Estimating the risk of developing secondary hematologic malignancies in patients with T1/T2 prostate cancer undergoing diverse treatment modalities: A large population-based study.

BACKGROUND: Patients with prostate cancer (PC) are at a high risk of developing secondary hematologic malignancies (SHMs) after radiation therapy (RT), while no study has assessed the relationship of different treatment modalities with the occurrence of SHMs after PC at early stage. This study aimed to investigate the risks of developing SHMs in patients with T1/T2 PC undergoing different treatment modalities. METHODS: Patients with T1/T2 PC were identified from the Surveillance, Epidemiology, and End Results database. Competing risk regression (CRR) model was performed to evaluate the hazard ratios (HRs) of developing SHMs. As SHMs scarcely occur, the relative risk (RR) analysis was employed to compare the risks of different treatment modalities associating with the development of SHMs. RESULTS: The CRR analysis showed that undergoing RT was associated with a higher risk of developing SHMs (external beam radiation therapy [EBRT]: HR = 1.21, 95% confidence interval [CI]: 1.10-1.34; radioactive implant [RI]: HR = 1.20, 95% CI: 1.06-1.36). As for different types of SHMs, EBRT, and RI were correlated with decreased risks of developing CLL (RR = 0.67, 0.72; 95% CI: 0.53-0.85, 0.54-0.96, respectively), but with the increased risks of developing NHL (RR = 1.18, 1.23; 95% CI: 1.02-1.35, 1.05-1.44, respectively); EBRT also showed increased risks of developing acute/ chronic myeloid leukemia (AML/CML, RR = 1.54, 1.56; 95% CI: 1.16-2.03,1.05-2.33, respectively); No increased risk of developing SHMs was detected in patients who only underwent prostatectomy. CONCLUSIONS: Although RT was found to be associated with the increased risks of developing SHMs in patients with T1/T2 PC, this finding cannot be extended to diverse types of SHMs. RT was correlated with the increased risks of the development of NHL, AML, and CML, but with the decreased risk of developing CLL. Prostatectomy did not increase the risk of developing SHMs.

Secondary Acute Leukemia in Sarcoma Patients: A Population-Based Study.

PURPOSE: To compare rates of secondary acute leukemia between sarcoma patients and the general population, using data from the National Cancer Institute Surveillance, Epidemiology, and End Results (SEER) registry, and to examine whether various patient, tumor, and treatment factors were associated with development of a secondary acute leukemia. METHODS AND MATERIALS: Patients with a primary diagnosis of connective tissue malignancy between 1973 and 2008 in the SEER database were included. Multivariable competing risk analysis was used to determine risk factors associated with subsequent development of acute leukemia. Using observed-to-expected ratios, we compared incidence rates of secondary acute leukemia between sarcoma patients and the general population. RESULTS: A total of 72,945 patients were identified, with median follow-up of 131 months. On multivariable competing risk analysis, factors associated with increased risk of secondary acute leukemia included receipt of radiation therapy (hazard ratio [HR] 1.67, P=.02), distant disease (HR 2.67, P=.004), male gender (HR 1.53, P=.03), year of diagnosis (HR 0.98, P=.049), and Ewing sarcoma histology (HR 9.95, P < .0001) and osteosarcoma histology (HR 5.06, P=.0001). The observed-to-expected ratio for development of a secondary acute leukemia was 3.67 (95% confidence interval [CI] 1.95-6.28), 3.41 (95% CI 2.73-4.20), and 1.6 (95% CI 1.38-8.19) for acute lymphocytic leukemia, acute myeloid leukemia, and acute monocytic leukemia, respectively. The 10-year cumulative incidence of secondary acute leukemia for patients who did and did receive radiation therapy was 0.3% versus 0.1% (P=.02). CONCLUSIONS: Patients treated for sarcoma, in particular those with Ewing sarcoma and osteosarcoma histology, seem to have a higher incidence of secondary acute leukemia as compared with the general population. Treatment factors including radiation therapy and chemotherapy seem to play a role in this increased risk, although the absolute incidence nevertheless remains very small.

Cooperation of MLL/AF10(OM-LZ) with PTPN11 activating mutation induced monocytic leukemia with a shorter latency in a mouse bone marrow transplantation model.

PTPN11 mutation, a RAS signaling pathway mutation, is associated with MLL translocations in acute leukemia. A girl with MLL/AF10 AML was found to carry PTPN11G503A . To study the impact of PTPN11G503A cooperating with MLL/AF10 on leukemogenesis, we established a retroviral transduction/transplantation mouse model. Compared to the MLL/AF10(OM-LZ) leukemia cells harboring PTPN11wt , the cells harboring PTPN11G503A were hypersensitive to GM-CSF and IL3, and more resistant to death upon treatment with daunorubicin but sensitive to cytarabine. The cells harboring PTPN11G503A autonomously differentiated into macrophages (1.8%) in the medium containing IL3. Further studies showed that the cells had an elevated (∼2.9-fold) Csf1 transcription level and secreted more (∼4.5-fold) M-CSF to the medium which can stimulate monocyte/macrophage differentiation of BM cells. Mice transplanted with the cells harboring PTPN11G503A had a higher concentration of M-CSF in plasma. When mixed with the MLL/AF10(OM-LZ) leukemia cells harboring PTPN11wt , the cells harboring PTPN11G503A had an increased competitive engraftment and clonal expansion in the BM and spleen of recipient mice, although no competitive growth advantage was observed in the in vitro co-culturing assays. The mice transplanted with the MLL/AF10(OM-LZ) cells harboring PTPN11wt developed myelomonocytic leukemia, while those transplanted with the cells harboring PTPN11G503A -induced monocytic leukemia in a shorter latency. Our results demonstrated that addition of PTPN11G503A to MLL/AF10 affected cell proliferation, chemo-resistance, differentiation, in vivo BM recruitment/clonal expansion and accelerated disease progression.

Spontaneous regression of cutaneous blastic plasmacytoid dendritic cell neoplasm followed by acute monocytic leukemia evolving from myelodysplastic syndrome.

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is a rare and aggressive hematologic malignancy arising from plasmacytoid dendritic cell precursors. BPDCN typically manifests in the skin, but it can also evolve into a leukemic form or be complicated by acute myeloid leukemia, some cases with a preceding myelodysplastic syndrome (MDS). We herein report the first case of complete spontaneous regression of cutaneous BPDCN followed by acute monocytic leukemia evolving from MDS. This is also the first reported case of gastric BPDCN invasion.

Secondary acute monocytic leukemia positive for 11q23 rearrangement in Nijmegen breakage syndrome.

Nijmegen breakage syndrome (NBS) is an autosomal recessive chromosomal instability disorder characterized by a high incidence of pediatric hematologic malignancies. Majority of patients affected are of Slavic origin and share the same founder mutation of 657del5 within the NBN gene encoding protein involved in DNA double-strand breaks (DSB) repair. We report a case of a pediatric patient with NBS, who developed t(9;11)/AF9-MLL-positive AML as a second malignancy after successful treatment of T-NHL. The coexistence of NBN and MLL mutations suggests that the profound dysfunction of NBN may promote alterations of MLL that is mediated by error-prone non-homologous end joining pathway particularly in patients treated with DNA topoisomerase II inhibitors.

[Acute monoblastic leukemia with MLL/AF9 rearrangement which developed 18 months after myeloid sarcoma onset].

We describe a 36-month-old boy with acute monoblastic leukemia (AMoL M5a) and mixed-lineage leukemia (MLL)-AF9 rearrangement. At 18 months of age, he presented with swelling on the back of his hand that was considered to be an inflammatory change, but no hematological abnormalities were found. However, blasts with MLL-AF9 rearrangement were detected in biopsied tissue taken at the time and in peripheral blood samples taken 18 months later. These findings indicate that myeloid sarcoma with MLL-AF9 rearrangement may ultimately, though slowly, progress to AMoL.

Hemophagocytic lymphohistiocytosis with MUNC13-4 gene mutation or reduced natural killer cell function prior to onset of childhood leukemia.

Hemophagocytic lymphohistiocytosis (HLH) is a rare histiocytic reactive process due to mutations in the perforin, MUNC13-4 or syntaxin 11 genes, or secondary to malignancy, infection or autoimmune disorder. HLH as a preceding diagnosis to leukemia is rare. We report two cases with progression to acute leukemia, one heterozygous for MUNC13-4 and the other with reduced natural killer (NK) cell function and perforin expression. These defects may predispose to a secondary HLH-like presentation of pre-clinical leukemia or confer increased susceptibility to malignancy. HLH patients with genetic mutations or NK cell function abnormalities need monitoring for future malignancy even if the HLH resolves.

The structure of the Klf4 DNA-binding domain links to self-renewal and macrophage differentiation.

Krueppel-like factor 4 (Klf4) belongs to the Sp/Klf family of zinc-finger transcription factors and is indispensable for terminal maturation of epithelial tissues. Furthermore, it is part of a small set of proteins that are used to generate pluripotent embryonic stem cells from differentiated tissues. Herein, we describe that a Klf4 zinc-finger domain mutant induces self-renewal and block of maturation, while wild-type Klf4 induces terminal macrophage differentiation. Moreover, we present the crystal structure of the zinc-finger domain of Klf4 bound to its target DNA, revealing that primarily the two C-terminal zinc-finger motifs are required for site specificity. Lack of those two zinc fingers leads to deficiency of Klf4 to induce macrophage differentiation. The first zinc finger, on the other hand, inhibits the otherwise cryptic self-renewal and block of differentiation activity of Klf4. Our data show that impairing the DNA binding could potentially contribute to a monocytic leukemia.

[Neoplasia in patients with systemic lupus erythematosus: analysis of two cases of hematological malignancies]. / Nowotwór u chorych na toczen rumieniowaty ukladowy--analiza dwóch wybranych przypadków chorych na choroby rozrostowe ukladu bialokrwinkowego.

INTRODUCTION: Patients with systemic lupus erythematosus (SLE) demonstrate a significantly greater risk of malignant disease (MD) in comparison to the healthy population. Hematological malignancies, especially lymphomas, predominate among MD patients. It is believed that immune disturbances in SLE, lymphotropic virus superinfections, and long-term immunosuppressive therapy may induce the process of MD. CASE REPORTS: Case 1. A female with a 34-year history of SLE was treated with low doses of glucocorticoids and chloroquine. In July 2011, severe pancytopenia complicated by septic shock was observed and the patient died. Histopathologic examination of bone marrow revealed the presence of a B-cell lymphoma. Case 2. A female with a 26-year history of SLE presented with anti-dsDNA and anti-SSA antibodies. Exacerbations of SLE were treated with high doses of glucocorticoids, cyclophosphamide, and azathioprine. In December 2011, pancytopenia was observed and bone marrow histology was in favor of acute monoblastic leukemia. CONCLUSIONS: Data from the literature and our own observations confirm the necessity of oncologic follow-up in SLE. The risk of MD in SLE increases with duration of the disease and depends on the serologic profile of SLE and medication used. Hematological exacerbations in SLE, particularly protracted and therapy-resistant anemia and leukopenia, should be differentiated from a hematological malignancy.

[Acute monoblastic leukemia following granular lymphocyte proliferative disorder].

Granular lymphocyte proliferative disorder (GLPD) is often concomitant with a malignant tumor. We report a patient who developed acute monoblastic leukemia (AMoL) following GLPD. An 82-year-old Japanese man was admitted to our hospital for anemia in December 2006. The patient was diagnosed as having GLPD. In May 2007, the lymphadenopathy developed and the blasts in peripheral blood started to increase. The monoclonal rearrangement of T-cell receptor genes was not detected on Southern blot analysis. Surface marker analysis revealed that the blasts were positive for CD13 and CD64. The level of lysozyme in serum and urine were increased. Based on these findings, he was diagnosed with AMoL. The immunohistochemistry of the bone marrow clot specimen in the diagnosis of GLPD revealed the concomitant presence of a few small clusters of CD34+ cells. This finding suggests that the granular lymphocytes responded to the early stage of AMoL. We should monitor carefully the development of acute myeloid leukemia in newly diagnosed GLPD patients.

Haematological malignancies developing in previously healthy individuals who received haematopoietic growth factors: report from the Research on Adverse Drug Events and Reports (RADAR) project.

Pegylated recombinant human megakaryocyte growth and development factor (PEG-rHuMGDF) and granulocyte colony-stimulating factor (G-CSF) promote haematopoietic progenitor cell maturation. We reviewed the findings for healthy volunteers/donors who developed haematological malignancies following PEG-rHuMGDF or G-CSF administration. Information was reviewed for three of 538 volunteers who received PEG-rHuMGDF in clinical trials and two of 200 donors who underwent G-CSF mobilised stem cell harvesting procedures for sibling stem cell transplants. Mantle cell, diffuse large B-cell lymphoma and chronic lymphocytic leukaemia were diagnosed 1-5 years after PEG-rHuMGDF exposure among three volunteers. For one patient, thrombocytopenia due to autoantibodies to PEG-rHuMGDF developed shortly after PEG-rHuMGDF administration and persisted until chemotherapy was administered. All three achieved complete remission, although one patient relapsed. Acute myeloid leukaemia was diagnosed 4 and 5 years after G-CSF mobilisation in two donors who underwent peripheral blood stem cell donation for sibling allogeneic haematopoietic stem cell transplantation. Following intensive chemotherapy, one died from acute leukaemia and the second is in complete remission. Controversy exists over the appropriateness of administering haematopoietic growth factors to healthy individuals. While a causal relationship with haematological malignancies cannot be demonstrated, long-term follow-up among healthy individuals who receive haematopoietic growth factors is needed.

Myelodysplastic syndrome with transformation to acute monocytic leukemia with FLT3-ITD mutation following orthotopic liver transplantation.

A rare case of a 46-year-old man who underwent myelodysplastic syndrome, acute monocytic leukemia with FLT3-ITD mutation and splenic disruption following orthotopic liver transplantation is reported. The study of this case may be helpful to understand both the pathogenesis of acute leukemia and new complication of liver transplantation.