森田 薫

Chronic graft-versus-host disease (cGVHD) is a multiorgan syndrome with clinical features resembling those of autoimmune diseases. Thus, understanding commonalities in the pathophysiology of cGVHD and autoimmune diseases, such as the presence of disease-risk HLA alleles, is imperative for developing novel therapies against cGVHD. Alloantibodies against H-Y antigens encoded on the Y-chromosome are well-described risk factors for cGVHD in female-to-male transplantation. However, since H-Y antigens generally localize intracellularly in the male reproductive organs, how they emerge at affected organ levels remains elusive. Here, by analyzing nationwide registry data stratified according to donor-recipient sex, we identified specific HLA class II alleles that contributed to susceptibility to male cGVHD following transplantation from HLA-identical female siblings [HLA-DRB1*15:02: hazard ratio, 1.28; 95% confidence interval, 1.03-1.58; P = 0.025]. Co-expression of HLA-DRB1*15:02 efficiently transported full-length H-Y antigens, especially DBY, to the surface. The presence of alloantibodies against DBY/HLA class II complexes significantly predicted the occurrence of cGVHD [68.8% vs. 31.7% at 1 year, P = 0.002]. Notably, the ability of HLA class II molecules to transport and present DBY to alloantibodies was closely associated with the susceptibility of HLA class II alleles to cGVHD. DBY specifically colocalized with HLA class II molecules on the dermal vascular endothelium in cGVHD and provoked complement-dependent cytotoxicity. Moreover, these complexes were observed in some male leukemic cells. Altogether, these findings suggest that vascular endothelial cells facilitate alloantibody-mediated cGVHD, and highlight that alloantibodies against DBY/HLA class II complexes could be common targets for cGVHD and a graft-versus-leukemia effect.

Nucleophosmin1 (NPM1) mutations are the most frequently detected gene mutations in acute myeloid leukemia (AML) and are considered a favorable prognostic factor. We retrospectively analyzed the prognosis of 605 Japanese patients with de novo AML, including 174 patients with NPM1-mutated AML. Although patients with NPM1-mutated AML showed a high remission rate, this was not a favorable prognostic factor for overall survival (OS); this is contrary to generally accepted guidelines. Comprehensive gene mutation analysis showed that mutations in codon R882 of DNA methyltransferase 3A (DNMT3AR882 mutations) were a strong predicative factor indicating poor prognosis in all AML (p < 0.0001) and NPM1-mutated AML cases (p = 0.0020). Furthermore, multivariate analysis of all AML cases showed that DNMT3AR882 mutations and the co-occurrence of internal tandem duplication in FMS-like tyrosine kinase 3 (FLT3-ITD), NPM1 mutations, and DNMT3AR882 mutations (triple mutations) were independent factors predicting a poor prognosis related to OS, with NPM1 mutations being an independent factor for a favorable prognosis (hazard ratios: DNMT3AR882 mutations, 1.946; triple mutations, 1.992, NPM1 mutations, 0.548). Considering the effects of DNMT3AR882 mutations and triple mutations on prognosis and according to the classification of NPM1-mutated AML into three risk groups based on DNMT3AR882 /FLT3-ITD genotypes, we achieved the improved stratification of prognosis (p < 0.0001). We showed that DNMT3AR882 mutations are an independent factor for poor prognosis; moreover, when confounding factors that include DNMT3AR882 mutations were excluded, NPM1 mutations were a favorable prognostic factor. This revealed that ethnological prognostic discrepancies in NPM1 mutations might be corrected through prognostic stratification based on the DNMT3A status.

Triplet regimens such as lenalidomide, bortezomib, and dexamethasone (RVd) or thalidomide, bortezomib, and dexamethasone (VTd) are standard induction therapies for transplant-eligible newly diagnosed multiple myeloma (NDMM) patients. The addition of daratumumab to RVd and VTd has been investigated in the GRIFFIN and CASSIOPEIA trials, respectively, resulting in improvement in the rate of minimal residual disease (MRD) negativity. In this study, we conducted a cost-effectiveness analysis with a 10-year time horizon to compare first-line and second-line use of daratumumab for transplant-eligible NDMM patients. Since long-term follow-up data for these clinical trials are not yet available, we developed a Markov model that uses MRD status to predict PFS. Daratumumab was used either in the first-line setting in combination with RVd or VTd, or in the second-line setting with carfilzomib plus dexamethasone (Kd). Quality-adjusted life years (QALYs) and incremental cost-effectiveness ratios (ICERs) were calculated from a Japanese and US payer perspective. In the Japanese analysis, D-RVd showed higher QALYs (5.43 vs 5.18) and lower costs (\ 64,479,793 vs 71,287,569) compared to RVd, and D-VTd showed higher QALYs (5.67 vs 5.42) and lower costs (\ 43,600,310 vs \ 49,471,941) compared to VTd. Similarly, the US analysis demonstrated dominance of a strategy incorporating daratumumab in first-line treatment regimens. Given that overall costs are reduced and outcomes are improved when daratumumab is used as part of a first-line regimen, the economic analysis indicates that addition of daratumumab to first-line RVd and VTd regimens is a dominant strategy compared to reserving its use for the second-line setting.

Recent studies have reported that measurable residual disease (MRD) analysis using NPM1 mutations helps determine whether allogeneic hematopoietic stem cell transplantation (allo-HSCT) is indicated in acute myeloid leukemia (AML) patients. However, the optimal timing and cutoff value for measuring MRD using genomic DNA remain undetermined. This study aimed to investigate the optimal timing and cutoff value to ascertain the value of NPM1 mutation in MRD assessment. NPM1-mutated MRD was quantified by real-time polymerase chain reaction of bone marrow samples from 56 patients with NPM1-positive AML who achieved hematological remission. The area under the receiver-operating characteristic curve was greatest when MRD was assessed after two courses of post-remission therapy with a cutoff value of 0.010% (specificity, 68.4%; sensitivity, 87.0%). Patients whose MRD was below the cutoff value throughout the course of treatment had significantly better overall survival and relapse-free survival rates. Of the 33 patients who did not undergo transplantation during the first remission, all of the 11 who were never MRD-negative at any point experienced a relapse. Evaluating MRD with a cutoff value of 0.010% after two courses of post-remission therapy helps predict prognosis and determine the indication for allo-HSCT.

Gastrointestinal acute graft-versus-host disease (aGVHD) is a life-threatening complication that requires urgent and appropriate treatment. An endoscopic examination is considered the gold-standard for the diagnosis of gastrointestinal aGVHD. However, the prognostic value of endoscopy remains controversial. This study aimed to investigate the usefulness of pre-treatment macroscopic and histopathologic findings of upper and lower endoscopy with respect to predicting steroid-resistant gastrointestinal aGVHD. This retrospective study included 44 patients with gastrointestinal aGVHD who underwent endoscopy at the time of diagnosis and received systemic steroid treatment at our hospital. We graded the macroscopic and histopathologic findings using a previously validated 4-point scale. Univariate analyses of endoscopic grading revealed that a higher macroscopic grade in the ileum and higher histopathologic grades in the ileum and colon predicted a poor response to systemic steroids. In a multivariate analysis, macroscopic and histopathologic severity in the ileum were identified as significant prognostic factors that indicated resistance to steroid therapy. The presence of granulation tissue was also a strong independent predictor of resistance to steroid therapy. These findings suggest that both macroscopic and histopathologic findings in the ileum may be useful predictors of steroid-refractory gastrointestinal aGVHD and can indicate an immediate need to develop a second-line strategy.

BACKGROUND: A treatment strategy is needed for hemodialysis-dependent patients with end-stage renal disease who have relapsed/refractory diffuse large B-cell lymphoma (DLBCL). We examined the feasibility of salvage chemotherapy followed by autologous stem-cell transplantation (ASCT) and busulfan as a conditioning regimen. PATIENTS AND METHODS: We provided a patient with refractory DLBCL who was receiving hemodialysis with modified salvage chemotherapies that were based on the mechanism of drug pharmacokinetics and an evaluation of the pharmacokinetics of busulfan. After chemotherapy, the patient underwent ASCT. RESULTS: The regimen was successfully administered without adverse events. CONCLUSION: Chemotherapy followed by ASCT using a conditioning regimen of reduced melphalan and pharmacokinetically targeted busulfan is a promising strategy for treating patients with relapsed or refractory DLBCL who also have end-stage renal disease and are receiving hemodialysis.

TAFRO syndrome, a rare systemic inflammatory disease, can lead to multiorgan failure without appropriate treatment. Although thrombocytopenia is frequently seen in patients with TAFRO syndrome, little is known about its pathogenesis. Moreover, while recent studies have reported the presence of an anterior mediastinal mass in some patients, the pathological status of this remains unclear. Here, we report a case of fatal bleeding in a patient with TAFRO syndrome accompanied by an anterior mediastinal mass. A 55-year-old female was transferred to our hospital with a 2-week history of fever, epistaxis, and dyspnea. Laboratory tests revealed severe thrombocytopenia, computed tomography (CT) showed pleural effusions, and bone marrow biopsy revealed reticulin myelofibrosis. We suspected TAFRO syndrome, but the CT scan showed an anterior mediastinal mass that required a biopsy to exclude malignancy. She soon developed severe hemorrhagic diathesis and died of intracranial hemorrhage despite intensive treatment. She had multiple autoantibodies against platelets, which caused platelet destruction. An autopsy of the mediastinal mass revealed fibrous thymus tissues with infiltration by plasma cells. Our case suggests that thrombocytopenia could be attributed to antibody-mediated destruction and could be lethal. Hence, immediate treatment is imperative in cases of severe thrombocytopenia, even when accompanied by an anterior mediastinal mass.

Systemic lupus erythematosus (SLE) is a prototypical autoimmune disease characterized by multiorgan inflammation induced by autoantibodies. Early growth response gene 2 (Egr2), a transcription factor essential for T-cell anergy induction, controls systemic autoimmunity in mice and humans. We have previously identified a subpopulation of CD4+ regulatory T cells, CD4+CD25-LAG3+ cells, that characteristically express both Egr2 and LAG3 and control mice model of lupus via TGF-β3 production. However, due to the mild phenotype of lymphocyte-specific Egr2-deficient mice, the presence of an additional regulator has been speculated. Here, we show that Egr2 and Egr3 expressed in T cells cooperatively prevent humoral immune responses by supporting TGF-β3 secretion. T cell-specific Egr2/Egr3 double-deficient (Egr2/3DKO) mice spontaneously developed an early onset lupus-like disease that was more severe than in T cell-specific Egr2-deficient mice. In accordance with the observation that CD4+CD25-LAG3+ cells from Egr2/3DKO mice completely lost the capacity to produce TGF-β3, the excessive germinal center reaction in Egr2/3DKO mice was suppressed by the adoptive transfer of WT CD4+CD25-LAG3+ cells or treatment with a TGF-β3-expressing vector. Intriguingly, latent TGF-β binding protein (Ltbp)3 expression maintained by Egr2 and Egr3 was required for TGF-β3 production from CD4+CD25-LAG3+ cells. Because Egr2 and Egr3 did not demonstrate cell intrinsic suppression of the development of follicular helper T cells, Egr2- and Egr3-dependent TGF-β3 production by CD4+CD25-LAG3+ cells is critical for controlling excessive B-cell responses. The unique attributes of Egr2/Egr3 in T cells may provide an opportunity for developing novel therapeutics for autoantibody-mediated diseases including SLE.

SLE is an autoimmune disease characterized by multiple organ damage mediated by autoantibodies and autoreactive T cells. Approaches utilizing genetically engineered mice as well as genome-wide association studies have identified a number of lupus-related genes. Recently, early growth response gene 2 (Egr2) and Egr3 have emerged as regulatory molecules that suppress excessive immune responses. Mice deficient for Egr2 and Egr3 develop a lupus-like disease with dysregulated activation of effector T cells. Furthermore, Egr2 and Egr3 confer suppressive activity to CD4+ T cells and regulate the production of inhibitory cytokines such as IL-10 and TGF-β1. These findings may have implications for a wide range of immune-related pathologies and suggest the possibility that efforts exploiting Egr2 and Egr3 could aid in the development of therapeutic applications. This review summarizes the recent advances regarding the roles of Egr2 and Egr3 on T cells in the control of autoimmunity.

Autoantibodies induce various autoimmune diseases, including systemic lupus erythematosus (SLE). We previously described that CD4(+)CD25(-)LAG3(+) regulatory T cells (LAG3(+) Treg) are regulated by Egr2, a zinc-finger transcription factor required for the induction of T-cell anergy. We herein demonstrate that LAG3(+) Treg produce high amounts of TGF-β3 in an Egr2- and Fas-dependent manner. LAG3(+) Treg require TGF-β3 to suppress B-cell responses in a murine model of lupus. Moreover, TGF-β3- and LAG3(+) Treg-mediated suppression requires PD-1 expression on B cells. We also show that TGF-β3-expressing human LAG3(+) Treg suppress antibody production and that SLE patients exhibit decreased frequencies of LAG3(+) Treg. These results clarify the mechanism of B-cell regulation and suggest therapeutic strategies.