Chronic graft-vs.-host disease (cGVHD) remains a major cause of morbidity and mortality after allogeneic hematopoietic stem cell transplantation (allo-HSCT). Previous studies have shown that autoantibodies play an important role in the development of cGVHD. Anti-nuclear autoantibodies (ANA) is the most frequently detected autoantibodies in patients with cGVHD, but the role of anti-Ro52 autoantibodies (anti-Ro52) in cGVHD remains largely unknown. In this study, we analyzed autoantibodies from 84 patients after allo-HSCT, including 42 with active cGVHD and 42 without cGVHD. Autoantibodies were found in 36 (42.9%) patients. Among these autoantibody-positive patients, 28 (77.8%) patients had active cGVHD. The most frequent autoantibodies in patients with active cGVHD were ANA (50.0%), anti-Ro52 (28.6%) and anti-mitochondrial autoantibodies type 2 (4.8%). We further explored the association between anti-Ro52 and cGVHD. Patients with active cGVHD had higher anti-Ro52 levels than patients without cGVHD (P < 0.05). The increases of anti-Ro52 levels were more significant in patients with moderate/severe cGVHD compared to those of patients without cGVHD (P < 0.05). Stratified and multivariable logistic regression analysis demonstrated that moderate/severe cGVHD was an independent risk factor for the levels of anti-Ro52 (P < 0.01). ROC analysis confirmed anti-Ro52 as a risk factor for progression of skin cGVHD. Moreover, the anti-Ro52 levels were highly correlated with the levels of B cell-activating factor (BAFF) and IgG1 antibodies. Our study demonstrates that anti-Ro52 is associated with cGVHD. The increased levels of anti-Ro52 were associated with higher levels of BAFF and IgG1 antibodies, suggesting a mechanistic link between elevated anti-Ro52 levels and aberrant B cell homeostasis.
Chronic graft-versus-host disease (cGVHD) is the main cause of non-relapse mortality after allogeneic hematopoietic stem cell transplantation (allo-HSCT). Mesenchymal stem cells (MSCs) in bone marrow (BM) remain unclear in the pathophysiology of cGVHD. In this study, we analyzed BM-MSCs from 66 patients after allo-HSCT, including 33 with active cGVHD and 33 without cGVHD. BM-MSCs showed similar morphology, frequency, phenotype, and proliferation in patients with or without cGVHD. MSCs from the active cGVHD group showed a decreased apoptosis rate (P < 0.01). Osteogenic capacity was increased while adipogenic capacity was decreased in the active cGVHD MSCs compared with no-cGVHD MSCs. The expressions of osteogenic gene RUNX2 and COL1A1 were higher (P < 0.001) while adipogenic gene PPAR-γ and FABP4 were lower (P < 0.001) in the active cGVHD MSCs than no-cGVHD MSCs. These changes were associated with the severity of cGVHD (P < 0.0001; r = 0.534, r = 0.476, r = −0.796, and r = −0.747, respectively in RUNX2, COL1A1, PPAR-γ, and FABP4). The expression of Wnt/β-catenin pathway ligand Wnt3a was increased in cGVHD-MSCs. The dysfunction of cGVHD-MSCs could be reversed by Dickkopf related protein 1(DKK1) to inhibit the binding of Wnt3a. In summary, the differentiation of BM-MSCs was abnormal in active cGVHD, and its underlying mechanism is the upregulated of Wnt3a through Wnt/β-catenin signaling pathway of MSCs.
Background Acute graft-versus-host disease (aGVHD) is the major cause of non-relapse morbidity and mortality after allogeneic hematopoietic stem cell transplantation(allo-HSCT). But only 40% of the patients will respond to first-line therapies Corticosteroids. Ruxolitinib, a selective Janus kinase (JAK) 1/2 inhibitor, reduces the incidence and severity of GVHD while preserving graft-versus-leukemia effects in preclinical models. The retrospective study evaluated the efficacy of ruxolitinib compared with other second-line therapies for steroid-refractory aGVHD (SR-aGVHD) in a single-center. Methods A total of 90 patients who developed SR-aGVHD after HSCT were evaluated in this retrospective study.They were treated with ruxolitinib (n=45) or other salvage-therapies (n=45) including MTX, basiliximab, etanercept and MSC at our institution. The primary endpoint was the overall response rate (ORR) at Day 28. Additional endpoints included overall survival (OS), cumulative incidence rates of failure-free survival (FFS), relapse, non-relapse mortality (NRM) and cGVHD. Treatment failure was defined as 1) addition of new systemic therapy for aGVHD, 2) NRM, 3) relapse, 4) progression of hematologic disease. FFS and OS were calculated from the day of starting the use of second-line treatments for aGVHD. Results The median age was 34 years (range 14-69). At the time of enrollment 25 patients had grade Ⅱ disease, 39 with grade Ⅲ disease, 26 with grade IV disease. The skin was involved in 54.4%, lower gastrointestinal (GI) tract in 78.9% and liver in 20.2%. With a median follow-up of 1.33 years, the ORR at day 28 was higher in ruxolitinib group than non-ruxolitinib group (62.2% [95% CI, 47.5%-77.0%] vs. 26.7% [95% CI, 13.2%-40.1%], P=0.001) (Table 1). The 1-year OS was 64.4 % and 45.5% in the two groups, respectively (P=0.0382). Ruxolitinib treatment also improved the 1-year cumulative incidence of FFS (57.8% vs. 26.6%, P=0.002), while the 1-year cumulative incidence of relapse did not differ significantly (9.6% vs. 20.0%, P=0.195). The 1-year cumulative incidence of NRM was lower in the ruxolitinib group than the non-ruxolitinib group (24.4% vs. 45.3%, P=0.023). The 1-year and 3-year cumulative incidence of cGVHD were 17.8% vs. 33.3% and 26.8% vs. 44.4% between the ruxolitinib group and non-ruxolitinib group (P=0.10 and P=0.04). Conclusions Our study demonstrated that ruxolitinib is effective than other second-line treatments in patients with SR-aGVHD due to the higher response rates and the improvement of prognosis. Furthermore, ruxolitinib could reduce the incidence and severity of chronic GVHD in aGVHD patients. Keywords: Ruxolitinib; Steroid-refractory; Acute graft-versus-host disease; Haploidentical hematopoietic stem cell transplantation Figure 1 Figure 1. Disclosures No relevant conflicts of interest to declare.
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