 2.45 from 8.40 after discontinuation of itraconazole. The permeability of warfarin enantiomers across Caco-2 cells was not influenced by itraconazole and showed no difference between enantiomers. CONCLUSIONS Careful INR monitoring is necessary for warfarin co-administration with itraconazole. Further examination is necessary to elucidate mechanisms of the interaction between warfarin and itraconazole.

Disruption of CCL20-CCR6 interaction inhibits metastasis of advanced cutaneous T-cell lymphoma

We recently demonstrated that upregulation of a chemokine receptor CCR6 and its ligand CCL20 led to metastasis of advanced cutaneous T-cell lymphoma (CTCL) cells, suggesting the involvement of CCL20-CCR6 interaction in initiating CTCL cell metastasis. In this study, we determined whether this interaction is functional in metastatic CTCL cells. We first demonstrated increased STAT3 expression during the progression of primary CTCL. STAT3 was spontaneously activated and mediated the transcription of CCL20 in CTCL cell lines. Next, to determine whether the transient knockdown of STAT3, CCL20, or CCR6 or treatment with neutralizing antibody against CCL20 (neutralizing CCL20 antibody) could reduce the migration ability of CTCL cells, we conducted an in vitro migration assay. All treatments reduced the nutrition-dependent migration activity of CTCL cells. Notably, treatment with neutralizing CCL20 antibody reduced the migration ability of the cells without decreasing the expression of CCL20 and CCR6. This demonstrated that the CCL20-CCR6 interaction is actually functional in metastatic CTCL cells. Finally, to examine the in vivo effect of neutralizing CCL20 antibody, we used NOD/Shi-scid IL-2γnul mice inoculated with CTCL cells. These mice were expected to die due to metastasis of CTCL cells into multiple organs. However, administration of neutralizing CCL20 antibody significantly prolonged the survival of the xenografted mice. These findings suggested that automatic activation of the STAT3/CCL20/CCR6 cascade was involved in CTCL lymphomagenesis and that disruption of CCL20-CCR6 interaction could be a key therapeutic strategy against advanced CTCL.

Effect of oral itraconazole on the pharmacokinetics of tacrolimus in a hematopoietic stem cell transplant recipient with CYP3A5*3/*3.

To the editor: We report on a pediatric and an adult patient suffering from Crohn’s disease (CD), treated with mercaptopurine (6-MP) and anti-TNF-a therapy, who respectively subsequently developed MDS with monosomy-7 and acute myeloid leukemia (AML). Although a link between exposure to 6-MP and anti-TNF-a and malignant lymphomas has been documented [1], the risk of developing leukemia or myelodysplasia (MDS) has not been clearly ascertained. Recent studies have shown that a higher risk of malignancies is found when patients on 6-MP, have an associated deficit of its catabolic enzyme thiopurine methyltransferase (TMPT) [2]. Heterozygousity or absence of TPMT gene is associated with myelosuppression, while anti-TNF-a therapy may favor malignancies possibly increasing the risk of developing MDS/leukemia. Case#1: A 14-years-old male with CD since the age of 8 years (January 2001). Blood count on presentation: Hb 8.8 g/dL, Wcc 21.3 3 10/lL, Platelet 873 3 10/lL. He was commenced on prednisolone (25 mg PO OD). In June 2001 after presenting with new bloody-diarrhea, oral prednisolone was discontinued and 6-MP (50 mg PO OD) was commenced. In April 2003 due to persistent diarrhea weekly anti-TNF-a was started (100 mg IV). In May 2003 he became transfusion-dependent and bone marrow studies showed MDS-erythrodisplasia with monosomy-7. Enzymatic study documented TPMT heterozygousity. In November 2004, a HLA-matched sibling transplant was performed. The patient is currently well 5 years and 8 Months postHSCT; his last chimerism-study showed 100% donor-chimera. Case#2: A 21-year-old girl, suffering from CD since November 2006. She was initially treated with prednisone (1 mg/Kg PO OD), then in July 2007 she was started on mesalazine (1200 mg PO BD) and budesonide (Entocort) (4.5 mg TDS). In September she was commenced on 6-MP (50 mg once a day PO) up until December 2008 when she complained of severe diarrhea. Anti-TNFa was started and continued up to May 2009, when she developed thrombocytopenia and leukocytosis (WBC 15800/ll, Hb 10g/dl, Plts 88000/ll) high fever and laterocervical lymphoadenopaties. A diagnosis of AML M5a was made. She was started on induction chemotherapy with idarubicine 12 mg/m (days 1,3,5), cytarabin (100 mg/m days 1–7), and etoposide (100 mg/m days 1–3), followed by consolidation, with CR. She is currently well, 100% donor-chimera 8 months post allogeneic sibling HSCT. The presence of heterozygosity for TPMT in case#1 is in keeping with previous studies on intermediate or absent TPMT activity and hematopoietic malignancies. Moreover, CD incidence has shown a constant increase over the past 20–30 years in Western Countries, a pattern mirrored by epidemiological studies of childhood-leukemia [3,4]. Therefore, the existence of a common pathogenic-agent involved in CD and MDS/leukemia, cannot be out ruled. Whorwell et al. identified a virus from CD patients causing cytopathic effects in vitro [6] and similar isolates were demonstrated by Rovigatti et al. from childhood leukemia/lymphoma samples [5]. Additional studies are warranted to clarify the role of immunosuppressive drugs in CD progression toward MDS/leukemia and the hypothesis of a common pathogenic agent between these conditions.

Myeloablative and reduced-intensity conditioning in HLA-haploidentical peripheral blood stem cell transplantation using post-transplant cyclophosphamide

We conducted two parallel prospective, multicenter, phase II studies to evaluate the safety and efficacy of HLA-haploidentical peripheral blood stem cell transplantation using post-transplant cyclophosphamide (PTCy-haploPBSCT) following myeloablative conditioning (MAC, n = 50) and reduced-intensity conditioning (RIC, n = 77). Event-free survival (EFS) at 1-year as for primary endpoint was 64% and 43% in the MAC and RIC groups, respectively. Neutrophil engraftment was achieved in 98% and 94% in the MAC and RIC groups, respectively. The incidences of grades II–IV and III–IV acute graft-versus-host disease (GVHD) were 18% and 8% in the MAC group, and 14% and 5% in the RIC group, respectively. Those of all grade and moderate to severe chronic GVHD at 2-year were 36% and 20% in the MAC group, and 27% and 20% in the RIC group, respectively. Overall survival (OS), EFS, nonrelapse mortality, and relapse rate at 2-year were 68%, 54%, 10%, and 36% in the MAC group, and 44%, 35%, 20%, and 45% in the RIC group, respectively. Notably, 83% and 86% of patients who survived without relapse stopped immunosuppressant at 2-year in the MAC and RIC groups, respectively. Our results indicate that both MAC and RIC are valid options for PTCy-haploPBSCT for adults with hematological malignancies.