Bone marrow hematons: An access point to the human hematopoietic niche.

To understand the complex interactions between hematopoietic stem cells and the bone marrow niche, a human experimental model is needed. Our hypothesis is that hematons are an appropriate ex vivo model of human bone marrow. We analyzed the hierarchical hematopoietic cell content and the tissue organization of single hematons from healthy donors. Most (>90%) hematons contained precursors of all cell lineages, myeloid progenitors, and LTC-ICs without preferential commitment. Approximately, half of the hematons could generate significant levels of lympho-myeloid hematopoiesis after transplantation in an NSG mouse model, despite the low absolute numbers of transplanted CD34+ cells. Mesenchymal STRO-1+ and/or CD271+ cells formed a critical network that preserved hematon cohesion, and STRO-1+ cells colocalized with most hematopoietic CD34+ cells (68%). We observed an influence of age and gender. These structures represent a particularly attractive model for studying the homeostasis of the bone marrow niche and pathological changes that occur during diseases.

Measurement of imatinib uptake by flow cytometry.

One of the essential parameters of targeted therapy efficiency in cancer treatment is the amount of drug reaching the therapeutic target area. Imatinib (IM) was the first specifically targeted drug to be developed and has revolutionized the treatment of patients with chronic myeloid leukemia (CML). To evaluate cellular uptake of IM, we developed a method based on the chemical structure of the molecule and using the natural UV fluorescence that we quantified by flow cytometry. In two CML cell lines, we obtained a satisfactory relationship between intracellular IM (ICIM) levels and media concentrations, and we found a strong correlation between ICIM at 1 h and IM efficacy at 24 h, demonstrating that ICIM at 1 h might be a relevant predictive parameter of cell sensitivity. Our method was more sensitive than the standard physicochemical method. We applied our method to primary cells and found cell morphology-dependent IM accumulation. Moreover, in CML cells from patients at diagnosis, IM accumulation was heterogeneous. In all cases, ICIM at the single-cell level was much higher than in culture media arguing in favor of a predominantly active uptake process. We developed a simple method directly applicable to primary cells that has shown two major advantages: only a small number of cells are required, and cell subsets can be identified according to morphological criteria and/or the presence of particular antigenic sites. This method provides a new tool to assess CML cell sensitivity to IM, and ICIM levels in native CML cells could be used to monitor therapeutic response.

Influence of major BCR-ABL1 transcript subtype on outcome in patients with chronic myeloid leukemia in chronic phase treated frontline with nilotinib.

Chronic myeloid leukemia (CML) is a myeloproliferative neoplasm characterized by the presence of BCR-ABL1 transcript as a result of reciprocal translocation between chromosome 9 and 22. The most common transcripts subtypes are e13a2 (b2a2) and e14a2 (b3a2). The prognostic impact of the type of BCR-ABL1 transcript has been the subject of controversies over time. In the imatinib era, several studies have suggested a deeper and faster response in patients expressing e14a2. However, the impact on response after first line therapy with a second-generation tyrosine kinase inhibitor, nilotinib, is unknown. We retrospectively evaluated 118 patients newly diagnosed with chronic phase CML and treated frontline with nilotinib inside or outside clinical trial in five French centers. Only patients expressing e14a2 or e13a2 transcripts alone were analyzed. At baseline, 55.3% expressed e14a2, 44.7% expressed e13a2. The median age was 51 years and median follow-up was 49 months. Relative risks of CML at diagnosis were similar according to the ELTS score (p = .87). Complete hematological response and complete cytogenetic response rates were similar among groups. Patients expressing e14a2 transcripts compared to e13a2 transcripts had deeper and faster molecular responses, when considering MMR (100% vs 84.1%, p = .007) with a median time of 6.7 and 17.1 months or MR4.5 (100% vs 59.9%, p = .005) with a median time of 39.7 and 70.9 months, respectively. A sustained treatment free remission was observed in 10/10 patients with e14a2 versus 1/3 with e13a2 transcript (p = .04). In conclusion, even treated with nilotinib first line, patients with chronic phase CML expressing BCR-ABL1 e13a2 transcript have a lower rate of deep molecular responses.

DNA methylation profiling reveals a pathological signature that contributes to transcriptional defects of CD34+ CD15- cells in early chronic-phase chronic myeloid leukemia.

Despite the high efficiency of tyrosine kinase inhibitors (TKI), some patients with chronic myeloid leukemia (CML) will display residual disease that can become resistant to treatment, indicating intraclonal heterogeneity in chronic-phase CML (CP-CML). To determine the basis of this heterogeneity, we conducted the first exhaustive characterization of the DNA methylation pattern of sorted CP-CML CD34+ CD15- (immature) and CD34- CD15+ (mature) cells at diagnosis (prior to any treatment) and compared it to that of CD34+ CD15- and CD34- CD15+ cells isolated from healthy donors (HD). In both cell types, we identified several hundreds of differentially methylated regions (DMRs) showing DNA methylation changes between CP-CML and HD samples, with only a subset of them in common between CD34+ CD15- and CD34- CD15+ cells. This suggested DNA methylation variability within the same CML clone. We also identified 70 genes that could be aberrantly repressed upon hypermethylation and 171 genes that could be aberrantly expressed upon hypomethylation of some of these DMRs in CP-CML cells, among which 18 and 81, respectively, were in CP-CML CD34+ CD15- cells only. We then validated the DNA methylation and expression defects of selected candidate genes. Specifically, we identified GAS2, a candidate oncogene, as a new example of gene the hypomethylation of which is associated with robust overexpression in CP-CML cells. Altogether, we demonstrated that DNA methylation abnormalities exist at early stages of CML and can affect the transcriptional landscape of malignant cells. These observations could lead to the development of combination treatments with epigenetic drugs and TKI for CP-CML.

Phosphorylation of spleen tyrosine kinase at tyrosine 348 (pSyk³48) may be a marker of advanced phase of Chronic Myeloid Leukemia (CML).

We investigated Syk as a potential marker of CML progression. We observed a significant over-expression of Syk mRNA and constitutive phosphorylation of Syk Y348 in blast cells from six AP or BP-CML, but not in 15 CML in chronic phase. We could follow in vivo the recurrence of pSyk(348) throughout blast cell escape, despite observing storage of dasatinib in blast cells. A combination of dasatinib and R406 did not improve therapeutic efficacy in vitro. Our results strongly suggest that Syk activation could be a relevant biomarker of disease progression and dasatinib resistance but is probably not a molecular target.

The chronic lymphocytic leukemia clone disrupts the bone marrow microenvironment.

The systematic localization of chronic lymphocytic leukemia (CLL) B-cells in the bone marrow (BM), together with the ex vivo protective effect of stromal cells on their spontaneous apoptosis, both indicate a specific role of the BM microenvironment. In vivo, the impact of CLL cells on mesenchymal stromal cells (MSCs) remains a source of debate. Here, we quantified and expanded colony forming unit-fibroblasts (CFU-Fs) from CLL-BM under standard conditions, analyzed the expression of selected genes, and studied secretion profiles. We observed failing of CLL-BM cultures in standard conditions (45.5% vs. <0.1%), and even after adding basic fibroblast growth factor (bFGF), there were fewer CFU-F than from normal BM (1.3 vs. 40/10(6) cells respectively; P<0.01). Furthermore, their polygonal aspect and low proliferative capacity, together with the expression of 384 selected genes and a secreted set of molecules related to senescence-associated secretory phenotype indicated a state of senescence, further confirmed by the higher proportion of senescence-associated ß-galactosidase (SA-ßGAL)-positive cells and p16INK4a overexpression. In our hands, hypoxic conditions (5% O2) did not rescue CFU-Fs. Given the role of MSC in BM tissue organization, we studied hematons that are generally considered to be elementary BM units. These structures were rare or had even disappeared completely. When hematons were present, we systematically observed nodular B-CLL cell invasion only. These data confirm that the B-CLL clone has a marked impact on MSC and disrupts BM organization in vivo, raising new questions about in vivo pathophysiology.

Proposal of a score combining red blood cell indices for early differentiation of beta-thalassemia minor from iron deficiency anemia.

This study evaluates the diagnostic reliability of 11 red blood cells indices, together with our new index, referred to as '11T', in differentiation of beta-thalassemia minor (BTm) from iron deficiency anemia (IDA). A total of 129 patients with microcytic anemia were involved in a retrospective study, 80 with IDA and 49 with BTm. Using an automatic program, we calculated 11 discrimination indices and a new score, 11T, based on the results of these 11 tests. To confirm the interest of 11T, we performed a prospective study with 53 patients. 11T was most effective in differentiating BTm from IDA: 11T had the highest Youden's index (83%) and the best percentage of correctly identified patients (93%) and gave optimal performance in our prospective study. We proposed a score, 11T, which is able to discriminate between IDA and BTm with high specificity and high sensitivity in order to conduct the appropriate confirmatory examination.