Monocytes are activated in patients with myelodysplastic syndromes and can contribute to bone marrow failure through CD40–CD40L interactions with T helper cells

Meers, Stef; Kasran, Ahmad; Boon, Louis; Lemmens, Jan; Ravoet, Christophe; Boogaerts, Marc; Verhoef, Gregor; Verfaillie, Catherine M.; Delforge, Michel

doi:10.1038/sj.leu.2404940

Cited by 19 publications

(11 citation statements)

References 34 publications

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“…In conclusion, we find that monocyte composition, monocyte LPS response, and monocyte phagocytic ability are relatively unchanged in peripheral blood from patients with MDS. A prior study indicated that monocytes from MDS patients exhibit an increased response to CD40 activation. Coupled with the increased MHC Class II production observed in the current study, this may suggest that the enhanced ability to present antigen and activate T cells could compensate, at least in part, for decreased neutrophil function present in these patients.…”

Section: Resultsmentioning

confidence: 99%

“…Monocytes from patients with chronic lymphocytic leukemia (CLL) exhibit significant immune dysfunction including an altered monocyte profile and a diminished inflammatory response induced by LPS . However, the function (or dysfunction) of monocytes in MDS patients remains unclear; the few prior studies concerning this topic have suggested that these immune cells may retain significant function …”

Section: Introductionmentioning

confidence: 99%

“…[33][34][35] However, the function (or dysfunction) of monocytes in MDS patients remains unclear; the few prior studies concerning this topic have suggested that these immune cells may retain significant function. 21,[36][37][38] To clarify this issue, we have now analyzed monocyte function from the peripheral blood of 43 patients with MDS (27 untreated…”

Section: Introductionmentioning

confidence: 99%

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Monocyte function in patients with myelodysplastic syndrome

Pollyea

Hedin

O’Connor

et al. 2018

Journal of Leukocyte Biology

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Myelodysplastic syndrome (MDS) is a malignant hematopoietic stem cell disorder that frequently evolves into acute myeloid leukemia (AML). Patients with MDS are prone to infectious complications, in part due to the presence of severe neutropenia and/or neutrophil dysfunction. However, not all patients with neutropenia become infected, suggesting that other immune cells may compensate in these patients. Monocytes are also integral to immunologic defense; however, much less is known about monocyte function in patients with MDS. In the current study, we monitor the composition of peripheral blood monocytes and several aspects of monocyte function in MDS patients, including HLA-DR expression, LPS-induced inflammatory cytokine production, and phagocytosis. We find that monocytes from MDS patients exhibit relatively normal innate immune functions compared to monocytes from healthy control subjects. We also find that HLA-DR expression is moderately increased in monocytes from MDS patients. These results suggest that monocytes could compensate for other immune deficits in MDS patients to help fight infection. We also find that the range of immune functions in monocytes from MDS patients correlates with several key clinical parameters, including blast cell count, monocyte count, and revised International Prognostic Scoring System score, suggesting that disease severity impacts monocyte function in MDS patients.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Monocyte function in patients with myelodysplastic syndrome

Pollyea

Hedin

O’Connor

et al. 2018

Journal of Leukocyte Biology

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“…Our findings might support a positive effect of azacytidine maintenance in this group but could also just reflect a more robust response to induction chemotherapy. There are previous reports of differences in the immune response between MDS patients with trisomy 8 and other MDS (Kawabata et al, 2006;Meers et al, 2007) and also on the immunomodulatory effects of azacytidine (Laurenzana et al, 2009;Liu et al, 2009;Sánchez-Abarca et al, 2010). Whether immunomodulation, by demethylation or not, may explain the better overall outcome in this group remains to be studied.…”

Section: Discussionmentioning

confidence: 95%

Maintenance treatment with azacytidine for patients with high‐risk myelodysplastic syndromes (MDS) or acute myeloid leukaemia following MDS in complete remission after induction chemotherapy

et al. 2010

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SummaryThis prospective Phase II study is the first to assess the feasibility and efficacy of maintenance 5-azacytidine for older patients with high-risk myelodysplastic syndrome (MDS), chronic myelomonocytic leukaemia and MDS-acute myeloid leukaemia syndromes in complete remission (CR) after induction chemotherapy. Sixty patients were enrolled and treated by standard induction chemotherapy. Patients that reached CR started maintenance therapy with subcutaneous azacytidine, 5/28 d until relapse. Promoter-methylation status of CDKN2B (P15 ink4b), CDH1 and HIC1 was examined pre-induction, in CR and 6, 12 and 24 months post CR. Twentyfour (40%) patients achieved CR after induction chemotherapy and 23 started maintenance treatment with azacytidine. Median CR duration was 13AE5 months, >24 months in 17% of the patients, and 18-30AE5 months in the four patients with trisomy 8. CR duration was not associated with CDKN2B methylation status or karyotype. Median overall survival was 20 months. Hypermethylation of CDH1 was significantly associated with low CR rate, early relapse, and short overall survival (P = 0AE003). 5-azacytidine treatment, at a dose of 60 mg/m 2 was well tolerated. Grade III-IV thrombocytopenia and neutropenia occurred after 9AE5 and 30% of the cycles, respectively, while haemoglobin levels increased during treatment. 5-azacytidine treatment is safe, feasible and may be of benefit in a subset of patients.

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“…The etiology of bone marrow (BM) failure in MDS is not yet fully understood but is multifactorial and caused by intrinsic defects in the HSC (e.g., mutations in AML1, EVI1, NUP98 and NUP214) as well as extrinsic defects in the BM niche [3]. The latter include excess production of, for example, tumor necrosis factor-α and interferon-γ, abnormalities in endothelial cells, mesenchymal stromal cells (MSCs) and osteoblasts (cells that are part of the HSC niche) and activation of T lymphocytes, monocytes and dendritic cells leading to abnormal proliferation and differentiation of HSCs [4][5][6][7][8][9].The only curative therapy is allogeneic HSC transplantation, which is suitable for only a minority of the patients due to advanced age. Recently, three drugs have been approved by the U.S. Food and Drug Administration: decitabine, lenalidomide and 5-azacitidine (the last two are also approved by the European Medicines Agency); in a subgroup of MDS patients, these drugs decrease cytopenias, induce cytogenetic remission and reduce BM blasts, while not completely eradicating the malignant HSC clone [10].…”

Section: Introductionmentioning

confidence: 99%