Identification of clonal immunoglobulin λ light-chain gene rearrangements in AL amyloidosis using next-generation sequencing.

Amyloid light-chain (AL) amyloidosis is caused by deposition of abnormally folded clonal immunoglobulin (Ig) light chains made by malignant plasma cells in the bone marrow (BM), leading to multiorgan dysfunction. However, little is known of the factors that regulate the organ tropism of amyloid deposition in this disease. We aimed to identify the clonal composition of Igλ light-chain variable region (IGLV) genes in BM cells in patients with AL amyloidosis using next-generation sequencing. Based on our definition of the clonal IGLV rearrangement (dominant clone >2.5%, dominant cluster >5%), we identified clonal IGLV in 33 of 38 patients with AL amyloidosis (86.8%), 6 of 9 with monoclonal gammopathy of undetermined significance (67%), and 7 of 7 with multiple myeloma (100%). The clones in AL amyloidosis were significantly smaller than those in multiple myeloma (p < 0.01) but comparable to those in monoclonal gammopathy of undetermined significance. Importantly, in patients with AL amyloidosis, the difference in involved and uninvolved free light chains was not correlated with the clonal size of BM plasma cells in our repertoire analysis using NGS. In summary, the clonal composition of IGLV genes in the BM was successfully identified in most patients with AL amyloidosis using NGS. The clonal size of plasma cells in the BM is small, and small malignant clones of plasma cells may secrete free light chi and cause light chain depositions in AL amyloidosis.

Genetic and transcriptional landscape of plasma cells in POEMS syndrome.

POEMS syndrome is a rare paraneoplastic disease associated with monoclonal plasma cells; however, the pathogenic importance of plasma cells remains unclear. We performed comprehensive genetic analyses of plasma cells in 20 patients with POEMS syndrome. Whole exome sequencing was performed in 11 cases and found a total of 308 somatic mutations in 285 genes. Targeted sequencing was performed in all 20 cases and identified 20 mutations in 7 recurrently mutated genes, namely KLHL6, LTB, EHD1, EML4, HEPHL1, HIPK1, and PCDH10. None of the driver gene mutations frequently found in multiple myeloma (MM) such as NRAS, KRAS, BRAF, and TP53 was detected. Copy number analysis showed chromosomal abnormalities shared with monoclonal gammopathy of undetermined significance (MGUS), suggesting a partial overlap in the early development of MGUS and POEMS syndrome. RNA sequencing revealed a transcription profile specific to POEMS syndrome when compared with normal plasma cells, MGUS and MM. Unexpectedly, disease-specific VEGFA expression was not increased in POEMS syndrome. Our study illustrates that the genetic and transcriptional profiles of plasma cells in POEMS syndrome are distinct from MM and MGUS, indicating unique function of clonal plasma cells in its pathogenesis.

Clonal immunoglobulin λ light-chain gene rearrangements detected by next generation sequencing in POEMS syndrome.

Polyneuropathy, organomegaly, endocrinopathy, M-protein, and skin changes (POEMS) syndrome is a rare plasma cell dyscrasia characterized by polyneuropathy, organomegaly, endocrinopathy, extravascular fluid overload, M protein, and a myriad of skin changes. The pathogenesis is poorly understood, but monoclonal plasma cells are λ-restricted and these immunoglobulin λ light chain variable (IGLV) region genes are derived from only two germlines, either IGLV1-44 or 1-40. Here we analyzed the clonal IGLV gene rearrangements of genomic DNA samples of bone marrow mononuclear cells using next-generation sequencing (NGS) to understand the clonal composition of IGLV genes in patients with POEMS syndrome (n = 30). The dominant IGLV gene rearrangement of POEMS syndrome-specific germline sequences were significantly increased in 11 POEMS patients (36.7%; IGLV1-44: n = 9, IGLV1-40: n = 2). In some cases, IGLV gene rearrangement clone was not detected as significant increase but was detected using cDNA samples by heteroduplex (HD) analysis and Sanger sequencing, suggesting that the quite small number of monoclonal plasma cells may produce large quantity of mRNA of monoclonal proteins. However, significant increase of dominant clone sizes was not directly linked to the initial disease status. On the other hand, in cases with significantly increased dominant clones, they decreased and increased accompanying with disease remission and relapse. These data demonstrate that monoclonal plasma cells are related to the pathogenesis of POEMS syndrome.

Efficacy and Long-Term Outcomes of Autologous Stem Cell Transplantation in POEMS Syndrome: A Nationwide Survey in Japan.

POEMS syndrome is a rare plasma cell dyscrasia presenting with polyneuropathy, λ-type M protein, vascular endothelial growth factor elevation, and systemic manifestations. The standard treatment has not been established, but autologous stem cell transplantation (ASCT) has exhibited effectiveness in this syndrome. However, the efficacy and long-term outcomes of ASCT have not been systematically studied. To clarify the efficacy and long-term outcomes of ASCT-treated patients in Japan, we performed a multicenter retrospective study assessing the clinical course of patients registered to the Japan Society for Hematopoietic Cell Transplantation Transplant Registry Unified Management Program (TRUMP) database. Between January 2000 and December 2011, 95 patients (58 men) were registered to the TRUMP database with a median age of 53 years (range, 28 to 72). The conditioning regimen was melphalan in 93 of 94 patients (99%), and 69 patients (74.2%) received a melphalan dose ≥ 200 mg/m2. The median CD34 cell dose was 2.47 × 106/kg (range, .31 to 20). After ASCT, patient performance status was dramatically improved (Eastern Cooperative Oncology Group performance status 0 to 1: 20.0% versus 71.6%, P < .0001). Over a median follow-up of 46.6 months 10 patients died, and 5-year overall survival was 88.8% (n = 95). Progression-free survival at 3 years was 78.3% (n = 70; median follow-up, 54.4 months). These data support the promising role of ASCT in patients with POEMS syndrome for both prolonging survival and improving quality of life. However, disease recurrence remains a major issue for long-term survivors.

Long-term efficacy of partial splenic embolization for the treatment of steroid-resistant chronic immune thrombocytopenia.

Thrombopoietin-receptor agonists have been recently introduced for a second-line treatment of immune thrombocytopenia (ITP). Splenectomy has tended to be avoided because of its complications, but the response rate of splenectomy is 60-80% and it has still been considered for steroid-refractory ITP. We performed partial splenic embolization (PSE) as an alternative to splenectomy. Between 1988 and 2013, 91 patients with steroid-resistant ITP underwent PSE at our hospital, and we retrospectively analyzed the efficacy and long-term outcomes of PSE. The complete response rate (CR, platelets > 100 × 109/L) was 51% (n = 46), and the overall response rate (CR plus response (R), > 30 × 109/L) was 84% (n = 76). One year after PSE, 70% of patients remained CR and R. The group with peak platelet count after PSE ≥ 300 × 109/L (n = 29) exhibited a significantly higher platelet count than the group with platelet count < 300 × 109/L (n = 40) at any time point after PSE. The failure-free survival (FFS) rates at 1, 5, and 10 years were 78, 56, and 52%, respectively. Second PSE was performed in 20 patients who relapsed (n = 14) or had no response to the initial PSE (n = 6), and the overall response was achieved in 63% patients. There were no PSE-related deaths. These results indicate that PSE is a safe and effective alternative therapy to splenectomy for patients with steroid-resistant ITP as it generates long-term, durable responses.

Safety and Efficacy of Granulocyte Colony-Stimulating Factor Monotherapy for Peripheral Blood Stem Cell Collection in POEMS Syndrome.

Although autologous stem cell transplantation can achieve excellent responses in patients with POEMS syndrome, the optimal regimen for peripheral blood stem cell (PBSC) collection is still controversial. We retrospectively investigated the safety and efficacy of 41 PBSC collecting procedures in 37 patients with POEMS syndrome. PBSC mobilization was performed using cyclophosphamide + granulocyte colony-stimulating factor (G-CSF) (CG, n = 14) or G-CSF alone (G, n = 27). Twelve (85.7%) patients in the CG group and all (100%) patients in the G group received induction chemotherapy before PBSC collection. The proportions of good mobilizers (≥2.0 × 106 CD34+ cells/kg) were comparable between the 2 groups (CG versus G: 78.6% versus 70.4%, P = .71). Two (14.3%) patients in the CG group developed severe capillary leak symptoms during the PBSC mobilization period, whereas no patient in the G group experienced severe adverse events. Appropriate induction therapies followed by the G-CSF monotherapy compose an optimal strategy for PBSC collection.

Possible role of intragenic DNA hypermethylation in gene silencing of the tumor suppressor gene NR4A3 in acute myeloid leukemia.

Expression of the tumor suppressor gene NR4A3 is silenced in the blasts of acute myeloid leukemia (AML), irrespective of the karyotype. Although the transcriptional reactivation of NR4A3 is considered to have a broad-spectrum anti-leukemic effect, the therapeutic modalities targeting this gene have been hindered by our minimal understanding of the transcriptional mechanisms regulating its expression, particularly in human AML. Here we show the role of intragenic DNA hypermethylation in reducing the expression of NR4A3 in AML. Bisulfite sequencing analysis revealed that CpG sites at the intragenic region encompassing exon 3 of NR4A3, but not the promoter region, are hypermethylated in AML cell lines and primary AML cells. A DNA methyltransferase inhibitor restored the expression of NR4A3 following a reduction in DNA methylation levels at intragenic CpG sites. The in silico data revealed an enrichment of H3K4me1 and H2A.Z at exon 3 of NR4A3 in human non-malignant cells but that was excluded specifically in leukemia cells with CpG hypermethylation. This suggests that exon 3 represents a functional regulatory element involved in the transcriptional regulation of NR4A3. Our findings improve the current understanding of the mechanism underlying NR4A3 silencing and facilitate the development of NR4A3-targeted therapy.