Guntram Büsche

JAK2V617F allele burden discriminates essential thrombocythemia from a subset of prefibrotic-stage primary myelofibrosis

OBJECTIVE Among Philadelphia chromosome-negative myeloproliferative neoplasms (Ph(-) MPN), essential thrombocythemia (ET) and the prefibrotic phase of primary myelofibrosis (PMF) represent two subtypes with considerable overlap. MATERIALS AND METHODS In this study, histopathological classification of 490 MPN cases was correlated with the allelic burden of JAK2(V617F) and MPL(W515L). RESULTS Ph(-) MPN entities largely overlap with regard to JAK2(V617F) and MPL(W515L) allele burden, but ET displayed mutant allele burden <50%. PMF with different stages of myelofibrosis all yielded similar JAK2(V617F) allele burden. At initial presentation one-quarter of prefibrotic PMF cases exhibited an allele burden exceeding 50% (38% median JAK2(V617F) alleles, n=102). In ET, its main differential diagnosis, not a single case was found with >40% JAK2(V617F) alleles (median, 24% JAK2(V617F) alleles; n=90; p<0.001). Increase in JAK2(V617F) alleles during follow-up could not be linked to fibrosis or blastic progression but was related to polycythemic transformation in ET. MPL(W515L) was found in 3% of ET and 8% of PMF, with a significantly higher percentage of mutated alleles in fibrotic than prefibrotic PMF (median, 78% MPL(W515L) alleles; p<0.05). CONCLUSION Histopathological categories ET and prefibrotic PMF correlate with significant differences in mutant allelic burden of JAK2(V617F), but not of MPL(W515L) which, by contrast to JAK2(V617F), shows a higher percentage of mutated alleles in fibrotic than in prefibrotic cases. Thus, for Ph(-) MPN in which ET and prefibrotic PMF represent the most probable diagnoses, a JAK2(V617F) allele burden >50% favors a diagnosis of prefibrotic PMF.

Risk models predicting survival after reduced-intensity transplantation for myelofibrosis.

To define a prognostic model for predicting outcome of reduced‐intensity allogeneic stem cell transplantation (RIC‐ASCT) for myelofibrosis we evaluated 150 homogenously treated patients and developed a new risk score for overall survival (OS). In a multivariate Cox model for OS, only JAK2 V617F wild‐type, age ≥57 years and constitutional symptoms were independently predictive for OS (Hazard Ratio: 2·02; 2·43 and 2·80 respectively). Depending on the presence of one, two or all of these factors, HR of death was 3·08; 4·70 and 16·61 respectively (P < 0·001). This score was compared to the Lille, Cervantes, International Prognostic Scoring System (IPSS), dynamic IPSS (DIPSS) and modified European Blood and Marrow Transplantation Group (EBMT) scores. Lille score correlated significantly with OS but discriminated poorly between the intermediate and high‐risk groups (5‐year OS 56% and 51% respectively). IPSS and DIPSS correlated significantly with OS but differences between intermediate‐1 and intermediate‐2 groups were not significant (5‐year OS 78% vs. 78% and 70%, 60% respectively). Modified EBMT and Cervantes models did not predict OS post‐ASCT. In conclusion, a simple model which includes: age, JAK2 V617F‐status and constitutional symptoms can clearly separate distinct risk groups and can be used in addition to the Lille model to predict OS after RIC‐ASCT for myelofibrosis.

Quality assessment of HER2 testing by monitoring of positivity rates

Interlaboratory variation in human epidermal growth factor receptor 2 (HER2) testing provides a challenge for targeted therapy in breast and gastric cancer. Assessment of positivity rates among laboratories could help monitor their performance and define reference values for positivity rates to be expected in a geographic region. Pathologists regularly determined the number of HER2-positive cases (HER2 3+, HER2 2+/amplified or amplified) in their laboratory, and figures were continuously entered into a central website. The overall positivity rate of each participant was calculated and compared with the average rates of all other institutes (n = 42). A total of 18,081 test results on breast cancer and 982 on gastric cancer were entered into the system. Positivity rates for HER2 in breast cancer ranged from 7.6% to 31.6%. Statistically, the results from six institutions qualified as outliers (p < 0.000005). From the remaining institutions encompassing 10,916 assessments, the mean proportion of positive cases was 16.7 ± 3.2% (99% confidence interval 16.6–16.8). The results from six institutions were in between the 95% and 99.5% confidence intervals. For gastric cancer, there was one outlier and the mean positivity rate was 23.2 ± 5.7%. The proportion of HER2-positive breast cancer cases is considerably lower than could have been expected from published studies. By assessing the positivity rates and comparing them with that of all breast or gastric cancers in a given population, pathologists will be alerted to a potential systematic error in their laboratory assay, causative for over- or underestimation of cancer cases suited for anti-HER2 therapy.

Rps14 haploinsufficiency causes a block in erythroid differentiation mediated by S100A8 and S100A9.

Impaired erythropoiesis in the deletion 5q (del(5q)) subtype of myelodysplastic syndrome (MDS) has been linked to heterozygous deletion of RPS14, which encodes the ribosomal protein small subunit 14. We generated mice with conditional inactivation of Rps14 and demonstrated an erythroid differentiation defect that is dependent on the tumor suppressor protein p53 (encoded by Trp53 in mice) and is characterized by apoptosis at the transition from polychromatic to orthochromatic erythroblasts. This defect resulted in age-dependent progressive anemia, megakaryocyte dysplasia and loss of hematopoietic stem cell (HSC) quiescence. As assessed by quantitative proteomics, mutant erythroblasts expressed higher levels of proteins involved in innate immune signaling, notably the heterodimeric S100 calcium-binding proteins S100a8 and S100a9. S100a8—whose expression was increased in mutant erythroblasts, monocytes and macrophages—is functionally involved in the erythroid defect caused by the Rps14 deletion, as addition of recombinant S100a8 was sufficient to induce a differentiation defect in wild-type erythroid cells, and genetic inactivation of S100a8 expression rescued the erythroid differentiation defect of Rps14-haploinsufficient HSCs. Our data link Rps14 haploinsufficiency in del(5q) MDS to activation of the innate immune system and induction of S100A8-S100A9 expression, leading to a p53-dependent erythroid differentiation defect.

The Incidence of Myelofibrosis in Essential Thrombocythaemia, Polycythaemia vera and Chronic Idiopathic Myelofibrosis: A Retrospective Evaluation of Sequential Bone Marrow Biopsies

The incidence of myelofibrosis (MF) among the three major Philadelphia chromosome-negative chronic myeloproliferative disorders, i.e. essential thrombocythaemia (ET), polycythaemia vera (PV) and chronic idiopathic myelofibrosis (CIMF), is not well documented since the diagnostic criteria have recently been redefined by the WHO. Therefore we performed a retrospective analysis of follow-up biopsies of 275 patients with ET, PV and CIMF according to the WHO classification of chronic myeloproliferative disorders. In the diagnostic bone marrow biopsies, MF was observed in 57 of the 136 CIMF patients (42%), 4 of the 73 PV patients (5%) and none of the 66 patients with ET. Within a median observation time of 2.9 years, 34 of the 79 patients with CIMF (43%), 13 of the 69 patients with PV (19%) and 1 of the 66 patients with ET (1.5%) – each initially without MF – developed MF regardless of myelosuppressive therapy.

Chronic myeloproliferative diseases with concurrent BCR–ABL junction and JAK2V617F mutation

Chronic myeloproliferative diseases with concurrent BCR–ABL junction and JAK2 V617F mutation

Aberrant microRNA expression pattern in myelodysplastic bone marrow cells

The microRNA/miR system might contribute to deregulation of cell homeostasis/disease phenotype. This is the first approach to generate an expression profile of 365 microRNAs in myelodysplastic syndromes (MDS) with normal karyotype (n=12) and distinct cytogenetic aberrations (n=12). In MDS-del(5q), a series of microRNAs not in the 5q-region was increased. MicroRNAs encoded on chromosomes 5, 7 and 8 were not differentially expressed in MDS with del(5q), -7 or +8. Evaluation in a larger cohort could confirm the up-regulation of the miR-1 in MDS. These findings provide evidence that MDS-haematopoiesis is distinct in its microRNA-expression pattern from non-neoplastic cells.

Aberrant expression of β‐catenin discriminates acute myeloid leukaemia from acute lymphoblastic leukaemia

The role of β‐catenin in epithelial neoplasms has been widely studied whereas current knowledge regarding β‐catenin gene and protein expression in bone marrow cells derived from normal haematopoiesis and clonal haematological disorders is lacking. β‐Catenin gene expression was quantitatively investigated in bone marrow cells derived from clonal haematological disorders [acute myeloid leukaemia (AML), acute lymphoblastic leukaemia (ALL), Philadelphia chromosome‐positive chronic myeloid leukaemia (Ph+ CML], Ph− myeloproliferative disorders, n = 96) compared with non‐neoplastic haematopoiesis (n = 33) by real‐time reverse transcription polymerase chain reaction. Cellular localization of β‐catenin protein was detected by immunocytochemistry. β‐Catenin gene expression was significantly increased in AML compared with ALL cases (P < 0·0001), Ph+ CML (P < 0·0001) and non‐neoplastic haematopoiesis (P = 0·019). Immunocytochemistry revealed that, in non‐neoplastic haematopoiesis, the granulopoietic lineage as well as megakaryocytes showed membranous and cytoplasmic staining to various degrees along with unlabelled nuclei. Besides haematopoiesis, β‐catenin prominently marked bone marrow vascularity and diverse stroma cells. β‐Catenin gene was inversely expressed in AML and ALL with a lack of protein expression in neoplastic cells in ALL. In contrast, the other haematological disorders under study, except for Ph+ CML, did not show significant alterations of overall β‐catenin gene expression compared with normal bone marrow. These data suggest different regulatory mechanisms in the expression and function of β‐catenin in haematopoietic cells.

Significant inverse correlation of microRNA-150/MYB and microRNA-222/p27 in myelodysplastic syndrome

We investigated whether, in myelodysplastic syndromes (MDS), aberrant expression of miR-150/miR-221/miR-222 and their designated target mRNA molecules MYB, p27 and c-KIT may be involved in insufficient haematopoiesis. In a series of MDS (n=52), an aberrant increase of miR-150 was found only in MDS with associated del(5q) (n=9; p<0.01). The mRNA expression of transcription factor MYB, the designated target of miR-150, was shown to correlate inversely with the miR-150 level. Acute leukaemia evolving from MDS (n=11) showed significantly decreased levels of miR-221 but not miR-222. We conclude that inhibition of proliferation via over-expressed miR-150 might contribute to myelodysplastic haematopoiesis in MDS-del(5q).

Complete haematological and cytogenetic response to interferon alpha-2a of a myeloproliferative disorder with eosinophilia associated with a unique t(4;7) aberration.

Abstract A female patient with eosinophilia and cardiac symptoms was found to have a unique chromosomal aberration [t(4;7)(q11;p13)] of bone-marrow precursors. The disorder was classified as a chronic myeloproliferative syndrome with eosinophilia. Due to a significant increase in the white blood cell and eosinophil count during initial treatment with prednisone and hydroxyurea, Interferon alpha-2a was administered at a dose of 3–5×106 I.U. s.c., five times per week, and induced a long-term complete haematological and cytogenetic response. The clinical features of this case are presented and discussed in the context of the current literature.