Xingxin Li scite author profile

Background: Longitudinal studies have verified the pivotal role of mesenchymal stem/stromal cells (MSCs) in the bone marrow microenvironment for hematopoiesis and coordinate contribution to leukemia pathogenesis. However, the precise characteristics and alternation of MSCs during acquired aplastic anemia (AA) remain obscure. Methods: In this study, we originally collected samples from both healthy donors (HD) and AA patients to dissect the hematological changes. To systematically evaluate the biological defects of AA-derived MSCs (AA-MSCs), we analyzed alterations in cellular morphology, immunophenotype, multi-lineage differentiation, cell migration, cellular apoptosis, and chromosome karyocyte, together with the immunosuppressive effect on the activation and differentiation of lymphocytes. With the aid of whole genome sequencing and bioinformatic analysis, we try to compare the differences between AA-MSCs and HD-derived MSCs (HD-MSCs) upon the molecular genetics, especially the immune-associated gene expression pattern. In addition, the efficacy of umbilical cord-derived MSC (UC-MSC) transplantation on AA mice was evaluated by utilizing survivorship curve, histologic sections, and blood cell analyses. Results: In coincidence with the current reports, AA patients showed abnormal subsets of lymphocytes and higher contents of proinflammatory cytokines. Although with similar immunophenotype and chromosome karyotype to HD-MSCs, AA-MSCs showed distinguishable morphology and multiple distinct characteristics including genetic properties. In addition, the immunosuppressive effect on lymphocytes was significantly impaired in AA-MSCs. What is more, the cardinal symptoms of AA mice were largely rescued by systemic transplantation of UC-MSCs. Conclusions: Herein, we systematically investigated the signatures and efficacy of MSCs to dissect the alterations occurred in AA both at the cellular and molecular levels. Different from HD-MSCs, AA-MSCs exhibited multifaceted defects in biological characteristics and alterative molecular genetics in the whole genome. Our findings have provided systematic and overwhelming new evidence for the defects of AA-MSCs, together with effectiveness assessments of UC-MSCs on AA as well.

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Intrinsic impairment of CD4+CD25+ regulatory T cells in acquired aplastic anemia

Shi

et al. 2012

118

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IntroductionAcquired aplastic anemia (AA), characterized by pancytopenia in peripheral blood (PB) and bone marrow (BM) hypoplasia, is a bone marrow failure syndrome attacked by autologous T cells, such as CD8 ϩ cytotoxic T cells, CD4 ϩ Th1 cells, and Th17 cells, on BM hematopoietic progenitors. [1][2][3][4] Hematopoiesis recovery after successful immunosuppressive treatment provided powerful evidence for the core role of the immune-mediated destruction of hematopoietic progenitor/stem cells. Mechanisms of immunemediated destruction of hematopoiesis include Th1 polarization response conferring immoderate production of inhibitory cytokines such as interferon-␥ (IFN-␥), tumor necrosis factor-␣ (TNF-␣), and interleukin-2 (IL-2), direct toxicity to autologous CD34 ϩ cells by T-cell populations, and Th17 immune response. [4][5][6][7] In that sense, AA is a specific autoimmune disease because of aberrant T-cell immune homeostasis and BM is the main target organ.It is now well established that CD4 ϩ T-cell subpopulations constitutively expressing the surface protein CD25 and the transcription factor FoxP3 are indispensable for the maintenance of immunologic self-tolerance and immunosuppression. [8][9][10][11] There is also accumulating evidence that impaired function of CD4 ϩ CD25 ϩ regulatory T cells (Tregs) has been implicated in the development of several common autoimmune diseases, 8,10 myelodysplastic syndromes, 12 and AA. 13 Until now, the only report of Treg abnormality in AA has shown that the numbers of circulating Tregs decreased in most patients. Meanwhile, almost all patients had low levels of nuclear factor of activated T cells, cytoplasmic 2 (NFAT1/ NFATc2) which could explain decreased FoxP3 expression in Tregs from AA patients. 13 But little is known regarding the function of Tregs in AA.Physiologically, induction of immune tolerance and suppression of autoreactive effector T-cell proliferation were the critical function of CD4 ϩ CD25 ϩ Tregs through cell contact-inhibition mechanisms and/or production of inhibitory cytokine. Furthermore, BM is a reservoir for CD4 ϩ CD25 ϩ Tregs that home to and are retained in BM through the stromal-derived factor-1␣ (SDF-1␣)/ CXCR4 signal. 14 Previous data demonstrated that the only way for Tregs homing to BM was via the SDF-1␣/CXCR4 signal. 14,15 It was believed that CXCR4 was the only receptor of SDF-1␣ for years. However, several reports recently provided evidence that SDF-1␣ also bound to another 7 transmembrane span receptor CXCR7. 16,17 Thus, the role of the SDF-1␣/CXCR4 axis in regulating Treg trafficking between BM and PB becomes more complex. Combined with the fact that BM is the target organ attacked by autoreactive effector T cells leading to hematopoiesis destruction, we hypothesized that Tregs in AA might have impaired homing potential to BM so as to be less efficient to suppress the effector T-cell proliferation and Th1-type cytokine production. We also hypothesized that Tregs in AA had intrinsic deficiencies of immunosuppression for autologous effector T...

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Long-term follow-up of clonal evolutions in 802 aplastic anemia patients: a single-center experience

et al. 2011

Ann Hematol

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To assess the incidence rates and risk factors for clonal evolutions in aplastic anemia (AA) patients, we studied 802 hospitalization cases from January 1991 through December 2007 by using the cumulative incidence curves and the Cox proportional hazards mode. We found that the case of 19 patients had evolved to myelodysplastic syndrome or acute myeloid leukemia (MDS/AML), while 21 patients (two of them with concurrent MDS) developed paroxysmal nocturnal hemoglobinuria (PNH). The cumulative incidence of clonal evolutions was assessed as 3.7%, whereas the incidences of MDS/AML and PNH were 1.7% and 2.1%, respectively, at 5 years. By multivariate analysis, age, severity of the disease, and the number of days of rhuG-CSF therapy were the risk factors for AA evolution to MDS/AML. The relative risk (RR) for very severe AA was approximately seven times higher than that for severe AA (SAA) and non-SAA (NSAA) (P = 0.001), but the latter two did not differ significantly (P = 0.743). PNH clone was monitored sequentially in 237 patients; positive clones were detected in 41% of the patients, but more than half of them were transient or instable. White blood cell count at initial diagnosis was identified as the only significant risk factor for AA evolution to PNH (P = 0.007). Our results suggest that the transformation to PNH for subpopulations of AA patients may be natural evolution as the clinical manifestation and pathogenesis between AA and PNH were closely related. Furthermore, normalizing hematopoiesis of AA may represent a viable approach to prevent clone evolutions, especially to MDS/AML.

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Mutations of ASXL1 and TET2 in aplastic anemia

Huang

et al. 2015

Haematologica

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Xingxin Li

Multifaceted characterization of the signatures and efficacy of mesenchymal stem/stromal cells in acquired aplastic anemia

Intrinsic impairment of CD4+CD25+ regulatory T cells in acquired aplastic anemia

Long-term follow-up of clonal evolutions in 802 aplastic anemia patients: a single-center experience

Mutations of ASXL1 and TET2 in aplastic anemia

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