Laura Pelagatti, Giulia Pozzi, Samuele Cortellazzi, Cristina Mancini, Eugenia Martella, L. Pagliaro, Mariateresa Giaimo, Giovanni Roti, M. Vitale, C. Carubbi, E. Masselli
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In this study, we sought to shed light on the morphological, clinical, and molecular features that may differentiate BP arising from a direct transition from the PV stage (post-PV-BP) from those evolving through a diagnosis of post-PV myelofibrosis (post-PV-MF-BP). We retrospectively analyzed a cohort of post-PV-BP (n=5) and post-PV-MF-BP (n=5). We found that BP arising from PV directly displayed significantly lower leukocyte count (median 2.93 × 109/L, range: 2.30–39.40 vs. median 41.05 × 109/L, range: 5.46–58.01; P=0.03), and spleen diameter (14.0 cm, range: 11.5–20.0 vs. 25.5 cm, range: 18–26; P=0.03) as compared to those experiencing an overt fibrotic stage. The most striking differences emerged from bone marrow (BM) morphological analysis: all post-PV-BP were characterized by significantly higher cellularity (median 70%, range: 60%–98% vs. 28%, range: 2%–41%, P=0.0245), lower degree of fibrosis (fibrosis grade 1 vs. fibrosis grade 3 in all cases, P=0.008) and dysplastic features involving all three lineages, most prominently the erythroid and megakaryocytic compartment. Next-generation sequencing (NGS) analysis revealed that post-PV-BP cases were enriched in mutations located in genes involved in DNA methylation such as DNMT3A, IDH1/2, and TET2 (45% vs. 15%, P=0.038). With all the limits of the small number of patients for each cohort, our data suggest that BPs that arise directly from PV present a peculiar phenotype, consistent with the molecular signature of the disease, typified by mutations of genes occurring with a high frequency in Myelodysplastic Syndromes (MDS) and MDS/MPN. 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We found that BP arising from PV directly displayed significantly lower leukocyte count (median 2.93 × 109/L, range: 2.30–39.40 vs. median 41.05 × 109/L, range: 5.46–58.01; P=0.03), and spleen diameter (14.0 cm, range: 11.5–20.0 vs. 25.5 cm, range: 18–26; P=0.03) as compared to those experiencing an overt fibrotic stage. The most striking differences emerged from bone marrow (BM) morphological analysis: all post-PV-BP were characterized by significantly higher cellularity (median 70%, range: 60%–98% vs. 28%, range: 2%–41%, P=0.0245), lower degree of fibrosis (fibrosis grade 1 vs. fibrosis grade 3 in all cases, P=0.008) and dysplastic features involving all three lineages, most prominently the erythroid and megakaryocytic compartment. Next-generation sequencing (NGS) analysis revealed that post-PV-BP cases were enriched in mutations located in genes involved in DNA methylation such as DNMT3A, IDH1/2, and TET2 (45% vs. 15%, P=0.038). 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引用次数: 0
摘要
多发性红细胞增多症(PV)是一种 JAK2 基因突变的骨髓增殖性肿瘤(MPN),其特征是克隆性红细胞增多症和转化为急性髓性白血病(AML)的内在风险,即所谓的爆炸期(BP)疾病,这种疾病的典型特征是预后不良。在骨髓增生性白血病中,向骨髓增生性白血病的演变一般是通过明显的纤维化进展进行的,即骨髓纤维化(MF)后阶段。然而,多达约 50% 的患者也可能会从骨髓增生性白血病直接转变为白血病。在本研究中,我们试图揭示可将从 PV 阶段直接转变而来的 BP(PV-BP 后)与通过诊断 PV 后骨髓纤维化而演变而来的 BP(PV-MF-BP 后)区分开来的形态学、临床和分子特征。我们回顾性地分析了一组后PV-BP(5人)和后PV-MF-BP(5人)。我们发现,由 PV 直接引起的 BP 的白细胞计数明显较低(中位数为 2.93 × 109/L,范围:2.30-39.40;中位数为 41.05 × 109/L,范围:5.46-58.01;中位数为 2.93 × 109/L,范围:2.30-39.40):5.46-58.01;P=0.03)和脾脏直径(14.0 厘米,范围:11.5-20.0 vs. 25.5 厘米,范围:18-26;P=0.03)。骨髓(BM)形态学分析显示了最显著的差异:所有PV-BP后患者的特点都是细胞率显著增高(中位数70%,范围:60%-98% vs. 28%,范围:2%-41%,P=0.0245),纤维化程度较低(所有病例中纤维化1级 vs. 纤维化3级,P=0.008),以及涉及所有三个系的发育不良特征,其中最突出的是红系和巨核细胞系。下一代测序(NGS)分析显示,PV-BP 后病例富含 DNA 甲基化相关基因的突变,如 DNMT3A、IDH1/2 和 TET2(45% 对 15%,P=0.038)。尽管每个队列中的患者人数较少,但我们的数据表明,由 PV 直接引起的 BPs 表现出一种特殊的表型,与该疾病的分子特征一致,骨髓增生异常综合征(MDS)和 MDS/MPN 中出现频率较高的基因突变是其典型特征。要将这些观察结果转化为可靠的证据,为治疗选择提供建议,还需要在更大的群体中开展进一步的研究。
Morphological, clinical, and molecular profiling of post-polycythemia vera accelerated/blast phase occurring with and without antecedent secondary myelofibrosis
Polycythemia vera (PV) is a JAK2-mutated myeloproliferative neoplasm (MPN) characterized by clonal erythrocytosis and an intrinsic risk of transformation into acute myeloid leukemia (AML), known as blast-phase (BP) disease, a condition typified by dismal prognosis. In PV, the evolution to BP generally occurs through an overt fibrotic progression, represented by the post-PV myelofibrotic (MF) stage. However, direct leukemic transformation from PV may also occur in up to ~50% of patients. In this study, we sought to shed light on the morphological, clinical, and molecular features that may differentiate BP arising from a direct transition from the PV stage (post-PV-BP) from those evolving through a diagnosis of post-PV myelofibrosis (post-PV-MF-BP). We retrospectively analyzed a cohort of post-PV-BP (n=5) and post-PV-MF-BP (n=5). We found that BP arising from PV directly displayed significantly lower leukocyte count (median 2.93 × 109/L, range: 2.30–39.40 vs. median 41.05 × 109/L, range: 5.46–58.01; P=0.03), and spleen diameter (14.0 cm, range: 11.5–20.0 vs. 25.5 cm, range: 18–26; P=0.03) as compared to those experiencing an overt fibrotic stage. The most striking differences emerged from bone marrow (BM) morphological analysis: all post-PV-BP were characterized by significantly higher cellularity (median 70%, range: 60%–98% vs. 28%, range: 2%–41%, P=0.0245), lower degree of fibrosis (fibrosis grade 1 vs. fibrosis grade 3 in all cases, P=0.008) and dysplastic features involving all three lineages, most prominently the erythroid and megakaryocytic compartment. Next-generation sequencing (NGS) analysis revealed that post-PV-BP cases were enriched in mutations located in genes involved in DNA methylation such as DNMT3A, IDH1/2, and TET2 (45% vs. 15%, P=0.038). With all the limits of the small number of patients for each cohort, our data suggest that BPs that arise directly from PV present a peculiar phenotype, consistent with the molecular signature of the disease, typified by mutations of genes occurring with a high frequency in Myelodysplastic Syndromes (MDS) and MDS/MPN. Further studies in larger cohorts are warranted to translate these observations into robust evidence that may advise therapeutic choices.
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