Clonal Evolution of Der(1;7)(q10;p10) Myeloid Neoplasms

Abstract

Background der(1;7)(q10;p10) (der(1;7)) is a recurrent unbalanced translocation found in 1.5~6% of MDS and AML patients. It is caused by rearrangement of centromere alpha satellites in chromosomes 1 and 7 resulting in an amplification of 1q and a deletion of 7q. Previous studies comparing der(1;7)(+) cases to those with other lesions of 7q loss (-7/del(7q)) demonstrated a higher frequency of RUNX1 mutations, no TP53 mutations and a better prognosis for der(1;7) cases suggesting that der(1;7)(+) may define a unique entity of myeloid neoplasms (MN). However, with the lack of comprehensive molecular characterization using unbiased platforms such as whole genome/exome sequencing, the entire picture of der(1;7)(+) MN still remains unclear. Methods We enrolled a total of 148 MN cases harboring der(1;7) and an additional 3,238 der(1;7)(−) MN cases: -7/del(7q), +1q and ‘OTHER’. We first analyzed paired tumor/normal DNA from 26 der(1;7) cases using whole exome sequencing (WES), followed by targeted-capture sequencing of 329 genes, including those commonly mutated in MN and others newly identified in der(1;7) cases in WES. To investigate the origin of der(1;7)(+) MN, we also enrolled 11,234 healthy individuals to evaluate der(1;7) in clonal hematopoiesis, in which der(1;7) was detected on based on SNP array-based karyotyping. Results In accordance with previous reports, der(1;7) MDS cases showed an improved overall survival (OS) compared to -7/del(7q) MDS cases (Hazard Ratio (HR) =0.71, p=0.098), which however, was shorter than OS in +1q (HR=1.36, p=0.11) and ‘OTHER’ (HR=1.8, p<0.001) MDS cases. der(1;7)(+) cases were characterized by very high mortality from infection (45.5%), while mortality from disease progression was less common (36.4%), showing a sharp contrast to -7/del(7q) and ‘OTHER’ MDS cases which had 13.9% and 10.8% infection-related deaths, and 72.3% and 76.9% disease progression, respectively (Figure 1A.). WES in 26 der(1;7)(+) cases revealed a novel transcription factor, MYB in 2 cases, which was found in 18 (12%) of 148 der(1;7) cases using targeted-capture sequencing. der(1;7)(+) cases were characterized by high frequency of mutations in transcription factors, including RUNX1 (37.8%), GATA2 (12%), ETV6 (13%), and BCOR (14%) (Figure 1B.), which were significantly more frequent in der(1;7) cases than other sub-types (Odds Ratio (OR)<6)(Figure 1B.). Very high frequency of ETNK1 mutations is highly unique to der(1;7)(+) cases (18.9%) compared to that in other cases (<10%). High frequency of mutations in transcription factors seems to be a unique feature of der(1;7)(+) cases. Trisomy 8 and del(20q) CNAs were also common in der(1;7) cases (16% and 21%, respectively). Together with DNMT3A and del(20q), der(1;7) showed the highest variant allele frequency (VAF), suggesting the early origin of these lesions. Additionally, we identified der(1;7) in 6 out of 11,234 healthy individuals using SNP array-based highly sensitive copy number detection, of which 4 died from MDS, suggesting that der(1;7)(+) clonal hematopoiesis might be the origin of MDS in these cases. Moreover, we also analyzed longitudinal samples from 9 der(1;7)(+) cases using duplex-sequencing, der(1;7) showed consistently high VAF, further supporting that der(1;7) tended to represent the major clone. Conclusion Showing a unique set of co-mutation pattern and clinical features, der(1;7) MN defines a distinct subset of myeloid neoplasms, which may originate from der(1;7)(+) clonal hematopoiesis. der(1;7)(+) patients were at higher risk of life-threatening infection, which needs to be carefully prevented and monitored during their clinical course.