Is Myelodysplasia a Consequence of Normal Aging?

Heibl, Sonja; Stauder, Reinhard; Pfeilstöcker, Michael

doi:10.1007/s11912-021-01136-5

Cited by 6 publications

(7 citation statements)

References 87 publications

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“…In GSEA, no gene set for cycling, metabolism and DDR was significant (FDR < 0.1) in C2 and H datasets (Figure S7B). These data support the hypothesis that features that lead to development (and protect against progression) of LR‐MDS manifest largely as a consequence of intrinsic molecular changes in cells that occur in processes of normal HSC ageing 15,16 . The unavailability of BM CD34+ cells from age‐matched healthy controls for prMDS precluded such comparison, but data from healthy controls and stMDS‐age imply that premalignant expression signatures of prMDS are distinct from normal HSC ageing.…”

Section: Resultssupporting

confidence: 56%

“…These data support the hypothesis that features that lead to development (and protect against progression) of LR-MDS manifest largely as a consequence of intrinsic molecular changes in cells that occur in processes of normal HSC ageing. 15,16 The unavailability of BM CD34+ cells from age-matched healthy controls for prMDS precluded such comparison, but data from healthy controls and stMDS-age imply that premalignant expression signatures of prMDS are distinct from normal HSC ageing. prMDS CD34+ cells revealed broadly repressed markers of multiple subcategories of DDR among the top 50 downregulated genes when compared to stMDS (Figure S8, Table S4A).…”

Section: Downregulation Of Cell-cycle and Energy Metabolism Related P...mentioning

confidence: 99%

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Attenuated cell cycle and DNA damage response transcriptome signatures and overrepresented cell adhesion processes imply accelerated progression in patients with lower‐risk myelodysplastic neoplasms

Kaisrlikova,

Kundrat,

Koralkova

et al. 2024

Intl Journal of Cancer

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Patients with myelodysplastic neoplasms (MDS) are classified according to the risk of acute myeloid leukemia transformation. Some lower‐risk MDS patients (LR‐MDS) progress rapidly despite expected good prognosis. Using diagnostic samples, we aimed to uncover the mechanisms of this accelerated progression at the transcriptome level. RNAseq was performed on CD34+ ribodepleted RNA samples from 53 LR‐MDS patients without accelerated progression (stMDS) and 8 who progressed within 20 months (prMDS); 845 genes were differentially expressed (ІlogFCІ > 1, FDR < 0.01) between these groups. stMDS CD34+ cells exhibited transcriptional signatures of actively cycling, megakaryocyte/erythrocyte lineage‐primed progenitors, with upregulation of cell cycle checkpoints and stress pathways, which presumably form a tumor‐suppressing barrier. Conversely, cell cycle, DNA damage response (DDR) and energy metabolism‐related pathways were downregulated in prMDS samples, whereas cell adhesion processes were upregulated. Also, prMDS samples showed high levels of aberrant splicing and global lncRNA expression that may contribute to the attenuation of DDR pathways. We observed overexpression of multiple oncogenes and diminished differentiation in prMDS; the expression of ZEB1 and NEK3, genes not previously associated with MDS prognosis, might serve as potential biomarkers for LR‐MDS progression. Our 19‐gene DDR signature showed a significant predictive power for LR‐MDS progression. In validation samples (stMDS = 3, prMDS = 4), the key markers and signatures retained their significance. Collectively, accelerated progression of LR‐MDS appears to be associated with transcriptome patterns of a quiescent‐like cell state, reduced lineage differentiation and suppressed DDR, inherent to CD34+ cells. The attenuation of DDR‐related gene‐expression signature may refine risk assessment in LR‐MDS patients.

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Section: Resultssupporting

confidence: 56%

Section: Downregulation Of Cell-cycle and Energy Metabolism Related P...mentioning

confidence: 99%

Attenuated cell cycle and DNA damage response transcriptome signatures and overrepresented cell adhesion processes imply accelerated progression in patients with lower‐risk myelodysplastic neoplasms

Kaisrlikova,

Kundrat,

Koralkova

et al. 2024

Intl Journal of Cancer

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“…Given that myelodysplastic syndrome (MDS) is an age‐related disease, the relationship between different types of MDS and age may vary. [ 37 ] First, we conducted hematopoiesis‐related experimental analysis using Abin Q478H/Q478H mice of different ages. We observed that Abin Q478H/Q478H mice displayed a more pronounced anemia and thrombocytopenia at 10 months of age as compared with 5 months of age (Figure 1a).…”

Section: Discussionmentioning

confidence: 99%

ABIN1 (Q478) is Required to Prevent Hematopoietic Deficiencies through Regulating Type I IFNs Expression

Wu,

Wang,

Chen

et al. 2023

Advanced Science

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A20‐binding inhibitor of NF‐κB activation (ABIN1) is a polyubiquitin‐binding protein that regulates cell death and immune responses. Although Abin1 is located on chromosome 5q in the region commonly deleted in patients with 5q minus syndrome, the most distinct of the myelodysplastic syndromes (MDSs), the precise role of ABIN1 in MDSs remains unknown. In this study, mice with a mutation disrupting the polyubiquitin‐binding site (Abin1Q478H/Q478H) is generated. These mice develop MDS‐like diseases characterized by anemia, thrombocytopenia, and megakaryocyte dysplasia. Extramedullary hematopoiesis and bone marrow failure are also observed in Abin1Q478H/Q478H mice. Although Abin1Q478H/Q478H cells are sensitive to RIPK1 kinase–RIPK3–MLKL‐dependent necroptosis, only anemia and splenomegaly are alleviated by RIPK3 deficiency but not by MLKL deficiency or the RIPK1 kinase‐dead mutation. This indicates that the necroptosis‐independent function of RIPK3 is critical for anemia development in Abin1Q478H/Q478H mice. Notably, Abin1Q478H/Q478H mice exhibit higher levels of type I interferon (IFN‐I) expression in bone marrow cells compared towild‐type mice. Consistently, blocking type I IFN signaling through the co‐deletion of Ifnar1 greatly ameliorated anemia, thrombocytopenia, and splenomegaly in Abin1Q478H/Q478H mice. Together, these results demonstrates that ABIN1(Q478) prevents the development of hematopoietic deficiencies by regulating type I IFN expression.

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“…They also carry an increased risk of leukemic transformation. The annual incidence of MDS is about 4/100 000 overall and increases with age to 40/100 000 in patients ≥ 70 years 1,3,4 . MDS is diagnosed based on peripheral blood counts and cytology, morphology and conventional cytogenetic analysis (CCA) of bone marrow (BM).…”

Section: Introductionmentioning

confidence: 99%

Shallow whole‐genome sequencing of bone marrow aspirates in myelodysplastic neoplasms: A retrospective comparison with cytogenetics

Rengifo

Smits

Boeckx

et al. 2023

Genes Chromosomes & Cancer

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Copy number alterations (CNA) are powerful prognostic markers in myelodysplastic neoplasms (MDS) and are routinely analyzed by conventional cytogenetic analysis (CCA) on bone marrow (BM). Although CCA is still the gold standard, it requires extensive hands‐on time and highly trained staff for the analysis, making it a laborious technique. To reduce turn‐around‐time per case, shallow whole genome sequencing (sWGS) technologies offer new perspectives for the diagnostic work‐up of this disorder. We compared sWGS with CCA for the detection of CNAs in 33 retrospective BM samples of patients with MDS. Using sWGS, CNAs were detected in all cases and additionally allowed the analysis of three cases for which CCA failed. The prognostic stratification (IPSS‐R score) of 27 out of 30 patients was the same with both techniques. In the remaining cases, discrepancies were caused by the presence of balanced translocations escaping sWGS detection in two cases, a subclonal aberration reported with CCA that could not be confirmed by FISH or sWGS, and the presence of an isodicentric chromosome idic(17)(p11) missed by CCA. Since sWGS can almost entirely be automated, our findings indicate that sWGS is valuable in a routine setting validating it as a cost‐efficient tool.

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Is Myelodysplasia a Consequence of Normal Aging?

Cited by 6 publications

References 87 publications

Attenuated cell cycle and DNA damage response transcriptome signatures and overrepresented cell adhesion processes imply accelerated progression in patients with lower‐risk myelodysplastic neoplasms

Attenuated cell cycle and DNA damage response transcriptome signatures and overrepresented cell adhesion processes imply accelerated progression in patients with lower‐risk myelodysplastic neoplasms

ABIN1 (Q478) is Required to Prevent Hematopoietic Deficiencies through Regulating Type I IFNs Expression

Shallow whole‐genome sequencing of bone marrow aspirates in myelodysplastic neoplasms: A retrospective comparison with cytogenetics

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