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RATIONALE: Acute promyelocytic leukemia (APL) is an uncommon subtype of acute myeloid leukemia (AML). M3v phenotype is a less common presentation of APL and these patients usually present with leukocytosis and abnormal promyelocytes that are characterized by sparse granulation and are less likely to have faggot cells with multiple Auer rods. Distinguishing M3v phenotype from acute febrile illness can be challenging as the diagnosis relies on examination of peripheral smear. PATIENT CONCERNS: Fifty-seven-year-old female who presented after recent trip to Dominican Republic for high grade fever and gum bleeding. She was exposed to patients with Dengue fever during her stay. At presentation, patient had leukocytosis, thrombocytopenia, and urinalysis showing bacteria and white cell. She was started on treatment for urinary tract infection. Patient remained febrile and thrombocytopenia worsened. On day 2, flow cytometry of the peripheral smear showed 43% medium sized blasts. Fluorescence in situ hybridization was positive for promyelocytic leukemia/retinoic acid receptor alpha. DIAGNOSES: The patient was diagnosed with APL. INTERVENTIONS: Patient was started on treatment with all-trans retinoic acid and arsenic trioxide along with supportive care OUTCOMES:: Patient had a favorable clinical response and her symptoms subsided. LESSONS: Flow cytometry of the peripheral smear is key to diagnosis of suspected APL. One must maintain high suspicion for this life-threatening condition as early diagnosis saves lives.

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Metabolic pathways play important roles in proliferation and differentiation of malignant cells. 5-Aminoimidazole-4-carboxamide ribonucleoside (AICAr), a precursor in purine biosynthesis and a well-established activator of AMP-activated protein kinase (AMPK), induces widespread metabolic alterations and is commonly used for dissecting the role of metabolism in cancer. We have previously reported that AICAr promotes differentiation and inhibits proliferation of myeloid leukemia cells. Here, using metabolic assays, immunoblotting, flow cytometry analyses, and siRNA-mediated gene silencing in leukemia cell lines, we show that AICAr-mediated differentiation was independent of the known metabolic effects of AMPK, including glucose consumption, but instead depends on the activation of the DNA damage-associated enzyme checkpoint kinase 1 (Chk1) induced by pyrimidine depletion. LC/MS/MS metabolomics analysis revealed that AICAr increases orotate levels and decreases uridine monophosphate (UMP) levels, consistent with inhibition of UMP synthesis at a step downstream of dihydroorotate dehydrogenase (DHODH). AICAr and the DHODH inhibitor brequinar had similar effects on differentiation markers and S-phase arrest, and genetic or pharmacological Chk1 inactivation abrogated both of these effects. Our results delineate an AMPK-independent effect of AICAr on myeloid leukemia differentiation that involves perturbation of pyrimidine biosynthesis and activation of the DNA damage response network.

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Alternative lengthening of telomeres (ALT) is a telomerase-independent telomere maintenance mechanism that occurs in a subset of cancers. One of the hallmarks of ALT cancer is the excessively clustered telomeres in promyelocytic leukemia (PML) bodies, represented as large bright telomere foci. Here, we present a model system that generates telomere clustering in nuclear polySUMO (small ubiquitin-like modification)/polySIM (SUMO-interacting motif) condensates, analogous to PML bodies, and thus artificially engineered ALT-associated PML body (APB)-like condensates in vivo. We observed that the ALT-like phenotypes (i.e., a small fraction of heterogeneous telomere lengths and formation of C circles) are rapidly induced by introducing the APB-like condensates together with BLM through its helicase domain, accompanied by ssDNA generation and RPA accumulation at telomeres. Moreover, these events lead to mitotic DNA synthesis (MiDAS) at telomeres mediated by RAD52 through its highly conserved N-terminal domain. We propose that the clustering of large amounts of telomeres in human cancers promotes ALT that is mediated by MiDAS, analogous to Saccharomyces cerevisiae type II ALT survivors.

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Acute promyelocytic leukemia (APL) is a particularly aggressive subtype of acute myeloid leukemia (AML), with high rates of early death. It is important to examine how epidemiological characteristics, clinical and treatment factors, cytogenetic and genetic data affect survival and differ between APL and non-APL AML patients. We analyzed population data from the New York State Cancer Registry to characterize AML including APL incidence rates by demographics. APL incidence rates were higher among Hispanics than non-Hispanics [incidence rate ratio = 1.22; 95% confidence interval (CI) = 1.02-1.43]; and among foreign-born than USA-born persons. APL incidence rates increased more rapidly through 1995-2014 than non-APL AML; and its frequency increased faster among foreign-born persons. In a hospital cohort of 390 AML patients, the risk of death was significantly higher among APL patients with FLT3-internal tandem duplications than those without [hazard ratio (HR) = 11.74; 95% CI = 1.03-134.5]; and among APL patients with secondary versus de novo disease (HR = 17.32; 95% CI = 1.56-192.1). Among non-APL AML patients, risk of death was significantly associated with prior chemotherapy with antitubulin agents after adjusting for age, gender and ethnicity (adjusted HR = 3.30; 95% CI = 1.49-7.32); and separately with older age, unfavorable cytogenetics and complex karyotype. This study highlights FLT3-internal tandem duplications as a prognostic factor in APL and proposes consideration of prior antitubulin therapy as a prognostic factor in non-APL AML.

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The acute promyelocytic leukemia (APL) is a rare disease. However, if diagnosed early and treated immediately high cure rates can be achieved. Signs of hematopoietic insufficiency such as cytopenias or leucocytosis can be present at first presentation of the patients. Moreover, hemorrhagic diatheses due to coagulpathy are present in approximately 80 % of cases and contribute substatially to the high early death rate in APL patients, which has been reported as high as 30 % in population based studies. In case of initial suspicion of APL treatment with all-trans retinoic acid (ATRA) should be initated immediately to reduce the risk of fatal bleeding events and confirmation or exclusion of the PML-RARA transcript should not be awaited before start of ATRA treatment. While patients with a low or intermediate risk of relapse are treated with a combination of ATRA and arsenic trioxide (ATO), those with high risk of relapse still receive a combination regimen consisting of ATRA, anthracyclines and cytosine-arabinosid. However, treatment strategies are under clinical investigation aiming at reducing the administration of conventional chemotherapy in high risk APL patients. With the current treatment approaches cure rates of approximately 90 % of the patients with low or intermeditae risk APL can be achieved. Nevertheless, particularly the high initial death rate warrants further clinical and pathiobiologic studies to identify targets and means to decrease hemorrhagic complications in patients with APL.

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The concept of differentiation therapy emerged from the fact that hormones or cytokines may promote differentiation ex vivo, thereby irreversibly changing the phenotype of cancer cells. Its hallmark success has been the treatment of acute promyelocytic leukaemia (APL), a condition that is now highly curable by the combination of retinoic acid (RA) and arsenic. Recently, drugs that trigger differentiation in a variety of primary tumour cells have been identified, suggesting that they are clinically useful. This Opinion article analyses the basis for the clinical successes of RA or arsenic in APL by assessing the respective roles of terminal maturation and loss of self-renewal. By reviewing other successful examples of drug-induced tumour cell differentiation, novel approaches to transform differentiating drugs into more efficient therapies are proposed.

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OBJECTIVE: To evaluate the role of microparticle (MP) derived from acute promyelocytic leukemia (APL) cells and tissue factor (TF) carried by the MP in hypercoagulable state, and the effect of treatment with cytotoxic chemotherapy/differentiating agents on procoagulant activity (PCA) of these MP. METHODS: Bone marrow mononuclear cells (BMMNC) were extracted from 5 APL patients and 5 sex- and age- matched patients with iron deficiency anemia as controls. The cells were cultured in vitro for 48 h, then MP-rich culture medium and MP-free culture medium were harvested and MP was further obtained from certain volume of MP-rich culture medium. Subsequently, TF expression on MP was measured by ELISA. PCA of MP-rich culture medium or MP-free culture medium was assessed with thrombin generation assay. The role of TF on MP-related PCA was evaluated using anti-human TF antibody. In addition, APL cells were treated with all-trans retinoic acid (ATRA), arsenic trioxide (ATO) or daunorubicin (DNR) for 48 h, then MP-rich culture medium were harvested and the PCA was determined. RESULTS: No TF expression was found in the MP released from bone marrow MNC in control group, whereas the obvious TF expression was found in the MP originated from BMMNC of APL. MP from both APL and control BM-MNC had obvious PCA. However, compared with the MP derived from control MNC, the MP from APL BM-MNC induced significantly higher PCA. TF played a crucial role in the PCA of APL BM-MNC derived MP, while played no role in that of MP from control MNCs. DNR-treating APL BM-MNC resulted in an increase in the PCA of MP, whereas ATO or ATRA exposure lead to exactly the opposite results. CONCLUSION: MP derived from APL BM-MNC posseses obvious PCA. TF plays a crucial role in the MP-related PCA. The PCA of MP increases after treating APL BM-MNC with chemotherapy agent DNR and decreases following exposure of APL BM-MNC to differentiating agents ATRA or ATO.

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Although most cancer drugs target the proliferation of cancer cells, it is metastasis, the complex process by which cancer cells spread from the primary tumor to other tissues and organs of the body where they form new tumors, that leads to over 90% of all cancer deaths. Thus, there is an urgent need for anti-metastasis therapy. Surprisingly, emerging evidence suggests that certain anti-cancer drugs such as paclitaxel and doxorubicin can actually promote metastasis, but the mechanism(s) behind their pro-metastatic effects are still unclear. Here, we use a microfluidic microcirculation mimetic (MMM) platform which mimics the capillary constrictions of the pulmonary and peripheral microcirculation, to determine if in-vivo-like mechanical stimuli can evoke different responses from cells subjected to various cancer drugs. In particular, we show that leukemic cancer cells treated with doxorubicin and daunorubicin, commonly used anti-cancer drugs, have over 100% longer transit times through the device, compared to untreated leukemic cells. Such delays in the microcirculation are known to promote extravasation of cells, a key step in the metastatic cascade. Furthermore, we report a significant (p < 0.01) increase in the chemotactic migration of the doxorubicin treated leukemic cells. Both enhanced retention in the microcirculation and enhanced migration following chemotherapy, are pro-metastatic effects which can serve as new targets for anti-metastatic drugs.

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BACKGROUND: Acute promyelocytic leukemia (APL), once the most lethal form of adult acute leukemia, has become the most curable. The goal of early and well-managed treatment induction is to reduce the malignant burden of promyelocytes to below the cytologically detectable level. OBJECTIVES: Oncology nurses who care for patients with APL need to be acutely aware of the basic differences in this disease from other forms of leukemia, including the two main complications for the newly diagnosed patient. METHODS: This article will briefly review APL and its associated presenting symptoms, prognosis, treatment, and complications. FINDINGS: These complications require immediate activation of expert staff and resources to protect critically ill patients with APL from associated morbidity and mortality.

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Cell proliferation and differentiation are highly coordinated processes. These two processes are disrupted during leukemogenesis, resulting in differentiation block and uncontrolled proliferation in leukemia. To understand the mechanisms disrupting the coordination between the two processes in acute promyelocytic leukemia (APL), we investigated the regulatory mechanism of the negative cell cycle regulator CDKN2D by the promyelocytic leukemia/retinoic acid receptor α (PML/RARα) fusion protein and the role of CDKN2D in cell differentiation and proliferation. We found that CDKN2D expression in APL cells was significantly lower than that in normal promyelocytes. By chromatin immunoprecipitation and luciferase reporter assays, we showed that PML/RARα directly bound to and inhibited the transactivation of the CDKN2D promoter. Further evidence by the truncated and mutated CDKN2D promoters revealed that the everted repeat 8 (ER8) motif on the promoter was the binding site of PML/RARα. Forced expression of CDKN2D induced G0/G1 phase arrest and partial granulocytic differentiation in APL-derived NB4 cells, suggesting the function of CDKN2D in regulating both cell proliferation and granulocytic differentiation. Furthermore, all-trans retinoic acid (ATRA) significantly induced CDKN2D expression in APL cells and knockdown of CDKN2D expression during ATRA treatment partially blocked the ATRA-induced differentiation and cell cycle arrest. Collectively, our data indicate that CDKN2D repression by PML/RARα disrupts both cell proliferation and differentiation in the pathogenesis of APL, and induced expression of CDKN2D by ATRA alleviates the disruption of both processes to ensure treatment efficiency. This study provides a mechanism for coupling proliferation and differentiation in leukemic cells through the action of CDKN2D.

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In most acute promyelocytic leukemia (APL) cases, translocons produce a promyelocytic leukemia protein-retinoic acid receptor α (PML-RARα) fusion gene. Although expression of the human PML fusion in mice promotes leukemia, its efficiency is rather low. Unexpectedly, we find that simply replacing the human PML fusion with its mouse counterpart results in a murine PML-RARα (mPR) hybrid protein that is transformed into a significantly more leukemogenic oncoprotein. Using this more potent isoform, we show that mPR promotes immortalization by preventing cellular senescence, impeding up-regulation of both the p21 and p19(ARF) cell-cycle regulators. This induction coincides with a loss of the cancer-associated ATRX/Daxx-histone H3.3 predisposition complex and suggests inhibition of senescence as a targetable mechanism in APL therapy.

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Members of the WD-repeat protein interacting with phosphoinositides (WIPI) family are phosphatidylinositol 3-phosphate (PI3P) effectors that are essential for the formation of autophagosomes. Autophagosomes, unique double-membraned organelles, are characteristic for autophagy, a bulk degradation mechanism with cytoprotective and homeostatic function. Both, WIPI-1 and WIPI-2 are aberrantly expressed in several solid tumors, linking these genes to carcinogenesis. We now found that the expression of WIPI-1 was significantly reduced in a large cohort of 98 primary acute myeloid leukemia (AML) patient samples (complex karyotypes; t(8;21); t(15,17); inv(16)). In contrast, the expression of WIPI-2 was only reduced in acute promyelocytic leukemia (APL), a distinct subtype of AML (t(15,17)). As AML cells are blocked in their differentiation, we tested if the expression levels of WIPI-1 and WIPI-2 increase during all-trans retinoic acid (ATRA)-induced neutrophil differentiation of APL. According to the higher WIPI-1 expression in granulocytes compared with immature blast cells, WIPI-1 but not WIPI-2 expression was significantly induced during neutrophil differentiation of NB4 APL cells. Interestingly, the induction of WIPI-1 expression was dependent on the transcription factor PU.1, a master regulator of myelopoiesis, supporting our notion that WIPI-1 expression is reduced in AML patients lacking proper PU-1 activity. Further, knocking down WIPI-1 in NB4 cells markedly attenuated the autophagic flux and significantly reduced neutrophil differentiation. This result was also achieved by knocking down WIPI-2, suggesting that both WIPI-1 and WIPI-2 are functionally required and not redundant in mediating the PI3P signal at the onset of autophagy in NB4 cells. In line with these data, downregulation of PI3KC3 (hVPS34), which generates PI3P upstream of WIPIs, also inhibited neutrophil differentiation. In conclusion, we demonstrate that both WIPI-1 and WIPI-2 are required for the PI3P-dependent autophagic activity during neutrophil differentiation, and that PU.1-dependent WIPI-1 expression is significantly repressed in primary AML patient samples and that the induction of autophagic flux is associated with neutrophil differentiation of APL cells.

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The PU.1 transcription factor is essential for myeloid development. We investigated if the microtubule-associated protein 1S (MAP1S) is a novel PU.1 target with a link to autophagy, a cellular recycling pathway. Comparable to PU.1, MAP1S expression was significantly repressed in primary AML blasts as compared to mature neutrophils. Accordingly, MAP1S expression was induced during neutrophil differentiation of CD34(+) progenitor and APL cells. Moreover, PU.1 bound to the MAP1S promoter and induced MAP1S expression during APL differentiation. Inhibiting MAP1S resulted in aberrant neutrophil differentiation and autophagy. Taken together, our findings implicate the PU.1-regulated MAP1S gene in neutrophil differentiation and autophagy control.

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Acute promyelocytic leukemia (APL) is epitomized by the chromosomal translocation t(15;17) and the resulting oncogenic fusion protein PML-RARα. Although acting primarily as a transcriptional repressor, PML-RARα can also exert functions of transcriptional co-activation. Here, we find that PML-RARα stimulates transcription driven by HIF factors, which are critical regulators of adaptive responses to hypoxia and stem cell maintenance. Consistently, HIF-related gene signatures are upregulated in leukemic promyelocytes from APL patients compared to normal promyelocytes. Through in vitro and in vivo studies, we find that PML-RARα exploits a number of HIF-1α-regulated pro-leukemogenic functions that include cell migration, bone marrow (BM) neo-angiogenesis and self-renewal of APL blasts. Furthermore, HIF-1α levels increase upon treatment of APL cells with all-trans retinoic acid (ATRA). As a consequence, inhibiting HIF-1α in APL mouse models delays leukemia progression and exquisitely synergizes with ATRA to eliminate leukemia-initiating cells (LICs).

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OBJECTIVES: For patients with acute promyelocytic leukaemia (APL), negative reading of a promyelocytic leukaemia/retinoic acid receptor-alpha (PML-RARα) transcript after induction therapy correlates with a good prognosis. However, in the majority of patients given all-trans retinoic acid (ATRA)/anthracycline-based induction therapy, PML-RARα transcript remains even when haematologic complete remission is achieved. To facilitate maximal therapeutic efficacy for patients with APL, this study tested whether the addition of arsenic trioxide (ATO) would increase the rate of molecular complete remission after ATRA/anthracycline-based induction therapy. METHODS: Seventy-three patients with APL were induced with a regimen (designated 'AAA') consisting of ATO in combination with ATRA and daunorubicin. After this, a consolidation phase of daunorubicin-based chemotherapy and maintenance therapy with ATRA, ATO and methotrexate was administered. The noted outcomes were rates of complete remission, overall survival and disease-free survival. In addition, PML-RARα transcripts were monitored in 48 patients via RT-PCR. RESULTS: Rates of complete remission, overall survival and 5-yr disease-free survival were 95.89%, 94.52% and 96.28%, respectively. At the preconsolidation checkpoint, 68.75% (33/48) of patients had a negative reading for the PML-RARα fusion transcript. These outcomes were not influenced by mutations in FLT3 (fms-related tyrosine kinase 3) or other prognostic factors. CONCLUSIONS: The addition of ATO in the induction regimen was associated with an improved overall outcome for patients with de novo APL, with rather low relapse rate and better long-term survival.

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Zanthoxylum schinifolium is an aromatic shrub, and its pericarp and leaves are widely used in culinary applications in East Asian countries. It has also long been used in traditional Oriental medicine for treating the common cold, stomach ache, diarrhea, and jaundice. In this study, we identified two new compounds, zanthoxyloside (1) and schinifolisatin A (13), along with 23 known coumarins (2-12) and lignans (14-25), from a methanol extract of the stems of Z. schinifolium . The chemical structures of the compounds were determined by mass, 1D-, and 2D NMR spectroscopy. The anticancer effects of the isolated compounds were examined in three human cancer cell lines. Compounds 10-12 significantly reduced the proliferation of HL-60 human acute promyelocytic leukemia cells with IC50 values of 4.62-5.12 µM. Treatment of PC-3 prostate cancer cells and SNU-C5 colorectal cancer cells with compound 10 resulted in potent antiproliferative activity, with IC50 values of 4.39 and 6.26 µM, respectively. Also, compounds 10-12 induced the apoptosis of three cancer cells. Furthermore, the induction of apoptosis was accompanied by down-regulation of p-ERK1/2 MAPK, p-AKT, and c-myc levels, in a time-dependent manner. These data suggested that compounds 10-12 from Z. schinifolium have potential in cancer treatment.

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