Acute Promyelocytic Leukemia, Retinoic Acid, and Arsenic: A Tale of Dualities.

Acute promyelocytic leukemia (APL) is driven by the promyelocytic leukemia (PML)/retinoic acid receptor α (RARA) fusion oncoprotein. Over the years, it has emerged as a model system to understand how this simple (and sometimes sole) genetic alteration can transform hematopoietic progenitors through the acquisition of dominant-negative properties toward both transcriptional control by nuclear receptors and PML-mediated senescence. The fortuitous identification of two drugs, arsenic trioxide (ATO) and all-trans-retinoic acid (ATRA), that respectively bind PML and RARA to initiate PML/RARA degradation, has allowed an unprecedented dissection of the cellular and molecular mechanisms involved in patients' cure by the ATO/ATRA combination. This analysis has unraveled the dual and complementary roles of RARA and PML in both APL initiation and cure by the ATRA/ATO combination. We discuss how some of the features unraveled by APL studies may be more broadly applicable to some other forms of leukemia. In particular, the functional synergy between drugs that promote differentiation and those that initiate apoptosis/senescence to impede self-renewal could pave the way to novel curative combinations.

Integrated bioinformatics analysis and network pharmacology to explore the potential mechanism of Patrinia heterophylla Bunge against acute promyelocytic leukemia.

INTRODUCTION: Current treatment with arsenic trioxide and all-trans retinoic acid has greatly improved the therapeutic efficacy and prognosis of acute promyelocytic leukemia (APL), but may cause numerous adverse effects. Patrinia heterophylla Bunge (PHEB), commonly known as "Mu-Tou-Hui" in China, is effective in treating leukemia. However, no studies have reported the use of PHEB for APL treatment. In this study, we aimed to investigate the potential anticancer mechanism of PHEB against APL. METHODS: Public databases were used to search for bioactive compounds in PHEB, their potential targets, differentially expressed genes associated with APL, and therapeutic targets for APL. The core targets and signaling pathways of PHEB against APL were identified by the protein-protein interaction network, Kaplan-Meier curves, Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes pathway enrichment, and compound-target-pathway network analysis. Molecular docking was performed to predict the binding activity between the most active compounds and the key targets. RESULTS: Quercetin and 2 other active components of PHEB may exert anti-APL effects through proteoglycans in cancer, estrogen signaling, and acute myeloid leukemia pathways. We also identified 6 core targets of the bioactive compounds of PHEB, including protein tyrosine phosphatase receptor type C, proto-oncogene tyrosine-protein kinase Src, mitogen-activated protein kinase phosphatase 3 (MAPK3), matrix metalloproteinase-9, vascular endothelial growth factor receptor-2, and myeloperoxidase, most of which were validated to improve the 5-year survival of patients. Molecular docking results showed that the active compound bound well to key targets. CONCLUSION: The results not only predict the active ingredients and potential molecular mechanisms of PHEB against APL, but also help to guide further investigation into the anti-APL application of PHEB.

Transformation from acute promyelocytic leukemia to acute myeloid leukemia with a CEBPA double mutation: A case report and review of the literature.

INTRODUCTION: The transformation of acute promyelocytic leukemia (APL) to acute mononuclear leukemia during treatment is a rare clinical phenomenon, and no CCAAT/enhancer-binding protein alpha (CEBPA) double mutations have been reported. PATIENT CONCERNS: A 42-year-old male was hospitalized for ecchymosis of the left lower limb for more than 1 month, gingival bleeding, and fatigue for 10 days, with aggravation of symptoms for 2 days. DIAGNOSIS: A diagnosis of APL was based on bone marrow (BM) morphology, immunophenotyping, fusion gene analysis, and fluorescence in situ hybridization. At a 1-year follow-up of maintenance treatment, he developed thrombocytopenia and was diagnosed with acute myeloid leukemia (AML) with a CEBPA double mutation by BM morphology, immunotyping, chromosomal analysis, polymerase chain reaction, and next generation sequencing. INTERVENTIONS: Complete remission of APL was achieved after all-trans retinoic acid and arsenic trioxide double induction therapy, followed by 2 cycles of mitoxantrone and cytarabine, and 1 cycle of idarubicin and cytarabine. Thereafter, sequential maintenance therapy of arsenic trioxide + all-trans retinoic acid + methotrexate was started. In the fourth cycle of maintenance therapy, APL was transformed into AML with a CEBPA double mutation. After 1 cycle of idarubicin and cytarabine, the patient achieved complete remission and received 3 cycles of idarubicin and cytarabine and three cycles of high-dose cytarabine as consolidation therapy. OUTCOMES: At present, the patient is in continuous remission with minimal residual disease negative for both of APL and AML. CONCLUSION: AML with a CEBPA double mutation after APL treatment is very rare, thus the prognosis of this event will require further observation.

[Refractory acute promyelocytic leukemia with a complex karyotype].

A 46-year-old woman was diagnosed with acute promyelocytic leukemia (APL). The patient was given remission induction therapy with all-trans retinoic acid, and complete remission was achieved. Despite consolidation therapies with arsenic trioxide, daunorubicin and cytosine arabinoside (AraC), and gemtuzumab ozogamicin as well as maintenance therapy with tamibarotene, the patient experienced a relapse 6 months after the start of maintenance therapy. She was then given re-induction therapy with idarubicin+AraC and high-dose AraC, but remission was not achieved. Since the coordination of the unrelated donor had been completed at this time, she then underwent bone marrow transplantation with pre-conditioning of 4 Gy total body irradiation, fludarabine, and busulfan. However, on the 12th day after the transplantation, APL cells appeared in the peripheral blood and the disease progressed rapidly leading to the patient's death on the 15th day after the transplantation. APL usually has a good prognosis, and relapsed cases are often cured by autologous stem cell transplantation. However, this case was highly refractory to treatment and the patient deteriorated rapidly after the transplantation, suggesting a different pathogenesis from the usual from of APL.

Sharing and Helping: Regularity and Characteristics of Pathogenesis of a Widely Used Transgene Initiated Murine Acute Promyelocytic Leukemia Model.

A transgenic acute promyelocytic leukemia (APL) murine model established by Michael Bishop by cloning a human PML-RARα cDNA into the hMRP8 expression cassette has been widely used in the all-trans retinoid acid and arsenic preparations for the research of APL. However, in the existing literature, the data of regularity and characteristics of the pathogenesis of this model were still missing, which hinder the development of many studies, especially application of new technologies such as single-cell sequencing. Therefore, in this article, we have made up this part of the missing data using an improved APL murine model. We clarified the effects of different inoculation doses on the onset time, latency, morbidity, life span, and proportion of APL cells in peripheral blood (PB), spleen, bone marrow, and so on. The relationship between the proportion of APL cells in the bone marrow, spleen, and PB and organ histological changes was also revealed. These results were a supplement and refinement of this APL model. It would add to the knowledge base of the field and aid in ensuring that accurate models are used for directed interventions. It also provides a great convenience for the researchers who will carry out similar research.

The epigenetic treatment remodel genome-wide histone H4 hyper-acetylation patterns and affect signaling pathways in acute promyelocytic leukemia cells.

Although majority of acute promyelocytic leukemia (APL) patients achieve complete remission after the standard treatment, 5-10% of patients are shown to relapse or develop resistance to treatment. In such cases, medications that target epigenetic processes could become an appealing supplementary approach. In this study, we tested the anti-leukemic activity of histone deacetylase inhibitor Belinostat (PXD101) and histone methyltransferase inhibitor 3-Deazaneplanocin A combined with all-trans retinoic acid in APL cells NB4, promyelocytes resembling HL-60 cells and APL patients' cells. After HL-60 and NB4 cell treatment, ChIP-sequencing was performed using antibodies against hyper-acetylated histone H4. Hyper-acetylated histone H4 distribution peaks were compared in treated vs untreated HL-60 and NB4 cells. Results demonstrated that in treated HL-60 cells, the majority of peaks were distributed within the regions of proximal promoters, whereas in treated NB4 cells, hyper-acetylated histone H4 peaks were mainly localized in gene body regions. Further ChIP-seq data analysis revealed the changes in histone H4 hyper-acetylation in promoter/gene body regions of genes involved in cancer signaling pathways. In addition, quantitative gene expression analysis proved changes in various cellular pathways important for carcinogenesis. Epigenetic treatment down-regulated the expression of MTOR, LAMTOR1, WNT2B, VEGFR3, FGF2, FGFR1, TGFA, TGFB1, TGFBR1, PDGFA, PDGFRA and PDGFRB genes in NB4, HL-60 and APL patients' cells. In addition, effect of epigenetic treatment on protein expression of aforementioned signaling pathways was confirmed with mass spectrometry analysis. Taken together, these results provide supplementary insights into molecular changes that occur during epigenetic therapy application in in vitro promyelocytic leukemia cell model.

Gemtuzumab ozogamicin in acute myeloid leukemia: past, present and future.

After being in the therapeutic wilderness for several decades, acute myeloid leukemia has been recently thrust into the limelight with a series of drug approvals. Technical refinements in production, genetic manipulation and chemical modification of monoclonal antibodies led to growing interest in antibodies-based treatment strategies. Much of the focus of these efforts in acute myeloid leukemia has been on CD33 as a target. On September 2, 2017, the U.S. Food and Drug Administration approved gemtuzumab ozogamicin for treatment of relapsed or refractory CD33+ acute myeloid leukemia. This signals a new chapter in the long and unusual story of gemtuzumab ozogamicin, which was the first antibody-drug conjugate approved for human use by the Food and Drug Administration. In this review we have analyzed the history of this drug which, among several mishaps, is experiencing a second youth and still represents a field to be further explored.

Complex context relationships between DNA methylation and accessibility, histone marks, and hTERT gene expression in acute promyelocytic leukemia cells: perspectives for all-trans retinoic acid in cancer therapy.

Telomerase (hTERT) reactivation and sustained expression is a key event in the process of cellular transformation. Therefore, the identification of the mechanisms regulating hTERT expression is of great interest for the development of new anticancer therapies. Although the epigenetic state of hTERT gene promoter is important, we still lack a clear understanding of the mechanisms by which epigenetic changes affect hTERT expression. Retinoids are well-known inducers of granulocytic maturation in acute promyelocytic leukemia (APL). We have previously shown that retinoids repressed hTERT expression in the absence of maturation leading to growth arrest and cell death. Exploring the mechanisms of this repression, we showed that transcription factor binding was dependent on the epigenetic status of hTERT promoter. In the present study, we used APL cells lines and publicly available datasets from APL patients to further investigate the integrated epigenetic events that promote hTERT promoter transition from its silent to its active state, and inversely. We showed, in APL patients, that the methylation of the distal domain of hTERT core promoter was altered and correlated with the outcome of the disease. Further studies combining complementary approaches carried out on APL cell lines highlighted the significance of a domain outside the minimal promoter, localized around 5 kb upstream from the transcription start site, in activating hTERT. This domain is characterized by DNA hypomethylation and H3K4Me3 deposition. Our findings suggest a cooperative interplay between hTERT promoter methylation, chromatin accessibility, and histone modifications that force the revisiting of previously proposed concepts regarding hTERT epigenetic regulation. They represent, therefore, a major advance in predicting sensitivity to retinoid-induced hTERT repression and, more generally, in the potential development of therapies targeting hTERT expression in cancers.

2'-Fluoro ribonucleic acid modified DNA dual-probe sensing strategy for enzyme-amplified electrochemical detection of double-strand DNA of PML/RARα related fusion gene.

In the study, a novel sensing strategy based on dual-probe mode, which involved two groups of 2'-fluoro ribonucleic acid (2'-F RNA) modified probes, was designed for the detection of synthetic target double-strand DNA (dsDNA) of PML/RARα fusion genes in APL. And each pair of probes contained a thiolated capture probe (C1 or C2) immobilized on one of electrode surfaces in the dual-channel electrochemical biosensor and a biotinylated reporter probe (R1 or R2). The two groups of 2'-F RNA modified probes were separately complementary with the corresponding strand (Sa or Sb) from target dsDNA in order to prevent renaturation of target dsDNA. Through flanking target dsDNA, two "sandwitch" complexes (C1/Sa/R1 and C2/Sb/R2) were separately shaped by capture probes (C1 and C2) and free reporter probes (R1 and R2) in hybridization solution on the surfaces of different electrodes after the thermal denaturation. The biotin-modified enzyme which produced the measurable electrochemical current signal was localized to the surface by affinity binding between biotin with streptavidin. Under the optimal condition, the biosensor was able to detect 84 fM target dsDNA and showed a good specificity in PBS hybridization solution. Otherwise, the investigations of the specificity and sensitivity of the biosensor were carried out further in the mixed hybridization solution containing different kinds of mismatch sequences as interference background. It can be seen that under a certain interference background, the method still exhibited excellent selectivity and specificity for the discrimination between the fully-complementary and the mismatch sequences. The results of our research laid a good basis of further detection research in practical samples.

Green tea polyphenol EGCG causes anti-cancerous epigenetic modulations in acute promyelocytic leukemia cells.

Green tea (Camellia sinensis) catechin epigallocatechin-3-gallate (EGCG) has been shown to possess diverse anti-cancerous properties. We demonstrated EGCG ability to inhibit acute promyelocytic leukemia (APL) cell proliferation and cause apoptosis. In addition, quantitative real-time polymerase chain reaction (RT-qPCR) analysis revealed elevated expression of genes associated with cell cycle arrest and differentiation (p27, PCAF, C/EBPα, and C/EBPɛ). Furthermore, EGCG caused anti-cancerous epigenetic changes: downregulation of epigenetic modifiers DNMT1, HDAC1, HDAC2, and G9a was observed by RT-qPCR analysis. Reduced amount of H3K9me2 after treatment with EGCG confirmed G9a downregulation. Polycomb repressive complex 2 (PRC2) core components were also shown to be downregulated in gene and protein level. Chromatin immunoprecipitation (ChIP) analysis revealed that EGCG treatment enhanced hyperacetylated H4 and acetylated H3K14 histones binding to the promoter regions of p27, PCAF, C/EBPα, and C/EBPɛ and reduced binding effect to PRC2 core component genes EZH2, SUZ12, and EED. Our results indicate that EGCG, as cell proliferation inhibitor and epigenetic modifier, might be useful for APL treatment.

Tianshengyuan-1 (TSY-1) regulates cellular Telomerase activity by methylation of TERT promoter.

Telomere and Telomerase have recently been explored as anti-aging and anti-cancer drug targets with only limited success. Previously we showed that the Chinese herbal medicine Tianshengyuan-1 (TSY-1), an agent used to treat bone marrow deficiency, has a profound effect on stimulating Telomerase activity in hematopoietic cells. Here, the mechanism of TSY-1 on cellular Telomerase activity was further investigated using HL60, a promyelocytic leukemia cell line, normal peripheral blood mononuclear cells, and CD34+ hematopoietic stem cells derived from umbilical cord blood. TSY-1 increases Telomerase activity in normal peripheral blood mononuclear cells and CD34+ hematopoietic stem cells with innately low Telomerase activity but decreases Telomerase activity in HL60 cells with high intrinsic Telomerase activity, both in a dose-response manner. Gene profiling analysis identified Telomerase reverse transcriptase (TERT) as the potential target gene associated with the TSY-1 effect, which was verified by both RT-PCR and western blot analysis. The ß-galactosidase reporter staining assay showed that the effect of TSY-1 on Telomerase activity correlates with cell senescence. TSY-1 induced hypomethylation within TERT core promoter in HL60 cells but induced hypermethylation within TERT core promoter in normal peripheral blood mononuclear cells and CD34+ hematopoietic stem cells. TSY-1 appears to affect the Telomerase activity in different cell lines differently and the effect is associated with TERT expression, possibly via the methylation of TERT promoter.

[Pathogenesis of Acute Promyelocytic Leukemia].

Acute promyelocytic leukemia (APL) is one of the well-characterized subtypes of acute myeloid leukemia (AML). The essential drugs used in the treatment strategy for APL include all-trans retinoic acid (ATRA) and arsenic trioxide (ATO), which are both pioneer molecular-targeting agents. They were initially administered to patients based on the therapeutic experience of traditional Chinese medicine, and their marked effectiveness has been demonstrated. Subsequently, the molecular mechanisms of these drugs, as well as the molecular pathogenesis of APL, have been elucidated, whereby the chimeric gene product PML-RARα induces epigenetic changes and transcription repression. This review summarizes the findings of previous studies related to the in vitro and in vivo function of PML-RARα and the effects of ATRA and ATO on PML-RARα and APL cells. These findings are very important, because the concept of epigenetic modulation in oncogenesis and their application as molecular targets in APL therapy have now been accepted in other types of leukemia, as well as for other malignancies.

DNA-mediated adjuvant immunotherapy extends survival in two different mouse models of myeloid malignancies.

We have previously shown that a specific promyelocytic leukemia-retinoic acid receptor alpha (PML-RARA) DNA vaccine combined with all-trans retinoic acid (ATRA) increases the number of long term survivors with enhanced immune responses in a mouse model of acute promyelocytic leukemia (APL). This study reports the efficacy of a non-specific DNA vaccine, pVAX14Flipper (pVAX14), in both APL and high risk myelodysplastic syndrome (HR-MDS) models. PVAX14 is comprised of novel immunogenic DNA sequences inserted into the pVAX1 therapeutic plasmid. APL mice treated with pVAX14 combined with ATRA had increased survival comparable to that obtained with a specific PML-RARA vaccine. Moreover, the survival advantage correlated with decreased PML-RARA transcript levels and increase in anti-RARA antibody production. In HR-MDS mice, pVAX14 significantly improved survival and reduced biomarkers of leukemic transformation such as phosphorylated mitogen-activated protein/extracellular signal-regulated kinase kinase (MEK) 1. In both preclinical models, pVAX14 vaccine significantly increased interferon gamma (IFNγ) production, memory T-cells (memT), reduced the number of colony forming units (CFU) and increased expression of the adapter molecule signalling to NF-κB, MyD88. These results demonstrate the adjuvant properties of pVAX14 providing thus new approaches to improve clinical outcome in two different models of myeloid malignancies, which may have potential for a broader applicability in other cancers.

Los medicamentos homeopáticos y la expresión genética: sus repercusiones en el concepto de fuerza vital / Homeopathic medicines and Gene expression: its impact on life force concept

Dos de los obstáculos que han impedido la difusión e incorporación de la Homeopatía en los planos nacional e internacional, son comprender la estructura de las ultradiluciones así como entender y explicar cuál es, o cuáles son, los mecanismos de acción de dichas ultradiluciones para efectuar respuestas biológicas en organismos o cultivos celulares que llamamos respuestas curativas. El objetivo del presente trabajo es mostrar brevemente la información y los artículos científicos que permiten explicar y sustentar uno de los varios mecanismos de acción de los medicamentos homeopáticos en ultradiluciones, como es la modulación de la expresión genética.

Two of the obstacles that have prevented the dissemination and incorporation of Homeopathy at national and international levels , they are to understand the structure of the ultradiluciones and understand and explain what is , or what are the mechanisms ultradiluciones action to effect such biological responses in organisms or cell cultures we call healing responses . The objective ofthis paper is to briefly display the information and scientific articlesthat explain and support one of several mechanisms of action ultradiluciones homeopathic medicines , as is the modulation of expression gene .

Los medicamentos homeopáticos y la expresión genética. Sus repercusiones en el concepto de fuerza vital / Homeopathic medicines and Gene expression. Its impact on life force concept

Dos de los obstáculos que han impedido la difusión e incorporación de la Homeopatía en los planos nacional e internacional, son comprender la estructura de las ultradiluciones así como entender y explicar cuál es, o cuáles son, los mecanismos de acción de dichas ultradiluciones para efectuar respuestas biológicas en organismos o cultivos celulares que llamamos respuestas curativas. El objetivo del presente trabajo es mostrar brevemente la información y los artículos científicos que permiten explicar y sustentar uno de los varios mecanismos de acción de los medicamentos homeopáticos en ultradiluciones, como es la modulación de la expresión genética. (AU)

Two of the obstacles that have prevented the dissemination and incorporation of Homeopathy at national and international levels , they are to understand the structure of the ultradiluciones and understand and explain what is , or what are the mechanisms ultradiluciones action to effect such biological responses in organisms or cell cultures we call healing responses . The objective ofthis paper is to briefly display the information and scientific articlesthat explain and support one of several mechanisms of action ultradiluciones homeopathic medicines , as is the modulation of expression gene . (AU)

Synthetic phosphoethanolamine has in vitro and in vivo anti-leukemia effects.

BACKGROUND: We recently showed that synthetic phosphoethanolamine reduces tumour growth and inhibits lung metastasis in vivo. Here, we investigated its anti-leukaemia effects using acute promyelocytic leukaemia (APL) as a model. METHODS: Cytotoxic effects of Pho-s on leukaemia cells were evaluated by MTT assay. Leukaemic cells obtained from hCG-PML-RARa transgenic mice were transplanted to NOD/SCID mice. After the animals were diagnosed as leukaemic, treatment started with Pho-s using all-trans retinoid acid or daunorubicin as positive control or and saline control. Cell morphology and immunophenotyping were used to detect the undifferentiated blast cells in the spleen, liver and bone marrow. The induction of apoptosis in vitro and in malignant leukaemic clones was evaluated. RESULTS: Synthetic phosphoethanolamine is cytotoxic and induces apoptosis through the mitochondrial pathway in vitro to leukaemia cell lines. In vivo Pho-s exhibits anti-proliferative effects in APL model reducing the number of CD117(+) and Gr-1(+) immature myeloid cells in the BM, spleen and liver. Synthetic phosphoethanolamine impairs the expansion of malignant clones CD34(+)/CD117(+), CD34(+) and Gr-1(+) in the BM. In addition, Pho-s induces apoptosis of immature cells in the spleen and liver, a notable effect. CONCLUSION: Synthetic phosphoethanolamine has anti-leukaemic effects in an APL model by inhibiting malignant clone expansion, suggesting that it is an interesting compound for leukaemia treatment.

Detection of significantly differentially methylated regions in targeted bisulfite sequencing data.

MOTIVATION: Bisulfite sequencing is currently the gold standard to obtain genome-wide DNA methylation profiles in eukaryotes. In contrast to the rapid development of appropriate pre-processing and alignment software, methods for analyzing the resulting methylation profiles are relatively limited so far. For instance, an appropriate pipeline to detect DNA methylation differences between cancer and control samples is still required. RESULTS: We propose an algorithm that detects significantly differentially methylated regions in data obtained by targeted bisulfite sequencing approaches, such as reduced representation bisulfite sequencing. In a first step, this approach tests all target regions for methylation differences by taking spatial dependence into account. A false discovery rate procedure controls the expected proportion of incorrectly rejected regions. In a second step, the significant target regions are trimmed to the actually differentially methylated regions. This hierarchical procedure detects differentially methylated regions with increased power compared with existing methods. AVAILABILITY: R/Bioconductor package BiSeq. SUPPLEMENTARY INFORMATION: Supplementary Data are available at Bioinformatics online.

Phase 2 study of arsenic trioxide followed by autologous hematopoietic cell transplantation for relapsed acute promyelocytic leukemia.

The optimal treatments for relapsed acute promyelocytic leukemia (APL) remain equivocal. We conducted a phase 2 study to evaluate the efficacy and feasibility of a sequential treatment consisting of induction and consolidation with arsenic trioxide (ATO), peripheral blood stem cell (PBSC) harvest after high-dose cytarabine chemotherapy, and autologous hematopoietic cell transplantation (HCT). Between 2005 and 2009, 35 patients (26 with hematologic and 9 with molecular relapse) were enrolled. Induction therapy resulted in complete remission in 81% of those with hematologic relapse, and most patients became negative for PML-RARα after the first ATO consolidation course, but 4 remained positive. Administration of the second ATO consolidation course further decreased the transcript levels in 3 patients. In total, 25 patients proceeded to PBSC harvest, all of whom successfully achieved the target CD34+ cell doses, and 23 underwent autologous HCT with PML-RARα-negative PBSC graft. Posttransplant relapse occurred in 3 patients, and there was no transplant-related mortality. With a median follow-up of 4.9 years, the 5-year event-free and overall survival rates were 65% and 77%, respectively. These findings demonstrate the outstanding efficacy and feasibility of the sequential treatment featuring ATO and autologous HCT for relapsed APL. This study was registered at http://www.umin.ac.jp/ctr/ as #C000000302.

Modified array-based comparative genomic hybridization detects cryptic and variant PML-RARA rearrangements in acute promyelocytic leukemia lacking classic translocations.

Acute promyelocytic leukemia (APL) is typically defined at the molecular level by a reciprocal translocation of the promyelocytic leukemia (PML) and retinoic acid receptor α (RARA) genes. An accurate diagnosis of APL is critical for appropriate choice of therapy and prognostic assessment. Cryptic and variant rearrangements in APL are discoverable by a variety of molecular methods including fluorescence in situ hybridization (FISH), reverse transcriptase polymerase chain reaction, or gene sequencing. Rare reports of FISH-negative APL harboring cryptic rearrangements of PML-RARA detected by reverse transcriptase polymerase chain reaction or sequencing have been described. Here, we describe the detection of cryptic or variant PML-RARA rearrangements by translocation-based comparative genomic hybridization (tCGH), a recently described modification of traditional CGH technology that facilitates the detection of balanced translocations by means of the linear amplification of a potential translocation breakpoint region(s), in 2 unusual cases of APL. One tumor lacked detectable t(15;17) by karyotype and FISH, and the other tumor lacked the typical morphologic and immunophenotypic features of APL and had a variant 3-way translocation involving PML and RARA. PML-RARA translocations were identified by tCGH in both cases providing confirmation of the diagnosis of APL. These data emphasize the benefit of using complementary molecular methods including tCGH for detecting cryptic and variant PML-RARA translocations in unusual cases of APL.

Novel treatment of acute promyelocytic leukemia: As2O3, retinoic acid and retinoid pharmacology.

Acute promyelocytic leukemia(APL), a specific characteristic of t(15;17) chromosome translocation, represents 5% to 15% of cases of acute nonlymphocytic leukemia. An alternative approach is to consider retinoic acid(all-trans RA, ATRA or 13-cis RA or 9-cis RA) plus chemotherapy or RA plus As2O3 regimens as now novel therapy. Molecular gene analyses are conclusive in vivo evidence that oncogenic PML/RARa plays a crucial role in APL leukemogenesis. As a novel approach to APL treatment, one possible the action of RA, A consense sequence (5'-TCAGGTCATGACCTGA-3') has been postulated for the thyroid hormone (TRE) and retinoic acid responsive element (RARE) containing half palindromes, which located in the promoter region of target genes. High dose (100-fold) of RA-RARE-PML/RARa complex in intracellular localization appears to relieve repressor from DNA binding, including corepressors N-CoR, SMRT and HDACs, release PML/RARa- mediated transcriptional repression, and release histone deacetylase activity from PMLRARa. The resulting PML/RARa oncoprotein proteolytic degradation through the autophagy-lysosome pathway and the ubiquitin SUMO-proteasome system (UPS), as well as caspase 3 (cleavage site Asp522 within a-helics region of PML component of the fusion protein) or neutrophil elastase, or lysosomal protease enzyme induction. PML protein relocalizes into the wild-type nuclear body (PML-NB) configuration or/and wild-type RARa upregulated. An effect to relieve the blockade (inhibition) of PML/RARA-mediated RA dependent promyelocytic differentiation, and retinoic acid in APL therapy (see Figure in the full text, George Zhu, 1991). Here, like v-erbA, PML/RARa is a (strong) transcriptional repressor of the RA receptor (RAR) complex, and PML/RARa fusion receptor gene act as conditional oncogenic receptor (translocated chimeric retinoic acid a signaling) or oncogenic PML/RARa may participate in leukemogenesis of APL through blocking RA-mediated promyelocytic differentiation. This is first described in eukaryotes.