Joop Gäken scite author profile

SummaryThis study aimed to determine the incidence/prognostic impact of TP53 mutation in 318 myelodysplastic syndrome (MDS) patients, and to correlate the changes to cytogenetics, single nucleotide polymorphism array karyotyping and clinical outcome. The median age was 65 years (17-89 years) and median follow-up was 45 months [95% confidence interval (CI) 27-62 months]. TP53 mutations occurred in 30 (9Á4%) patients, exclusively in isolated del5q (19%) and complex karyotype (CK) with -5/5q-(72%), correlated with International Prognostic Scoring System intermediate-2/high, TP53 protein expression, higher blast count and leukaemic progression. Patients with mutant TP53 had a paucity of mutations in other genes implicated in myeloid malignancies. Median overall survival of patients with TP53 mutation was shorter than wild-type (9 versus 66 months, P < 0Á001) and it retained significance in multivariable model (Hazard Ratio 3Á8, 95% CI 2Á3-6Á3,P < 0Á001). None of the sequentially analysed samples showed a disappearance of the mutant clone or emergence of new clones, suggesting an early occurrence of TP53 mutations. A reduction in mutant clone correlated with response to 5-azacitidine, however clones increased in nonresponders and persisted at relapse. The adverse impact of TP53 persists after adjustment for cytogenetic risk and is of practical importance in evaluating prognosis. The relatively common occurrence of these mutations in two different prognostic spectrums of MDS, i.e. isolated 5q-and CK with -5/5q-, possibly implies two different mechanistic roles for TP53 protein.

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Somatic mutations identify a subgroup of aplastic anemia patients who progress to myelodysplastic syndrome

Kulasekararaj

et al. 2014

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Key Points• Acquired mutations of myeloid-related genes are present in a proportion of AA patients.• Somatic mutations in AA predict higher risk of transformation to MDS.The distinction between acquired aplastic anemia (AA) and hypocellular myelodysplastic syndrome (hMDS) is often difficult, especially nonsevere AA. We postulated that somatic mutations are present in a subset of AA, and predict malignant transformation. From our database, we identified 150 AA patients with no morphological evidence of MDS, who had stored bone marrow (BM) and constitutional DNA. We excluded Fanconi anemia, mutations of telomere maintenance, and a family history of BM failure (BMF) or cancer. The initial cohort of 57 patients was screened for 835 known genes associated with BMF and myeloid cancer; a second cohort of 93 patients was screened for mutations in ASXL1, DNMT3A, BCOR, TET2, and MPL. Somatic mutations were detected in 19% of AA, and included ASXL1 (n 5 12), DNMT3A (n 5 8) and BCOR (n 5 6). Patients with somatic mutations had a longer disease duration (37 vs 8 months, P < .04), and shorter telomere lengths (median length, 0.9 vs 1.1, P < .001), compared with patients without mutations. Somatic mutations in AA patients with a disease duration of >6 months were associated with a 40% risk of transformation to MDS (P < .0002). Nearly one-fifth of AA patients harbor mutations in genes typically seen in myeloid malignancies that predicted for later transformation to MDS. (Blood. 2014;124(17):2698-2704

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Characterization and Clinical Application of Human CD34 ⁺ Stem/Progenitor Cell Populations Mobilized into the Blood by Granulocyte Colony‐Stimulating Factor

et al. 2006

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A phase I study was performed to determine the safety and tolerability of injecting autologous CD34؉ cells into five patients with liver insufficiency. The study was based on the hypothesis that the CD34 ؉ cell population in granulocyte colony-stimulating factor (G-CSF)-mobilized blood contains a subpopulation of cells with the potential for regenerating damaged tissue. We separated a candidate CD34؉ stem cell population from the majority of the CD34 ؉ cells (99%) by adherence to tissue culture plastic. The adherent and nonadherent CD34؉ cells were distinct in morphology, immunophenotype, and gene expression profile. Reverse transcription-polymerase chain reactionbased gene expression analysis indicated that the adherent CD34؉ cells had the potential to express determinants consistent with liver, pancreas, heart, muscle, and nerve cell differentiation as well as hematopoiesis. Overall, the characteristics of the adherent CD34 ؉ cells identify them as a separate putative stem/progenitor cell population. In culture, they produced a population of cells exhibiting diverse morphologies and expressing genes corresponding to multiple tissue types. Encouraged by this evidence that the CD34 ؉ cell population contains cells with the potential to form hepatocyte-like cells, we gave G-CSF to five patients with liver insufficiency to mobilize their stem cells for collection by leukapheresis. Between 1 ؋ 10 6 and 2 ؋ 10 8 CD34 ؉ cells were injected into the portal vein (three patients) or hepatic artery (two patients). No complications or specific side effects related to the procedure were observed. Three of the five patients showed improvement in serum bilirubin and four of five in serum albumin. These observations warrant further clinical trials.

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Joop Gäken

TP53 mutations in myelodysplastic syndrome are strongly correlated with aberrations of chromosome 5, and correlate with adverse prognosis

Somatic mutations identify a subgroup of aplastic anemia patients who progress to myelodysplastic syndrome

Characterization and Clinical Application of Human CD34 ⁺ Stem/Progenitor Cell Populations Mobilized into the Blood by Granulocyte Colony‐Stimulating Factor

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About

Joop Gäken

TP53 mutations in myelodysplastic syndrome are strongly correlated with aberrations of chromosome 5, and correlate with adverse prognosis

Somatic mutations identify a subgroup of aplastic anemia patients who progress to myelodysplastic syndrome

Characterization and Clinical Application of Human CD34 + Stem/Progenitor Cell Populations Mobilized into the Blood by Granulocyte Colony‐Stimulating Factor

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Product

Resources

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Characterization and Clinical Application of Human CD34 ⁺ Stem/Progenitor Cell Populations Mobilized into the Blood by Granulocyte Colony‐Stimulating Factor