Morphological, clinical, and molecular profiling of post-polycythemia vera accelerated/blast phase occurring with and without antecedent secondary myelofibrosis

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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Abstract

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.
伴有或不伴有继发性骨髓纤维化的多发性红细胞增多症后加速期/播散期的形态、临床和分子谱分析
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。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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