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Polycythemia Vera: Redefinition in the Genomic Era

Moliterno, Alison R. ; Williams, Donna M. ; McDevitt, Michael A ; [weitere]

American Society of Hematology ; 2012

In: Blood Vol. 120, No. 21 ( 2012-11-16), p. 1754-1754

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In: Blood, American Society of Hematology, Vol. 120, No. 21 ( 2012-11-16), p. 1754-1754

Kurzfassung: Abstract 1754 For more than 100 years since the initial descriptions, polycythemia vera (PV) was defined by an aggregation of clinical and laboratory features, reported to be more common in males than females, and diagnosed on average at age 60 (Modan Blood 1965, Berlin Sem Hematol 1975). The 2005 discovery of somatic mutations in the JAK2 gene introduced the molecular era of PV and required redefinition of this disease entity. We established a prospective, observational cohort of 556 patients evaluated in our center between 2005 and 2011, of which 273 had a PV phase at some point during their myeloproliferative neoplasm (MPN). Serial samples were obtained from each patient for genomic analyses, including neutrophil JAK2V617F allele burdens, clinical karyotypes, SNP-array karyotypes, JAK2 and ASXL1 sequencing and copy number variation, allele burden analysis in sorted hematopoietic stem cell (HSC) fractions, and whole exome sequencing. These data were used to define the relationship of genotype to clinical phenotype with regard to PV epidemiology, natural history and disease transformation. Thirty three percent of the cohort was evaluated within 1 year from PV diagnosis and the median MPN disease duration at the last update of the cohort was 9 years (range 1–52 years). As of 7/2012, of the 273 PV patient cohort, 47 had antecedent essential thrombocytosis (ET/PV), 176 had PV, 43 had developed post-PV myelofibrosis (PPVMF) and 7 had developed acute leukemia (AML) (PPVAML). 270 of the 273 PV patients had JAK2 mutations, either V617F (264, 97%) or exon 12 (6, 2%); the remaining 3 (1%) are molecularly undefined. Women outnumbered men (169/104; ratio 1.6), even when stratified by ET/PV (2.1), PV (1.6), PPVMF (1.4) and PPVAML (1.3). Age at PV diagnosis was significantly younger in women, 54 (range 8–88), compared to men, 56.5 (range 15–77) (p=0.022), and the proportion diagnosed before age 40 was 26% in women compared to 10.5% in men. PPVMF occurred on average after 9 years (range 2–53 years) of PV at a median age of 62.5 years. PPVAML occurred on average after 10 years (range 3–28 years) of PV, at a median age of 71 years, significantly higher than the age at PPVMF (p=0.038). Aside from JAK2V617F, acquired 9pUPD was the most common genomic lesion in PV, occurring in 57% within the first year after PV diagnosis, in 84% of PPVMF and 100% of PPVAML patients. Studied prospectively, the prevalence of 9pUPD increased from 0 to 40% in 11 patients transitioning from ET to PV, and increased from 59% to 75% in 30 PV patients from year 1 to year 6 after diagnosis, but stayed at 90% in 11 patients pre and post transformation to PPVMF. Chromosomal loss/gain was not highly prevalent during PV (2%) in contrast to PPVMF (64%) and PPVAML (100%). The most frequent chromosomal abnormalities in PPVMF were trisomy 9 (27%), 13q deletion (12%), 1q gain(12%), 20qdeletion (8%) and 11qdel (8%), whereas the most common chromosomal abnormalities in PPVAML were 5qdel or −5 (75%), and 7qdeletion (50%), both of which were often found in the setting of complex changes (75%). Genomic lesions identified in PV and PPVMF, including JAK2V617F, 9pUPD, 11qdel, and ASXL1 mutations, were detected at high allele burdens by quantitative allele assays in flow-sorted, pluripotent HSCs. We conclude that acquisition of a JAK2 mutation is implicated in the vast majority (99%) of PV patients, that PV occurs more often in women, and that younger women ( 〈 40) particularly are at higher risk than younger men. Genomic lesions in PV and PPVMF arise and accumulate in a primitive HSC population. 9pUPD is a common occurrence during transition from JAK2V617F+ ET to PV, and while highly prevalent, age and time dependent in PV, 9pUPD is not sufficient to generate PPVMF or PPVAML. In PPVMF, JAK2 mutations associate with specific recurrent chromosomal changes that are also found in normal individuals with advancing age (9pUPD, 13qdel, 20qdel, 11qdel; Nature Genetics 44, 2012). JAK2 mutations with 9pUPD enhance the acquisition of age-associated and therapy- associated genomic instability lesions, promoting the development of PPVMF and PPVAML. Given the molecular epidemiology of PV, it will be crucial recognize and reduce the risk factors that lead to the excess acquisition of PV in young women, to identify the risk factors that lead to 9pUPD, to study whether targeted therapy can prevent the development of 9pUPD, and to avoid genotoxic therapy that accelerates genomic instability in PV. Disclosures: Streiff: sanofi-aventis: Consultancy, Honoraria; BristolMyersSquibb: Research Funding; Eisai: Consultancy; Janssen Healthcare: Consultancy; Daiichi-Sankyo: Consultancy.

Materialart: Online-Ressource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V120.21.1754.1754

RVK:

XA 33000

RVK:

XA 10000

Sprache: Englisch

Verlag: American Society of Hematology

Publikationsdatum: 2012

ZDB Id: 1468538-3

ZDB Id: 80069-7

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The Leukemic Stem Cell in Polycythemia Vera and Primary Myelofibrosis Is Distinct From the Initiating JAK2 V617F-Positive Hematopoiertic Stem Cell

Gerber, Jonathan M. ; Ngwang, Brownhilda ; Zhang, Hao ; [weitere]

American Society of Hematology ; 2011

In: Blood Vol. 118, No. 21 ( 2011-11-18), p. 613-613

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In: Blood, American Society of Hematology, Vol. 118, No. 21 ( 2011-11-18), p. 613-613

Kurzfassung: Abstract 613 The chronic myeloproliferative disorders (MPD), polycythemia vera (PV) and primary myelofibrosis (PMF) are clonal disorders involving a multipotent hematopoietic stem cell (HSC) but the identity of the involved HSC is a matter of controversy. For example, involvement of lymphoid cells in the MPD clone as determined by JAK2 V617F expression implies that these disorders arise in a pluripotent HSC. However, evidence has been presented that PV CD34+ HSC expressing JAK2 V617F are predisposed to erythroid differentiation, while mathematical modeling of JAK2 V617F-positive MPD suggests that these disorders arise in a hematopoietic progenitor cell that acquires JAK2 V617F, and then a mutation conferring self-renewal. Recently, a high level of aldehyde dehydrogenase (ALDHhigh) activity was used to distinguish normal CD34+CD38− HSC from committed hematopoietic progenitor cells, which lack ALDH activity, and also to separate leukemic stem cells (LSC) from CD34+/CD38−(ALDHhigh) HSC due to the presence of lower ALDH activity(ALDHint) in the LSC. We, therefore, sought to determine whether ALDH activity could be used to define the HSC involved in JAK2 V617F-positive PV and PMF, and whether leukemic transformation in these disorders was associated with a change in ALDH activity in the involved stem cell. To this end, we studied the immunophenotypic characteristics and ALDH activity of circulating CD34+ cells from 6 PV, 6 PMF (3 PMF and 3 post PV/MF) and 3 post MPD acute myelogenous leukemia (AML) patients (2 PV and 1PMF). CD34+ cells were isolated from peripheral blood using immunomagnetic bead technology with a purity of 95 % and a viability of 98 %, and analyzed for CD34 and CD38 expression and ALDH activity by flow cytometry. Cell sorting was carried out for measurement of the JAK2 V617F allele burden in discrete cell populations using purified genomic DNA and either a quantitative allele-specific assay or pyrosequencing. Where informative, sorted cell populations were analyzed by FISH for chromosomal abnormalities. As a per cent of total leukocytes, the median CD34+ cell fraction was 0.07 (range 0.01–0.2) for PV; 0.5 (range 0.4–1.3) for PV/MF and 2.3 (range 0.2–2.9) for PMF. The CD34+CD38− fraction was 17.8% of total PV CD34+ cells, 20.7% of total PV/MF CD34+ cells (p = 0.69) and 51.6 % of total PMF CD34+ cells (p= 0.003 and p= 0.007 respectively), indicating greater expansion of the PMF CD34+CD38− cell population, even though there was not a significant difference in disease duration between the three groups. ALDH activity was high in the CD34+CD38− cell population of all three groups. In 9/9 patients studied, the JAK2 V617F mutation was present in the CD34+CD38−(ALDHhigh) cell population at approximately 80 % of the patients' neutrophil JAK2 V617F allele burden, substantiating that the JAK2 V617F mutation was present in primitive PV and PMF HSC. We next analyzed the CD34+CD38− cell population for ALDH activity in 1 PMF and 2 PV patients who had transformed to AML. In addition to an CD34+/CD38−(ALDHhigh) cell population, all three patients had an additional CD34+/CD38− population with lower ALDH activity (ALDHint), identical to that of LSC. Importantly, this latter CD34+/CD38−(ALDHint) cell population was not present before AML transformation in any patient. In 2 of 2 patients studied, the CD34+/CD38−(ALDHint) cell population expressed JAK2 V617F with an allele burden comparable to the CD34+/CD38−(ALDHhigh) population. Significantly, in one of the patients, who had acquired a 5q- deletion, the chromosomal abnormality was present only in the CD34+CD38−(ALDHint) cell population. In conclusion, these data support the contention that in PV and PMF, JAK2 V617F is acquired in a primitive CD34+CD38−(ALDHhigh) HSC. In addition, in contrast to PV and PV/MF, expansion of total CD34+ cells in PMF was also accompanied by differential expansion of this primitive CD34+CD38−(ALDHhigh) population. Furthermore, AML transformation in PV and PMF appeared to occur in an LSC, which had an aberrant ALDH activity pattern (ALDHint) identical to that seen in de novo AML LSC. The 5q- deletion, a molecular marker characteristic of AML, also tracked with the LSC cell population but not with the CD34+CD38−(ALDHhigh) cell population, while JAK2 V617F was equivalently expressed by both cell populations. This observation supports the contention that with respect to AML transformation in PV and PMF, JAK2 V617F is essentially a passenger lesion. Disclosures: No relevant conflicts of interest to declare.

Materialart: Online-Ressource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V118.21.613.613

RVK:

XA 33000

RVK:

XA 10000

Sprache: Englisch

Verlag: American Society of Hematology

Publikationsdatum: 2011

ZDB Id: 1468538-3

ZDB Id: 80069-7

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Single Cell Analysis Of JAK2V617F Positive MPN Stem/Progenitor Cells In Chronic Phase and Leukemic Transformation

Gerber, Jonathan M. ; Williams, Donna M. ; Rogers, Ophelia ; [weitere]

American Society of Hematology ; 2013

In: Blood Vol. 122, No. 21 ( 2013-11-15), p. 1609-1609

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In: Blood, American Society of Hematology, Vol. 122, No. 21 ( 2013-11-15), p. 1609-1609

Kurzfassung: Essential thrombocytosis (ET), polycythemia vera (PV), and myelofibrosis (MF) share the JAK2V617F mutation, but differ with regard to clinical phenotype, rate of disease progression, and risk of leukemic transformation. Variation in the JAK2V617F neutrophil allele burden does not account for these observed differences in clinical behavior. We therefore investigated JAK2V617Fallele burden and genotype in the stem/progenitor populations of MPN patients in chronic and leukemic phases. Methods We studied 39 JAK2V617Fpositive MPN patients evaluated between 2005 and 2013, including 8 patients at leukemic transformation. CD34+ cells isolated from peripheral blood were flow sorted based on CD34, CD38, and the stem cell marker aldehyde dehydrogenase (ALDH). JAK2V617F allele percentages were calculated using an allele specific real time PCR assay. Cells were sorted into 96 well plates and single cell JAK2V617Fgenotypes were obtained using a nested PCR assay. Additional genomic lesions and chromosomal copy number variation were investigated in the sorted fractions when applicable. Results In all MPN cases, the JAK2V617F mutation was detected in the CD34+CD38-ALDHhigh fraction – the same population in which the normal hematopoietic stem cell resides. Quantitative JAK2V617F allele burdens in this fraction were highest in MF 〉 PV 〉 ET. Single cell JAK2V617F genotyping revealed a higher proportion of JAK2V617F-/- cells in ET and PV than in MF, but JAK2V617F-/- cells were detectable in the CD34+CD38-ALDHhigh fraction of all cases. In most cases of PV and MF, this fraction contained a mixture of JAK2V617F-/-, JAK2V617F-/+, and JAK2V617F+/+ cells. Additional chronic phase lesions (including mutations of ASXL1 & TET2) were also found in the CD34+CD38-ALDHhighfraction. Two patterns of leukemic transformation were observed. The first pattern (in 7/8 patients) was identical to that of de novo AML (Gerber JM, Blood 2012), with emergence of a unique CD34+CD38-ALDHint fraction, which was clonal by JAK2V617F genotype and contained leukemia-specific lesions (e.g., 5q deletion). In contrast, the residual CD34+CD38-ALDHhigh population lacked the leukemic abnormalities and was oligoclonal with respect to JAK2V617F. In 3 of these AML cases, the CD34+CD38-ALDHint fraction was JAK2V617F-/-, while the JAK2V617F mutation remained detectable in the CD34+CD38-ALDHhigh fraction. Single cell genotyping performed during the leukemic phase of a PV patient revealed only JAK2V617F-/- CD34+CD38-ALDHint cells but identified JAK2V617F-/-, JAK2V617F-/+, and JAK2V617F+/+ CD34+CD38-ALDHhigh cells; JAK2V617F levels were barely detectable in the progenitors and neutrophils during this leukemic phase. Upon achievement of complete remission from AML, high JAK2V617F allele burdens were then found in the progenitors and neutrophils, as well as in the CD34+CD38-ALDHhigh fraction. A second pattern of leukemic transformation was seen in one patient, in whom no CD34+CD38-ALDHint population was present. The CD34+CD38-ALDHhigh population was expanded in this case and harbored JAK2V617F+/+ positive cells with the leukemia-specific lesion. Conclusions Unlike CML, in which the BCR/ABL oncogene is typically present in the majority of CD34+CD38-ALDHhigh cells at diagnosis (Gerber JM, Am J Hematol 2011), the JAK2V617F mutation was present in only a minority of CD34+CD38-ALDHhigh cells in JAK2V617F positive ET and PV. Moreover JAK2V617F-/- cells were detected even in longstanding, advanced phase PV and MF. Lower JAK2V617F clonal burdens in the primitive CD34+CD38-ALDHhigh compartment as compared to neutrophils in most cases of MPN suggest that the JAK2V617F mutation does not confer a significant advantage at the stem cell level and that other genetic lesions may drive expansion of this population. JAK2V617F negative leukemias occur in about 35% of PV patients, apparently arising from the residual JAK2V617F negative CD34+CD38-ALDHhigh reservoir. We conclude that primitive stem/progenitor cells are mosaic with regard to JAK2V617F mutation status in the majority of MPN patients. Furthermore, acquisition of JAK2V617F, development of JAK2V617F homozygosity, and accrual of other acquired lesions in chronic phase MPN all occur in the primitive CD34+CD38-ALDHhigh compartment. Lesions specific to post MPN AML segregate to a distinct CD34+CD38-ALDHint population. Disclosures: Jones: Cytomedix: Patent holder for Aldefluor reagent, which is licensed by Cytomedix. This relationship is managed by the Johns Hopkins Office of Policy Coordination., Patent holder for Aldefluor reagent, which is licensed by Cytomedix. This relationship is managed by the Johns Hopkins Office of Policy Coordination. Patents & Royalties.

Materialart: Online-Ressource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V122.21.1609.1609

RVK:

XA 33000

RVK:

XA 10000

Sprache: Englisch

Verlag: American Society of Hematology

Publikationsdatum: 2013

ZDB Id: 1468538-3

ZDB Id: 80069-7

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