Having a higher blast percentage in circulation than bone marrow: clinical implications in myelodysplastic syndrome and acute lymphoid and myeloid leukemias.

Determining the percentage of peripheral blood (PB) and bone marrow (BM) blasts is important for diagnosing and classifying acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS). Although most patients with acute leukemia or MDS have a higher percentage of BM blasts than PB blasts, the relative proportion is reversed in some patients. We explored the clinical relevance of this phenomenon in MDS (n = 446), AML (n = 1314), and acute lymphoblastic leukemia (ALL) (n = 385). Among patients with MDS or ALL, but not AML, having a higher blast percentage in PB than in BM was associated with significantly shorter survival. In multivariate analyses, these associations were independent of other relevant predictors, including cytogenetic status. Our findings suggest that MDS and ALL patients who have a higher percentage of PB blasts than BM blasts have more aggressive disease. These data also suggest that MDS classification schemes should take into account the percentage of blasts in PB differently from the percentage of blasts in BM.     

Progressive Genomic Instability in the Nup98-HoxD13 Model of MDS Correlates with Loss of the PIG-A Gene Product

The Nup98-HoxD13 (NHD13) fusion gene was identified in a patient with therapy-related myelodysplastic syndrome (MDS). When transgenically expressed in hematopoietic cells, mice faithfully recapitulate human disease with serial progression from peripheral blood (PB) cytopenias and increased bone marrow (BM) blasts to acute leukemia. It is well accepted that genomic instability in dysplastic hematopoietic stem/progenitor cells (HSPC) drives the evolution of MDS to acute leukemia. Findings here demonstrate that reticulocytes, myeloid and lymphoid PB cells of NHD13 mice, display an increase in the age-associated loss of glycosylphosphatidylinositol-linked surface proteins versus wild type controls. These data correlate with a progressive increase in the DNA damage response as measured by γ-H2AX activity, accumulating BM blasts as the disease progresses and finally development of acute leukemia. These findings clearly demonstrate a state of progressive genomic instability that increases the likelihood of a “second hit” or complimentary mutation later in the disease to trigger development of acute leukemia and underscores the mechanistic nature of how the NUP98-HoxD13 transgene induces progression of MDS to acute leukemia. Additionally, these data support the use of the PIG-A assay as an efficient, real-time surrogate marker of the genomic instability that occurs in the MDS HSPCs.Key PointThe PIG-A assay is a sensitive, nonlethal method for the serial assessment of genomic instability in mouse models of MDS.     

Recombinant interleukin-2 activates peripheral blood lymphocytes from children with acute leukemia to kill autologous leukemic cells

In order to determine if recombinant interleukin-2 (rIL-2) can induce lymphokine-activated killer (LAK) cells able to lyse autologous leukemic cells, we incubated peripheral blood (PB) mononuclear cells from children with acute leukemia with 50 U/ml rIL-2 for 5 days. These PB effector cells were then tested for their ability to lyse autologous leukemic cells in a 51CR release assay. The PB cells before incubation with rIL-2 showed little or no cytotoxicity for autologous blasts (range, 0 to 12%; mean, 2%). However, after incubation with rIL-2, PB cells from four of five children with acute lymphoblastic leukemia (ALL) at diagnosis or in relapse, and from six of eight children with ALL in remission were able to lyse autologous blasts. The percent lysis (range) was 0 to 69% (mean, 37%) for the former group, and 0 to 113% (mean, 43%) for the latter group. The PB cells from three patients (one in relapse and two in remission) failed to develop LAK activity after incubation with rIL-2. However, in each case cytotoxicity versus K562 was increased after incubation with rIL-2. Furthermore, in a Phase I study of rIL-2 for the treatment of refractory leukemia, a patient was treated with rIL-2 for 3 weeks (nine injections of 3 x 10(6) U/m2 each). Her fresh PB mononuclear cells developed a low level of cytotoxicity (11% lysis) against her autologous blasts during this time. The finding that rIL-2 in vitro and in vivo induces LAK cells with cytotoxicity against autologous leukemic cells provides the rationale for the clinical trial of this agent in the treatment of children with ALL.     

Re-evaluation of refractory anemia with excess blasts in transformation

The category 'refractory anemia with excess blasts in transformation (RAEBt)' consists of two sub-sets; one group is categorized based on the percentage of blasts in the marrow (> or =20%) and other is based on the percentage of blasts in the peripheral blood (> or =5%). We separated RAEBt patients based on these two criteria and compared hematologic and clinical relevance to assess the reasonable basis for the new classification. All RAEBt patients showing peripheral blood (PB) blasts of > or =5% were re-classified as RAEB by the WHO classification. This subset of RAEBt patients had lower percentages of bone marrow (BM) blasts, and notably they showed frequent complex cytogenetic abnormalities, including -5/5q- and/or -7/7q-. Moreover, the RAEBt patients of this group had shorter survivals compared to RAEBt patients with BM blasts between 20 and 30%. We next assessed hematologic and clinical relevance between refractory anemia with excess blasts (RAEB) and RAEBt patients with PB blasts of > or =5%. Except for the percentage of blasts in the PB (P=0.0037) and BM (P=0.0073), there was no significant difference in hematologic or clinical features between RAEB patients with BM blasts of > or =11% and RAEBt patients with PB blasts of > or =5%. When MDS patients with PB blasts of > or =5% (RAEBt by the FAB classification) were included as RAEB-II based on the "MDS 2000 classification', there was a high frequency of patients with complex chromosome changes, involving 5q and 7q, with significant poorer outcome compared to those with RAEB-I. Although it is still controversial whether MDS patients with BM blasts 20% or more should be considered as acute leukemia, the utilization of the 'MDS 2000 classification' might be useful to designate MDS patients diagnosed based on the percentage of blasts in the peripheral blood.     

Concomitant chronic lymphocytic leukemia, acute myeloid leukemia, and thrombosis with protein C deficiency. Case report and review of the literature

A patient is reported who presented simultaneously with two distinct forms of leukemia: chronic lymphocytic leukemia (CLL) and acute myeloid leukemia (AML). The diagnosis of CLL was supported by the presence of lymphocytosis, lymphadenopathy, and splenomegaly with mature B-cell markers on the population of lymphoid cells in the bone marrow. AML was documented by the presence of circulating blast cells and 50% blasts with myeloid markers and Auer rods in the bone marrow. A complete remission from both forms of leukemia was obtained after treatment for the AML. The patient also experienced the temporal occurrence of venous thrombosis for the first time at the age of 69 years, shortly before the diagnosis of leukemia. Protein C deficiency was documented and may have been hereditary as suggested by the strong family history of thrombosis or alternatively may have been the consequence of one of the leukemias.     

Migratory behavior of leukemic cells from acute myeloid leukemia patients.

The chemokine stromal cell-derived factor-1 (SDF-1) and its receptor CXCR-4 contribute to stem cell homing and may play a role in the trafficking of leukemic cells. Therefore, we analyzed migration across Transwell filters of cells derived from bone marrow (BM) or peripheral blood (PB) from 26 acute myeloid leukemia (AML) patients. The presence of the extracellular matrix protein fibronectin (FN) strongly enhanced the spontaneous and SDF-1-induced migration of leukemic PB and BM cells. No differences in spontaneous, SDF-1-induced migration or CXCR-4 expression were observed between the different AML subtypes. Subsequently, it was determined whether SDF-1 preferentially promoted migration of subsets of leukemic cells. Leukemic cells expressing CD34, CD38 and HLA-DR were preferentially migrating, whereas cells expressing CD14 and CD36 showed diminished migration. Analysis of paired PB and BM samples indicated that significantly higher SDF-1-induced migration was observed in AML for CD34(+) BM-derived cells compared to CD34(+) PB-derived cells, suggesting a role for SDF-1 in the anchoring of leukemic cells in the BM or other organs. The lower percentage of circulating leukemic blasts in patients with a relatively high level of SDF-1-induced migration also supports this hypothesis. In conclusion, we have shown that primary AML cells are migrating towards SDF-1 independent of the AML subtypes.     

CD34-positive Early Stages of Human T-Cell Differentiation

Thymus, the main organ for T lymphopoiesis, requires a permanent influx of progenitors from bone marrow (BM) or fetal liver. An essential question relating to early T-cell development is the identification of the progenitor population which actually homes to the thymus. Recent findings have shown that human multipotent progenitor/stem cells expressing CD34 have the capacity to differentiate into T cells when introduced into a thymic environment. More mature CD34+ bone marrow cells coexpressing CD7 and having a poor myeloid differentiation capacity can also efficiently differentiate into T cells in vitro. These lymphoid committed precursors might be the true thymic repopulating cells. In the thymus, cells with a similar CD34+7+ phenotype include the most primitive thymocyte precursors. CD34+ thymocytes have no myeloid differentiation potential, but may include precursors for natural killer (NK) cells. Interleukin-7 (IL7) is a potent in vitro growth factor for CD34+ thymocytes. Whereas current data do not support a crucial role for IL2, patients with IL2 receptor y chain (IL2Ry) deficiency lack T- and NK cells. The recent demonstration that IL2Ry is part of the receptor for IL7 strongly suggests that this cytokine plays an essential role in in vivo T lymphocyte and NK development.     

Folate receptor type beta is a neutrophilic lineage marker and is differentially expressed in myeloid leukemia

BACKGROUND: The membrane-associated folate receptor (FR) type beta is elevated in the spleen in patients with chronic myeloid leukemia (CML) and acute myeloid leukemia (AML). In this study, the authors investigated possible cell type and differentiation stage specificity of expression of FR-beta in normal and leukemic hematopoietic cells. METHODS: An affinity-purified rabbit polyclonal antibody specific for FR-beta was employed for immunostaining representative bone marrow smears and peripheral blood smears from normal individuals and from a limited number of patients with various leukemias. Multiple samples of normal bone marrow and peripheral blood were analyzed for the expression of FR-beta and selected CD antigens by two- or three-color flow cytometry. RESULTS: Of the morphologically identifiable cells, only neutrophils were positive for FR-beta. The leukemic blasts in CML patients showed expression of FR-beta with no apparent relation to the occurrence of the Philadelphia chromosome. Among acute nonlymphocytic leukemias, FR-beta was expressed in promyelocytic leukemia, in the myeloblast populations of myelomonocytic and erythroleukemias, and variably in M1/M2 AML. Neither the blasts of acute lymphocytic leukemia nor the more mature cells of chronic lymphocytic and hairy cell leukemias expressed FR-beta. The less differentiated FR-beta positive AML samples also were positive for CD34 and HLA-DR. Flow cytometric analysis of normal bone marrow and peripheral blood revealed low or insignificant coexpression of FR-beta with CD34, CD19, and CD3, whereas significant coexpression was observed with high levels of CD33, CD13, and CD11b; coexpression of FR-beta with CD14 was high in the immature bone marrow cells, comparable to that in myeloid cells, but relatively low in peripheral blood. CONCLUSIONS: The results of this study suggest a narrow expression pattern of FR-beta marking the neutrophilic lineage and the possibility of defining a subtype or subtypes of myeloid leukemia based on FR-beta expression. The identification of FR-beta positive leukemias and the absence of the receptor in normal CD34 positive cells may enable selective receptor-mediated targeting of leukemic cells.     

No expansion of the pre-B and B-cell compartments in the bone marrow of patients with multiple myeloma

We have recently demonstrated that the CD24 antigen density of bone marrow (BM) lymphoid cells discriminates between pre-B cells and mature B-cells. Using this new method, we evaluated the B-cell lineage in the BM and peripheral blood (PB) of 18 patients with multiple myeloma (MM). First, the percentage of pre-B cells was significantly reduced by 40% in the BM of patients with MM: 2.3% +/- 2.2% versus 5.7% +/- 2.8% of normal BM lymphoid cells (P less than 0.01). This finding was associated with a significant reduction (50%) of the percentage of mature B-cells in both BM and PB, especially in patients with progressive disease (P less than 0.05). In contrast to what has been reported previously, we have not found any pre-B cells in the PB of these patients with MM. Secondly, BM pre-B and B-cell patients with MM did not express any activation markers (CD23, CD25, or CD71 antigens) and no CD5+ B-cells were found in the BM unlike in PB (8% CD5+ B-cells). Taken together, these data do not support the concept of a direct involvement (i.e, expansion or activation) of pre-B cells in MM without excluding the possibility of an early oncogenic event at the pre-B cell stage. Furthermore, our data emphasize this important reduction of the B-cell compartment (including that of pre-B cell) as a major cause of the humoral immunodeficiency in MM.     

Heterogeneity in detecting Abl kinase mutations and better sensitivity using circulating plasma RNA.

Most studies test for mutations in the kinase domain of the abl gene in chronic myeloid leukemia (CML) using peripheral blood (PB) cells. Frequently, progression of the disease manifests with increased blasts in bone marrow (BM) and not in PB. Simultaneous analysis of plasma, PB cells and BM cells from 41 imatinib-resistant CML patients showed mutations in 63% of PB cells and 68% of plasma or BM cells (P = 0.04). In discordant patients, 13 mutations were detected in plasma, 11 in BM cells and 9 in PB cells. The T315I mutation was detected in plasma and BM but not PB cells in one patient. We detected no mutations in the plasma of 45 previously untreated CML patients, but two of these patients showed mutations in plasma and not cells by 9 months on therapy. Circulating plasma mRNA is a reliable alternative to BM mRNA for detecting ABL mutations.     

Adult hypocellular acute leukaemia with lymphoid differentiation

The rare hypocellular variants of acute leukemia (AL) previously also termed smouldering leukemia, almost always exhibit myeloid differentiation. Very rare cases of hypocellular AL with lymphoid differentiation have been reported, usually in children. This paper describes two cases (an 87-year-old woman and a 79-year-old man) in whom the blood findings were suggestive of AL. Paraffin-embedded bone marrow biopsy specimens revealed similar findings in both patients: there was severe hypocellularity, the cells of normal hemopoiesis were greatly reduced in number, and there was a diffuse increase in blast cells, which represented more than 50% of nucleated marrow cells. The blasts coexpressed TdT and CD34 and were negative for myeloperoxidase, CD117, CD68 and naphthol AS-D chloroacetate esterase. For the first time immunohistochemical Pax-5/CD34 doublestainings are provided, which revealed the blasts in one case to coexpress Pax-5 and CD34. All the blasts were CD79a-positive and 20% were also CD10-positive. In the other case, 20% of the blasts were CD79a-positive, 30% coexpressed Pax-5 and CD34 by doublestaining, and showed a clonal rearrangement of the immunoglobulin heavy chain gene. Thus a diagnosis of AL of lymphoid lineage, hypocellular variant, was made on the basis of immunohistochemical findings. The clinical course appears to be similar to that of hypocellular AML, as neither patient has developed overt leukemia during the one-year follow-up period.     

Clonal variation in the B-lineage acute lymphoblastic leukemia response to multiple cytokines and bone marrow stromal cells.

The acquisition of genetic abnormalities in human B-lineage acute lymphoblastic leukemia (ALL) culminates in the clonal expansion of bone marrow (BM)-derived leukemic blasts. However, the response of leukemic cells to signals transduced by the BM microenvironment is not completely understood. The present study describes a new human B-lineage ALL cell line designated BLIN-4 (B LINeage-4). BLIN-4 cells respond to multiple cytokines/human BM stromal cell-derived molecules. One subline (BLIN-4E) undergoes cell death in the absence of BM stromal cells or cytokines and slowly proliferates on human BM stromal cells supplemented with interleukin (IL)-7 + FLT3-ligand. Another subline (BLIN-4L) slowly proliferates in the absence of cytokines and BM stromal cells and shows robust proliferation on BM stromal cells supplemented with IL-7 + FLT3-ligand. Although human BM stromal cells are comparable with IL-7 + FLT3-ligand in supporting proliferation of BLIN-4L cells, neutralizing antibody experiments demonstrate that BLIN-4L expansion on BM stromal cells is IL-7/FLT3-ligand independent. BLIN-4L could also respond to human thymic stromal lymphopoietin. BLIN-4E and BLIN-4L have the identical immunoglobulin heavy chain rearrangement and a CD10(+)/CD19(+)/CD20(-)/CD22(+)/CD40(+)/mu heavy chain(-) phenotype. The original BM leukemic blasts harbored a ring chromosome 4 with a low percentage of cells also having either trisomy 8 or trisomy 18. The BLIN-4 sublines maintained the ring chromosome 4, but the trisomy 8 and trisomy 18 segregated into BLIN-4E and BLIN-4L, respectively. Thus, the BLIN-4 sublines exhibit biological characteristics consistent with a potential evolution in B-lineage ALL involving subclones with decreasing requirements on the BM microenvironment.     

急性白血病患者骨髓及外周血内皮祖细胞的变化及其临床意义

目的 探讨内皮祖细胞(EPC)在急性白血病(AL)患者骨髓及外周血中数量变化及其临床意义.方法 采用流式细胞术(FCM)对43例初治AL患者骨髓及外周血中的EPC进行检测,计算绝对计数,以10例良性血液病患者为对照组.结果 治疗前AL患者骨髓及外周血EPC绝对计数分别为(119.46±72.23)个/μl、(13.69±8.26)个/μl,较对照组的(23.21±12.59)个/μl、(1.86±1.18)个/μl升高(P＜0.01).治疗前AL患者骨髓EPC绝对计数较外周血升高(P＜0.01).完全缓解(CR)组患者治疗后骨髓及外周血EPC绝对计数分别为(26.32±17.44)个/μl、(2.54±2.12)个/μl,较治疗前的(113.18±69.22)个/μl、(14.45±10.76)个/μl降低(P＜0.05),与对照组间差异无统计学意义(P＞0.05);未缓解(NR)组治疗后骨髓及外周血EPC绝对计数[(110.02 ± 67.28)个/μl、(10.04±9.51)个/μl]较对照组增高(P＜0.05),与治疗前差异无统计学意义(P＞0.05).急性髓系白血病(AML)组与急性淋巴细胞白血病(ALL)组间骨髓及外周血中EPC绝对计数差异均无统计学意义(均P＞ 0.05).AL患者外周血EPC绝对计数与βτ微球蛋白、乳酸脱氢酶呈正相关性(均P＜ 0.05).结论 AL患者骨髓及外周血中EPC计数明显增高,其水平可能与AL患者病情发展、疗效及预后有一定关系.     

Proliferating status of peripheral blood progenitor cells from patients with BCR/ABL-positive chronic myelogenous leukemia.

To investigate the mechanisms behind the leukemic expansion of BCR/ABL-positive chronic myelogenous leukemia (CML), we examined the cell cycle status of hematopoietic progenitor cells from peripheral blood (PB) and bone marrow (BM) of 37 patients with newly diagnosed BCR/ABL-positive CML. We found a high proportion of 12.51 +/- 1.19% of CD34+ peripheral blood progenitor cells (PBPC) in S/G2M phase. Comparison of PB and BM from 19 cases revealed similar proliferation rates (10.74 +/- 1.41% vs 15.97 +/- 1.95%). Furthermore, even primitive CD34+/CD38- PBPC displayed high proliferation rates (17.45 +/- 2.98%) in 10 cases examined. In contrast, PBPC from 11 patients with BCR/ABL-negative myeloproliferative disorders were almost noncycling (S/G2M 1.46 +/- 0.47%). When matched pairs of PB and BM from six patients with BCR/ABL-negative myeloproliferative disorders were examined, only 0.89 +/- 0.41% of the CD34+ PBPC, but 8.29 +/- 3.13% CD34+ cells from BM were in S/G2M phase. Consistently, as compared to 19 patients with newly diagnosed BCR/ABL-positive CML, a significantly lower PB/BM ratio of CD34+ cells in S/G2M phase was found in these six patients with BCR/ABL-negative myeloprolifrative disorders. Administration of the tyrosine kinase inhibitor STI571 to 13 patients with CML in chronic phase, accelerated phase, or blast crisis lead to an inhibition of PBPC proliferation within a few days. Interestingly, CD34+ hematopoietic progenitor cells from BM remained proliferating in five cases examined, indicating that CML PBPC are more easily inhibited by STI571 as compared to CD34+ CML hematopoietic progenitor cells from BM. These data suggest that BCR/ABL leads to an enhanced cell cycle activation of CD34+ cells, which seems to be, at least in part, independent of additional factors provided by the bone marrow microenvironment.     

Elevated frequencies of CD4⁺ CD25⁺ CD127lo regulatory T cells is associated to poor prognosis in patients with acute myeloid leukemia

Regulatory T cells (Treg) mediate amelioration of disease and immune homeostasis by inhibiting immune activation and maintaining peripheral immune tolerance. The suppressive mechanisms and clinical significance of Treg have not been completely elucidated in patients with acute myeloid leukemia (AML). Here, we demonstrated that CD127 in combination with CD4 and CD25 can identify FoxP3(+) Treg in peripheral blood (PB) and bone marrow (BM) using multicolor flow cytometry. We showed that the CD4(+) CD25(+) CD127(lo) Treg frequencies were significantly increased and their phenotypes were different in PB from newly diagnosed AML patients compared to those from healthy volunteers (HVs). Moreover, the Treg frequencies were significantly higher in BM than those from PB in the same patients. The Treg frequencies were reduced when patients achieved complete remission (CR) and were increased when patients relapsed. The Treg frequencies at diagnosis in PB and BM of patients who had achieved CR were lower than those of patients who had persistent leukemia or died, respectively. CD4(+) CD25(+) Treg were isolated by magnetic-activated cell sorting and tested for suppressive functions in coculture with allogeneic carboxyfluorescein diacetate succinimidylester-labeled CD4(+) CD25(-) responder cells. Suppression mediated by Treg was higher in AML patients compared to HVs. No significant differences were observed in the cytokines production of Treg, including interferon-gamma (IFN-γ), interleukin (IL)-4,IL-2 and IL-10, between patients with AML and HVs. Our study suggests that Treg may play a role in the pathogenesis of AML, and sequential measurements of Treg frequency may have clinical value in the evaluation of therapeutic effects and clinical outcome.     

Characterization of Philadelphia-chromosome-positive acute leukemia by clinical, immunocytochemical, and gene analysis.

Philadelphia chromosome (Ph') was detected at presentation in 10 out of 110 patients with acute lymphoblastic leukemia (ALL) and five of 168 patients with acute myelogenous leukemia (AML). Two other ALL patients who had studies at relapse were also included in the analyses. One of the 12 Ph'-positive (Ph+) ALL patients had simultaneous expression of myeloid-associated antigen on the leukemic blasts, while all the five AML patients coexpressed markers of lymphoid cells. Double labeling of the cells with myeloperoxidase and CD10 on three Ph+ AML cases showed that most leukemic blasts expressed either myeloperoxidase activity or CD10 but not both. Cross-lineage gene rearrangements of T-cell receptor (TCR) beta-chain gene were detected in three of the eight Ph+ ALL patients tested. All the four Ph+ AML cases studied showed immunoglobulin heavy chain gene rearrangements, and three of them also had simultaneous rearrangements of TCR beta-chain gene. The results revealed that Ph+ acute leukemia in this study belonged either to ALL or mixed lineage leukemia, and none was pure AML. This finding is contrary to that of acute blast crisis of chronic myelogenous leukemia in which the majority of patients had myeloid transformation. Rearrangements of bcr were detected in four of the 10 Ph+ ALL and three of the four Ph+ AML patients tested. No significant difference was noted in the clinical or hematologic manifestations among Ph+ leukemia with or without bcr rearrangements.     

Interleukin-2 in neuroblastoma: clinical perspectives based on biological studies

Stage IV neuroblastoma (NB) is a disease with a poor prognosis. Chemotherapeutical intensification and hematological rescue with autologous bone marrow transplantation (ABMT) achieve some complete remissions (CR), but most patients relapse during the first year. Immunotherapy could be an alternative in this situation of high risk of relapse due to residual disease and ABMT-related immunodepression. Ten stage IV NB patients in CR or very good partial remission have been treated with recurrent 5-day cycles of high doses of Interleukin-2 (IL2) after ABMT throughout one year (usually 5-6 cycles). Natural killer (NK) and lymphokine-activated killer (LAK) cytotoxic activities, as well as phenotype and number of circulating NK cells were determined, before and after each course of IL2 treatment. The effects promoted by IL2 varied during treatment: early cycles of IL2 induced a great extent of cell expansion, mainly on CD3-/CD16-/CD56+bright and CD8+dim cell phenotypes; conversely, late courses of IL2 promoted higher NK cytotoxic activity but a lesser increase on circulating NK cells. The induction of LAK activity did not significantly differ from early and late IL2 treatments. Clinical results are still inconclusive due to the small number of patients. The median follow-up of patients treated with IL2 is 24 months and the disease free survival (DFS) probability is 0.80 +/- 0.12 vs 0.16 +/- 0.15 from a historical control with identical treatment, but in the absence of IL2 treatment (p < 0.005). IL2 treatment-related toxicity was mild and no interruption of the treatment was required. Extremely accurate hydric control was carried out to avoid, as much as possible, the consequences of vascular leak syndrome, one of the most important toxic effects of IL2 treatment. The results presented here suggest an evolution of NK activity during IL2 treatment after ABMT, which should be taken into account for the designing of new immunotherapeutical protocols and opens a promising perspective in treatment of stage IV neuroblastoma.     

Ex vivo isolation,expansion and bioengineering of CCR7+CD95-/or CD62L+CD45RA+ tumor infiltrating lymphocytes from acute myeloid leukemia patients’ bone marrow

T cell based immunotherapies can be applicable to acute myeloid leukemia (AML). Therefore, the selection of optimal T cells, cell manufacturing, and therapeutic T cell engineering are essential for the development of effective adoptive T cell therapies for AML. Autologous tumor-infiltrating lymphocytes (TILs) have been in clinical trials to treat solid malignancies. Herein, we assessed whether TILs can be isolated from the bone marrow (BM) of AML patients, expanded ex vivo and utilized as a novel therapeutic strategy for AML. To this end, firstly we analyzed the immunophenotypes of a series of primary BM samples from AML patients (N = 10) by flow cytometry. We observed a variable amount of CD3+ TILs (range ∼2.3–∼32.6% of mononuclear cells) among BM samples. We then developed a novel protocol that produced a three-log ex vivo expansion of TILs isolated from AML patient BM (N = 10) and peripheral blood (PB) (N = 10), including from patients with a low number of CD3+ T cells, within 3, 4 weeks. Further, we identified previously described naïve T cells (CCR7+CD95-/or CD62L+CD45RA+) in AML BM and PB samples, which seemed to be required for a successful TILs ex vivo expansion. Finally, we showed that the expanded TILs could: (1) cause cytotoxicity to autologous AML blasts ex vivo (90.6% in control without T cell treatment vs. 1.89% in experimental groups with PB derived T cells and 1.77% in experimental groups with BM derived TILs, p < 0.01), (2) be genetically engineered to express CYP27B1 gene, and (3) infiltrate the BM and reside in close proximity to pre-injected autologous AML blasts of engrafted immunodeficiency mice. Altogether, these results provide a rationale for further studies of the therapeutic use of TILs in AML.     

Morphologic, immunophenotypic and in vitro growth characteristics of blood and bone marrow associated with stem cell mobilisation in patients with lymphoma

The proportion of CD34+ cells in the bone marrow (BM) is predictive of the size of progenitor cell mobilisation into the blood (PB). To investigate which other PB and BM parameters may be related to mobilisation, we analysed at steady state PB and BM of 23 patients with relapsed or resistant lymphoma before administering high-dose cyclophosphamide and G-CSF Cell morphology, number of CD34+ cells, and growth in clonogenic assay and in long-term cultures (LTC) were determined and then correlated with mobilisation extent (CD34+ and GM-CFC) and quality (growth of harvested cells in LTC). We found that the good mobilising patients (CD34 > 50 x 10(3)/ml, n=10) had several baseline BM characteristics (number of CD34+ MNC, GM-CFC, BFU-E, production of CFCs in LTC) similar to a group of 12 healthy controls, while patients with reduced mobilisation (CD34 < 50 x 10(3)/ml, n=13) had clearly reduced BM progenitors and LTC growth (p< 0.05). In a multivariate analysis including baseline clinical, blood and bone marrow characteristics, the most significant PB and BM factors independently associated with a higher number and/or quality of mobilised cells were a higher number of CD34+ and GM-CFC in the BM and a higher baseline haemoglobin, platelet, and CD34+ blood count. The capacity to release progenitor cells into the circulation is therefore not predicted by the distribution of morphologically distinguishable cells, marginally predicted by the BM content of highly undifferentiated cells (growth in long term culture), while it is proportional to the number of BM progenitors (CD34+, GM-CFC and BFU-E).