Natural history of polycythemia vera and essential thrombocythemia presenting with splanchnic vein thrombosis.

Patients with polycythemia vera (PV) or essential thrombocythemia (ET) presenting with splanchnic vein thrombosis (SVT) might have a specific clinico-biological profile. To investigate this hypothesis, 3705 PV/ET patients from three national registers, 118 of them presenting with SVT, were reviewed. After correction for age and sex, PV/ET patients with SVT showed an increased risk of death (HR 2.47, 95% CI 1.5-4.01, p < 0.001), venous thrombosis (IRR 3.4, 95%CI 2.1-5.5, p < 0.001), major bleeding (IRR 3.6, 95%CI 2.3-5.5, p < 0.001), and second cancer (IRR 2.37, 95%CI 1.4-4.1, p = 0.002). No case of acute leukemia was documented among patients with PV/ET presenting with SVT and seven of them (6%) progressed to myelofibrosis. SVT was not associated with lower risk of MF after correction by age and sex. Patients with SVT more frequently died from complications related to hepatic disease, major bleeding, or second cancer, resulting in a 5-year reduction of age- and sex-adjusted median survival. In conclusion, PV and ET patients presenting with SVT have shorter survival than patients with PV and ET of the same age and sex. This excess mortality is related to liver disease, major bleeding, and second cancer rather than to the natural evolution of the MPN.

Gestión cardiovascular de los pacientes con leucemia mieloide crónica desde una perspectiva multidisciplinar, y propuesta de protocolo de actuación por reunión de consenso / Cardiovascular management of patients with chronic myeloid leukemia from a multidisciplinary perspective, and proposing action protocol by consensus meeting

Introducción y objetivos: Los inhibidores de la tirosina cinasa (ITC) denominados de segunda generación (dasatinib y nilotinib) empleados en el tratamiento de la leucemia mieloide crónica (LMC) han demostrado un beneficio frente a imatinib en respuestas alcanzadas y progresiones de la enfermedad. No obstante, estos inhibidores se han relacionado con alguna forma de toxicidad cardiovascular, ocurriendo en su mayor parte en pacientes con factores de riesgo cardiovasculares (FRCV). El control de los FRCV se debe considerar por tanto imprescindible para un tratamiento adecuado de la LMC. En la actualidad, debido a la falta de recomendaciones en pacientes con LMC, el tratamiento de los FRCV se realiza de forma muy heterogénea. El objetivo de este trabajo es elaborar recomendaciones sobre la prevención y el seguimiento de episodios cardiovasculares (ECV) en pacientes con LMC tratados con ITC. Material y métodos: Expertos del Grupo Español de Leucemia Mieloide Crónica, junto con expertos en riesgo cardiovascular, hemos elaborado, con base en una reunión de consenso, recomendaciones de prevención y seguimiento de ECV en pacientes con LMC tratados con ITC. Resultados: En este documento se muestran las recomendaciones de consenso con respecto a la información necesaria a recoger en la historia clínica, la toma de decisiones terapéuticas, así como el tratamiento y el seguimiento de los FRCV. Conclusiones: El tratamiento con ITC requiere un manejo integral del paciente que deberá realizarse desde un abordaje multidisciplinar, en el que tanto la prevención como el tratamiento de los FRCV es fundamental (AU)

Introduction and objectives: The second generation tyrosine kinase inhibitors (TKI, dasatinib and nilotinib) used in chronic myeloid leukemia (CML) treatment have shown a benefit compared to imatinib in responses achieved and disease progression. However, both have been related to some cardiovascular toxicity, being more frequent in patients with cardiovascular risk factors (CVRFs). Nowadays, due to the lack of recommendations for CML patients, CVRF management is carried out heterogeneously. The aim of this work is to develop recommendations on the prevention and monitoring of cardiovascular events (CVD) in patients with CML treated with TKIs. Material and methods:Experts from the Spanish Group of Chronic Myeloid Leukemia together with experts in cardiovascular risk have elaborated, after a consensus meeting, recommendations for the prevention and follow-up of CVE in patients with CML treated with TKI. Results: Recommendations regarding the necessary information to be collected on clinical history, treatment decisions, as well as treatment and monitoring of CVRFs are shown in this document. Conclusions: TKI treatment requires comprehensive patient management from a multidisciplinary approach, in which both the prevention and management of CVRFs are essential (AU)

[Cardiovascular management of patients with chronic myeloid leukemia from a multidisciplinary perspective, and proposing action protocol by consensus meeting]. / Gestión cardiovascular de los pacientes con leucemia mieloide crónica desde una perspectiva multidisciplinar, y propuesta de protocolo de actuación por reunión de consenso.

INTRODUCTION AND OBJECTIVES: The second generation tyrosine kinase inhibitors (TKI, dasatinib and nilotinib) used in chronic myeloid leukemia (CML) treatment have shown a benefit compared to imatinib in responses achieved and disease progression. However, both have been related to some cardiovascular toxicity, being more frequent in patients with cardiovascular risk factors (CVRFs). Nowadays, due to the lack of recommendations for CML patients, CVRF management is carried out heterogeneously. The aim of this work is to develop recommendations on the prevention and monitoring of cardiovascular events (CVD) in patients with CML treated with TKIs. MATERIAL AND METHODS: Experts from the Spanish Group of Chronic Myeloid Leukemia together with experts in cardiovascular risk have elaborated, after a consensus meeting, recommendations for the prevention and follow-up of CVE in patients with CML treated with TKI. RESULTS: Recommendations regarding the necessary information to be collected on clinical history, treatment decisions, as well as treatment and monitoring of CVRFs are shown in this document. CONCLUSIONS: TKI treatment requires comprehensive patient management from a multidisciplinary approach, in which both the prevention and management of CVRFs are essential.

Frequency and prognostic value of resistance/intolerance to hydroxycarbamide in 890 patients with polycythaemia vera.

The clinical significance of resistance/intolerance to hydroxycarbamide (HC) was assessed in a series of 890 patients with polycythaemia vera (PV). Resistance/intolerance to HC was recorded in 137 patients (15·4%), consisting of: need for phlebotomies (3·3%), uncontrolled myeloproliferation (1·6%), failure to reduce massive splenomegaly (0·8%), development of cytopenia at the lowest dose of HC to achieve a response (1·7%) and extra-haematological toxicity (9%). With a median follow-up of 4·6 years, 99 patients died, resulting in a median survival of 19 years. Fulfilling any of the resistance/intolerance criteria had no impact on survival but when the different criteria were individually assessed, an increased risk of death was observed in patients developing cytopenia [Hazard ratio (HR): 3·5, 95% confidence interval (CI): 1·5-8·3, P = 0·003]. Resistance/intolerance had no impact in the rate of thrombosis or bleeding. Risk of myelofibrotic transformation was significantly higher in those patients developing cytopenia (HR: 5·1, 95% CI: 1·9-13·7, P = 0·001) and massive splenomegaly (HR: 9·1, 95% CI: 2·3-35·9, P = 0·002). Cytopenia at the lowest dose required to achieve a response was also an independent risk factor for transformation to acute leukaemia (HR: 20·3, 95% CI: 5·4-76·5, P < 0·001). In conclusion, the unified definition of resistance/intolerance to HC delineates a heterogeneous group of PV patients, with those developing cytopenia being associated with an adverse outcome.

High p27 protein levels in chronic lymphocytic leukemia are associated to low Myc and Skp2 expression, confer resistance to apoptosis and antagonize Myc effects on cell cycle.

Myc (c-Myc) counteracts p27 effects, and low p27 usually correlates with high Myc expression in human cancer. However there is no information on the co-expression of both genes in chronic lymphocytic leukemia (CLL). We found a lack of correlation between RNA and protein levels of p27 and Myc in CLL cells, so we determined the protein levels by immunoblot in 107 cases of CLL. We observed a high p27 protein expression in CLL compared to normal B cells. Ectopic p27 expression in a CLL-derived cell line resulted in cell death resistance. Surprisingly, Myc expression was very low or undetectable in most CLL cases analyzed, with a clear correlation between high p27 and low Myc protein levels. This was associated with low Skp2 expression, which is consistent with the Skp2 role in p27 degradation and with SKP2 being a Myc target gene. High Myc expression did not correlate with leukemia progression, despite that cell cycle-related Myc target genes were upregulated. However, biochemical analysis showed that the high p27 levels inhibited cyclin-Cdk complexes even in Myc expressing CLL cells. Our data suggest that the combination of high p27 and low Myc is a marker of CLL cells which is mediated by Skp2.

Busulfan in patients with polycythemia vera or essential thrombocythemia refractory or intolerant to hydroxyurea.

Therapeutic options for patients with polycythemia vera (PV) and essential thrombocythemia (ET) resistant or intolerant to hydroxyurea are limited. Busulfan is effective as first-line therapy, but there is scarce information on this drug as second-line treatment. The efficacy of busulfan in patients with advanced PV or ET refractory or intolerant to hydroxyurea was assessed in 36 patients (PV n = 15, ET n = 21) treated for a median of 256 days. Complete hematological response (CHR) was achieved in 83 % of patients, after a median time of 203 days (range 92-313). The probability of sustained CHR at 1 and 2 years was 87 and 62 %, respectively. Time to CHR was shorter in patients treated with ≥14 mg of busulfan per week than with lower doses (141 versus 336 days, p = 0.01). Partial molecular response was achieved in three out of nine (33 %) patients. Busulfan was stopped in 27 patients (75 %) due to CHR achievement in 18 cases (67 %), hematological toxicity in 8 cases (30 %), and disease transformation in 1 case. With a median follow-up of 721 days, six patients have died, with the probability of survival at 2 years being 85 %. The probability of thrombosis at 2 years was 11 %. Transformation into acute leukemia or myelodysplastic syndrome was observed in three cases, all of them in a JAK2V617F-negative clone carrying additional mutations. Busulfan, at a dose of 2 mg/day, is an effective option for elderly patients with PV or ET who fail to hydroxyurea, but a significant rate of transformation was observed.

MYC oncogene in myeloid neoplasias

MYC is a transcription factor that regulates many critical genes for cell proliferation, differentiation, and biomass accumulation. MYC is one of the most prevalent oncogenes found to be altered in human cancer, being deregulated in about 50 % of tumors. Although MYC deregulation has been more frequently associated to lymphoma and lymphoblastic leukemia than to myeloid malignancies, a body of evidence has been gathered showing that MYC plays a relevant role in malignancies derived from the myeloid compartment. The myeloid leukemogenic activity of MYC has been demonstrated in different murine models. Not surprisingly, MYC has been found to be amplified or/and deregulated in the three major types of myeloid neoplasms: acute myeloid leukemia, myelodysplastic syndromes, and myeloproliferative neoplasms, including chronic myeloid leukemia. Here, we review the recent literature describing the involvement of MYC in myeloid tumors (AU)

MYC oncogene in myeloid neoplasias.

MYC is a transcription factor that regulates many critical genes for cell proliferation, differentiation, and biomass accumulation. MYC is one of the most prevalent oncogenes found to be altered in human cancer, being deregulated in about 50 % of tumors. Although MYC deregulation has been more frequently associated to lymphoma and lymphoblastic leukemia than to myeloid malignancies, a body of evidence has been gathered showing that MYC plays a relevant role in malignancies derived from the myeloid compartment. The myeloid leukemogenic activity of MYC has been demonstrated in different murine models. Not surprisingly, MYC has been found to be amplified or/and deregulated in the three major types of myeloid neoplasms: acute myeloid leukemia, myelodysplastic syndromes, and myeloproliferative neoplasms, including chronic myeloid leukemia. Here, we review the recent literature describing the involvement of MYC in myeloid tumors.

MYC in chronic myeloid leukemia: induction of aberrant DNA synthesis and association with poor response to imatinib.

Untreated chronic myeloid leukemia (CML) progresses from chronic phase to blastic crisis (BC). Increased genomic instability, deregulated proliferation, and loss of differentiation appear associated to BC, but the molecular alterations underlying the progression of CML are poorly characterized. MYC oncogene is frequently deregulated in human cancer, often associated with tumor progression. Genomic instability and induction of aberrant DNA replication are described as effects of MYC. In this report, we studied MYC activities in CML cell lines with conditional MYC expression with and without exposure to imatinib, the front-line drug in CML therapy. In cells with conditional MYC expression, MYC did not rescue the proliferation arrest mediated by imatinib but provoked aberrant DNA synthesis and accumulation of cells with 4C content. We studied MYC mRNA expression in 66 CML patients at different phases of the disease, and we found that MYC expression was higher in CML patients at diagnosis than control bone marrows or in patients responding to imatinib. Further, high MYC levels at diagnosis correlated with a poor response to imatinib. MYC expression did not directly correlate with BCR-ABL levels in patients treated with imatinib. Overall our study suggests that, as in other tumor models, MYC-induced aberrant DNA synthesis in CML cells is consistent with MYC overexpression in untreated CML patients and nonresponding patients and supports a role for MYC in CML progression, possibly through promotion of genomic instability.

SKP2 oncogene is a direct MYC target gene and MYC down-regulates p27(KIP1) through SKP2 in human leukemia cells.

SKP2 is the ubiquitin ligase subunit that targets p27(KIP1) (p27) for degradation. SKP2 is induced in the G(1)-S transit of the cell cycle, is frequently overexpressed in human cancer, and displays transformation activity in experimental models. Here we show that MYC induces SKP2 expression at the mRNA and protein levels in human myeloid leukemia K562 cells with conditional MYC expression. Importantly, in these systems, induction of MYC did not activate cell proliferation, ruling out SKP2 up-regulation as a consequence of cell cycle entry. MYC-dependent SKP2 expression was also detected in other cell types such as lymphoid, fibroblastic, and epithelial cell lines. MYC induced SKP2 mRNA expression in the absence of protein synthesis and activated the SKP2 promoter in luciferase reporter assays. With chromatin immunoprecipitation assays, MYC was detected bound to a region of human SKP2 gene promoter that includes E-boxes. The K562 cell line derives from human chronic myeloid leukemia. In a cohort of chronic myeloid leukemia bone marrow samples, we found a correlation between MYC and SKP2 mRNA levels. Analysis of cancer expression databases also indicated a correlation between MYC and SKP2 expression in lymphoma. Finally, MYC-induced SKP2 expression resulted in a decrease in p27 protein in K562 cells. Moreover, silencing of SKP2 abrogated the MYC-mediated down-regulation of p27. Our data show that SKP2 is a direct MYC target gene and that MYC-mediated SKP2 induction leads to reduced p27 levels. The results suggest the induction of SKP2 oncogene as a new mechanism for MYC-dependent transformation.

p21(Cip1) confers resistance to imatinib in human chronic myeloid leukemia cells.

Imatinib is a Bcr-Abl inhibitor used as first-line therapy of chronic myeloid leukemia (CML). p21(Cip1), initially described as a cell cycle inhibitor, also protects from apoptosis in some models. We describe that imatinib down-regulates p21(Cip1) expression in CML cells. Using K562 cells with inducible p21 expression and transient transfections we found that p21 confers partial resistance to imatinib-induced apoptosis. This protection is not related to the G2-arrest provoked by p21, a decrease in the imatinib activity against Bcr-Abl or a cytoplasmic localization of p21. The results suggest an involvement of p21(Cip1) in the response to imatinib in CML.

PU.1 expression is restored upon treatment of chronic myeloid leukemia patients.

The PU.1 transcription factor is a crucial regulator of hematopoiesis which expression is altered in various leukemic processes. Our previous work in chronic myeloid leukemia (CML) cells demonstrated that interferon-alpha upregulated PU.1 expression. Here we show that expression of PU.1 is severely impaired in patients with CML at diagnosis. However, the PU.1 suppression is abrogated in patients in remission, after interferon-alpha or imatinib treatment. These effects are not found in patients with other myeloproliferative diseases such as polycythemia vera or essential thrombocythemia. PU.1 could, therefore, be used as an additional marker of the response to the treatment of the CML.