Disease Propagating Blasts in Standard and High Risk Acute Lymphoblastic Leukemia Are Frequent and of Diverse Immunophenotype.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 1421-1421 ◽  
Author(s):  
Klaus Rehe ◽  
Kerrie Wilson ◽  
Hesta McNeill ◽  
Martin Schrappe ◽  
Julie Irving ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Stem Cell ◽  
High Risk ◽  
Cancer Stem Cells ◽  
Conflicts Of Interest ◽  
Lymphoblastic Leukemia ◽  
Color Flow ◽  
Nsg Mice ◽  
Limiting Dilution

Abstract Abstract 1421 Poster Board I-444 Conflicting results in the field of cancer stem cells have reignited debate regarding the frequency and identity of cells with the ability to self renew and to propagate the complete phenotype of the malignancy. Initially it was suggested by different studies that cancer stem cells represent only a small minority of the malignant population and that the immunophenotypes of these cells resemble a rather immature type in the cell hierarchy. More recent data from our own and other groups have challenged these findings by demonstrating that cells at different maturity levels within the leukemic hierarchy have cancer stem cell abilities and that the frequency of the leukemia maintaining cell is higher than previously thought (Cancer Cell 2008, 14(1), p47-58). We use an in vivo NOD/scid IL2Rγnull (NSG) mouse intra-femoral transplant model to determine the clonogenicity of sorted candidate leukemic stem cell populations, characterized by specific immunophenotypes. We selected the surface markers CD10 and CD20, in order to differentiate between rather immature and more mature cells. Furthermore we carried out limiting dilution experiments on sorted (CD20) and unsorted leukemic blasts to investigate the frequency of the proposed leukemic stem cells. Flow sorted ALL blasts of CD19+CD20low and CD19+CD20high as well as of CD19+CD10low and CD19+CD10high immunophenotype were transplanted into NSG mice. Sorts were performed on primary patient material and on leukemic blasts that had been harvested following prior passage in mice. Different subtypes of ALL were included (high risk: BCR/ABL (t9;22) positive (patients L4967, L4951, L49101, L8849, L2510), high hyperdiploid/MRD positive high risk (L754, L835), intermediate risk: high WBC/MRD negative (L736, L784), age >10 years (L803)). CD20 sorts were performed on primary patient material (L4951, L49101, L754, L835 and L776), on secondary samples harvested from engrafted primary mice (L4967, L4951, L2510, L736 and L754) and on tertiary samples harvested from engrafted secondary mice (L4967 and L736). In total 151 mice were transplanted, with 122 showing engraftment in consecutive bone marrow punctures or in bone marrow harvests. CD10 sorts were performed on primary patient material (L784 and L49101) and on secondary samples harvested from engrafted primary mice (L4951, L8849, L2510 and L803) with 31 out of 52 mice transplanted with sorted material showing engraftment as seen with CD20 sorted cells. Blasts of all selected immunophenotypes were able to engraft the leukemia in unconditioned NSG mice as determined by 5 color flow cytometry. In particular, sorted cells of both fractions were able to reconstitute the complete phenotype of the leukemia. Harvested cells from engrafted mice could then be re-sorted into high and low antigen expressing fractions and successfully re-engrafted on secondary and tertiary mice. Cell purities of transplanted cells were usually higher than 90% (range 67-100%). The ability of all populations to serially engraft mice demonstrates long-term self-renewal capacity. Two additional patients were used in the limiting dilution assays (high WBC/t(4;11) high risk (L826); low WBC/MRD negative low risk (L792)) and experiments were performed on primary unsorted and secondary sorted material. Cell numbers necessary for ALL engraftment differed between individual leukemias but as little as 100 cells proved to be sufficient in one unsorted and in both the CD19+CD20low and CD19+CD20high fractions (Table 1). Mice transplanted with 10 cells only are still under observation. Table 1 Patient Transplant Population Cell dose Mice engrafted/transplanted L4951 Secondary CD20 high 500 3/3 CD20 low 3/3 CD20 high 100 3/3 CD20 low 3/3 L2510 Secondary CD20 high 3,000 2/4 CD20 low 4/4 CD20 high 300 0/4 CD20 low 1/4 L49101 Primary Unsorted 500 3/4 100 0/4 L792 Primary Unsorted 1,000 5/5 100 1/5 L826 Primary Unsorted 1,000 3/4 100 0/4 In conclusion we present strong evidence that leukemia-propagating cells are much more prevalent than previously thought and that blasts of diverse immunophenotype are able to serially reconstitute the complete leukemia in immune-deficient mice. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Haploidentical Transplantation Using Double Source of Hematopoietic Stem Cells and Post-Transplant Cyclophosphamide for Acute Leukemias

Blood ◽  
2019 ◽  
Vol 134 (Supplement_1) ◽  
pp. 5728-5728
Author(s):  
Ana Marcela Rojas Fonseca-Hial ◽  
Katya Parisio ◽  
José Salvador Rodrigues de Oliveira
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
High Risk ◽  
Acute Leukemia ◽  
Acute Gvhd ◽  
Conflicts Of Interest ◽  
Lymphoblastic Leukemia ◽  
Acute Leukemias ◽  
Hematopoietic Stem ◽  
Post Transplant

Allogeneic stem cell transplantation (allo-SCT) represents a curative option for intermediate- and high-risk acute leukemias (AL). The number of unmanipulated haploidentical allo-SCT (haplo-SCT) is increasingly used with favorable outcomes. Incidence of graft-versus-host disease (GvHD) in haploidentical bone marrow (BM) transplants using post-transplant cyclophosphamide (PTCy) is low, counterbalanced by an excess in disease recurrence; and acute GvHD using mobilized peripheral blood stem cells (PBSC) ranges between 30% and 40%. The ultimate choice of graft source depends on the design of the full transplantation package based on transplantation center experience. We conducted a retrospective analysis of 32 patients (59% male), who received an haplo-PTCy with double source of stem cells, G-CSF primed bone marrow plus G-CSF-mobilized PBSC, for high-risk or advanced acute leukemia in two Brazilian centers, Hospital Santa Marcelina (n=23) and Hospital São Paulo (n=9), from 2013 to 2019. The median age patients were 27.5 years (range 17-60 years). Median disease time before haplo-PTCy was 8.9 months (3.6-108). There were 13 acute myeloid leukemia (AML), 17 acute lymphoblastic leukemia (ALL), one mixed phenotype acute leukemia and one dendritic cell leukemia. 6/17 ALL were Ph1 positive. 34% of the patients received 2 treatment protocols to achieve CR and 12.5% had submitted to more than two treatments. So, at the time of transplant 75% (n=24) was in first CR (CR1) although one (3%) patient was minimal residual disease (MRD) positive and six (18.7%) there were no MRD available. The others patients (n=8, 25%) were on second or third CR. The HCT-CI comorbidities was ≥ 3 in two patients, and there were 15 patients (46%) with carbapenem-resistant gram-negative bacilli (CRGNB) colonization before transplant. Panel reactive antibody was positive in two patients. The donor was a sibling in 68.7% (n=22), father, mother and child in two (6%), three (9%) and five (15%) patients, respectively. The conditioning was reduced intensity (RIC) in 87.5% (n=28) patients, with fludarabine, cyclophosphamide and total body irradiation (TBI) 200 cGy. After conditioning, patients received G-CSF primed bone marrow grafts in combination with PBSC no ex-vivo T cells depleted, and cyclophosphamide 50 mg/Kg/day IV on days +3 and +4 post-transplant, as well as GVHD prophylaxis. Six (18.7%) patients died for sepsis before 60 days (10 to 58 days), all had had CRGNB before transplant, four those ones with no grafting, died from days +10 to +19. Acute GvHD grade III-IV was observed in two patients, who died at +48 and +95 days. High mortality related to transplant (TRM) was observed considering all patients. CRGNB was a determining factor in these early deaths. If we excluded all CRGNB patients of this study the mortality could be 11% (2 patients with GVHD in 17 patients transplanted). Four patients (16%) has severe cGvHD. Nine patients (37%) relapsed in two years. Two years OS and DFS were 40% and 37.5%, respectively. In conclusion, with a median follow-up of 2 years, haplo-PTCy with double source leads to 40% overall survival in 32 patients with high-risk advanced acute leukemia, with 16% (n=2) being in treatment for cGvHD. The causes of death were relapse 43% (n=7), early sepsis in patients with CRGNB colonization 37.5% (n=6), grade IV acute GvHD in 12,5% (n=2), and one patient died for pneumonia community at D+285. Our data suggests that haplo-PTCY double source is a feasible option in these cases. However, CRGNB colonization in aggressive disease is the main factor that should be considered as exclusion for haplo-SCT in development countries. Disclosures No relevant conflicts of interest to declare.

scholarly journals Characterization of Thy-1 (CDw90) expression in CD34+ acute leukemia

Blood ◽  
1995 ◽  
Vol 86 (1) ◽  
pp. 60-65 ◽  
Author(s):  
JT Holden ◽  
RB Geller ◽  
DC Farhi ◽  
HK Holland ◽  
LL Stempora ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Stem Cell ◽  
Acute Leukemia ◽  
Lymphoblastic Leukemia ◽  
Blast Crisis ◽  
Myelogenous Leukemia ◽  
Acute Leukemias ◽  
Hematopoietic Stem

Thy-1 (CDw90) is a phosphatidylinositol-anchored cell surface molecule which, when coexpressed with CD34 in normal human bone marrow, identifies a population of immature cells that includes putative hematopoietic stem cells. To date, the characterization of Thy-1 expression has been confined largely to normal tissues and cell lines. In this study, we evaluated the frequency and intensity of Thy-1 expression as defined by reactivity with the anti-Thy-1 antibody 5E10 in 38 cases of CD34+ acute leukemia (21 acute myelogenous leukemia [AML], 8 chronic myelogenous leukemia [CML] in blast crisis, and 9 acute lymphoblastic leukemia [ALL]). In 34 of 38 cases (89%) the CD34+ cells lacked expression of the Thy-1 antigen. High-density Thy-1 expression was found in 1 case of CML in lymphoid blast crisis, and low- density Thy-1 expression was identified on a portion of the leukemic cells in 2 cases of AML with myelodysplastic features, and 1 case of CML in myeloid blast crisis, suggesting a possible correlation between Thy-1 expression and certain instances of stem cell disorders such as CML and AML with dysplastic features. In contrast, the dissociation of Thy-1 and CD34 expression in the majority of acute leukemias studied suggests that the development of these leukemias occurs at a later stage than the hematopoietic stem cell. Characterization of Thy-1 expression in acute leukemia may eventually provide insights into the origin of the disease. In addition, separation of leukemic blasts from normal stem cells based on Thy-1 expression may prove useful in assessing residual disease, as well as in excluding leukemic blasts from stem cell preparations destined for autologous bone marrow or peripheral stem cell transplantation.

Age Related Changes in Hoechst 33342 Efflux Dynamics and Side Population Phenotype in Murine Bone Marrow.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 3220-3220
Author(s):  
Matthew J. Greenwood ◽  
Peter M. Lansdorp
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Stem Cell ◽  
Side Population ◽  
Hoechst 33342 ◽  
Color Flow ◽  
Hematopoietic Stem ◽  
Old Mice ◽  
Young Mice ◽  
In Cells

Abstract The mechanisms underlying the aging of the hematopoietic stem cell (HSC) compartment remain poorly understood. The ATP-binding cassette cell surface transport protein, ABCG2, has been identified as the transporter responsible for Hoechst 33342 (Hst) efflux in primitive stem cells and its expression is associated with the side population (SP) phenotype in both murine and human bone marrow (BM). ABCG2 expression and Hst efflux activity is highest in those cells with the greatest repopulating potential and is progressively downregulated during differentiation. The substrate profile of ABCG2, which includes a number of antineoplastic drugs, protoporphyrin IX and the chlorophyll breakdown product pheophorbide, suggest that ABCG2 transporters may function to protect stem cells from cytotoxic insults, a function which may be of great importance in stem cell maintenance. Amongst laboratory mice, the C57BL/6 strain is the longest lived and appears to accumulate HSC’s with age as assessed by both phenotype and colony forming assays. While the phenotypic features of the SP profile have been well characterized in both humans and young mice, little is known of the Hst efflux dynamics or phenotype of the SP profile in old and very old C57BL/6 mice. In order to further characterize the SP profile in old mice, whole BM was extracted from the femurs, tibiae, pelvis and thoracolumbar vertebral bodies of young (9–13 week) and old (95–108 week) C57BL/6 (Ly5.1) mice. Cells were stained with 5μg/ml Hst followed by staining with a combination of CD45.1 FITC, Sca1 PE, c-kit APC, CD34 FITC, biotinylated CD34 and lineage markers and strep PE-Texas Red. In addition, serial sampling of Hst incubated cells was performed to assess Hst efflux activity at 20 mins incubation through to 100mins. Six-color flow analysis was performed on a FACS Vantage™ (BD) cytometer and data analyzed using FlowJo™ software. Results show a marked increase in cells with an SP phenotype in old vs young mice (mean±SD 1.85%±0.88 vs 0.15%±0.09) which were more highly enriched for CD34-Sca1+ckit+ (22.2%±8.65 vs 8.89%±6.7) cells. Subdividing the SP profile into four regions (R1 to R4) from highest to lowest Hst efflux activity revealed that in old mice, SP cells with the highest Hst efflux activity were almost exclusively of a CD34-Sca1+ckit+ phenotype (82.3%±14.0 vs 11.5%±7.8), with a decreasing proportion of these cells represented throughout the remaining SP tail, though a significant proportion of cells within R4 remain CD34-Sca1+ckit+ (15.3%±7.83 vs 4.19±3.01). Similar patterns have been observed in both whole and lineage depleted BM. In addition, BM cells from old C57BL/6 mice show prolonged Hst efflux activity with an increase in cells in the SP gate at 100 mins (1.51%±0.50 vs 0.10%±0.06). We conclude that in old C57Bl/6 mice, cells accumulate which have the capacity to efflux Hst in agreement with previous reports of an increase in HSC number with age in this mouse strain.

Single Immunophenotypical Evaluation of Minimal Residual Disease before Autotransplantation of Non-Cryopreserved Bone Marrow Is Insufficient for Prediction of Outcome in High Risk Adult Acute Lymphoblastic Leukemia.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 4439-4439
Author(s):  
Beata M. Stella-Holowiecka ◽  
Krystyna Jagoda ◽  
Aleksandra M. Holowiecka-Goral ◽  
Tomasz Czerw ◽  
Sebastian Giebel ◽  
...  
Keyword(s):  
Bone Marrow ◽  
High Risk ◽  
Minimal Residual Disease ◽  
Residual Disease ◽  
Lymphoblastic Leukemia ◽  
Conditioning Regimen ◽  
Long Term Results ◽  
Color Flow ◽  
Childhood All ◽  
Minimal Residual

Abstract For high-risk adult ALL patients alloHCT is a preferable option. However, a significant proportion of those not having a suitable donor may be successfully treated with autotransplantation (autoHCT). Based on our experience this treatment ensures low transplant related mortality below 3% and a reasonable overall survival and disease free survival of 60% and 45% respectively. The status of the disease before transplantation is an important factor for long term results. In childhood ALL most studies suggest that the level of minimal residual disease (MRD) after induction evaluated immunophenotypically or with bio-molecular methods is predictive for outcome after different treatments including chemotherapy, alloHCT and autoHCT. The results in adult ALL are more controversial. Patients selection. Among 1205 haematopoetic cell transplantations performed in our institution 224 (147 autologous, 77 allogeneic) were performed in 205 adults with ALL. For this study we selected an uniform group of 81 patients fulfilling following criteria’s: Ph (-) ALL, status CR1, evaluable MRD, strictly defined autoBMT procedure performed until the end of 2003. Methods. MRD was tested before autoBMT (median interval 10 days) using 2 ore 3-color flow-cytometry, as appropriate. The atypical immunophenotypes were evaluated using the “quadrans” analysis in all cases and since 2002 also the “empty spaces” technique. The sensitivity equals at least 0.0001. For all autoHSCT bone marrow was used as a source of stem cells. The CAV conditioning regimen consisted of cyclophosphamide 60mg/kg on d. -3, -2, cytarabine 2 g/m2 d. -3, -2, -1, etoposide 800 mg/m2 d. -3, -2. Bone marrow was not cryo-preserved after collection but stored in 40 C and re-transplanted after 72h. Results. In 41 patients; age med. 26 y (15–53), F/M=12/29, the MRD level was <0,001: the MRD (−) group. In 40 patients; age med. 29 y (16–53), F/M=18/22, the MRD was detected at the level =/> 0,001; MRD+ group. The ALL-immunophenotypes of MRD−/MRD+ groups were as follows; proB 4/7, preB 2/6, Common 18/19, B 0/1, preT 5/2, T 12/1). The interval from DGN to BMT was similar in both groups. The probability of LFS and OS at 10y calculated with median follow up time of 5y equaled; in the MRD(−) group 47% and 62% and in the MRD+ one 48% and 57% respectively (p=ns). The main reason of failure in both groups was a relapse which occurred after a median time of 277 days in the MRD(−) group and 134 days in MRD+ one (p=0.19). Conclusion and comment. Based on this observation we conclude that a single evaluation stratifying patients before autoBMT according to MRD level below or above 0.001 is not predictive for DFS and OS, because it informs only about the current amount of the disease but not about its opportunistic nature. In this respect a repeatedly confirmed MRD positivity should be more significant. Taking into consideration that the main reason of failures were relapses, this finding suggests also that in patients with chemotherapy-responsive ALL confirmed by stabile CR, the myeloablative CAV regimen is sufficiently strong to eliminate the residual disease at the level ranging 0.01–0.001. It may be speculated only that the 72h lasting incubation of bone marrow product before re-transplantation has also some kind of purging effect for leukemic blasts.

Maintenance of Earlier Hematopoietic Stem Cell (HSC) Phenotype and Improved NOD/SCID Engraftment for UCB Expanded Short-Term in Cytokines over a Human Mesenchymal Stem Cell (huMSC) Platform.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 2846-2846
Author(s):  
M. Kozik ◽  
J. Banks ◽  
L. Fanning ◽  
M. Finney ◽  
Y. Huang ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Stem Cell ◽  
Flow Analysis ◽  
Scid Mice ◽  
Mouse Bone Marrow ◽  
Short Term ◽  
Color Flow ◽  
Hematopoietic Stem ◽  
Cell Counts

Abstract Cytokine-based expansion of umbilical cord blood (UCB) in vitro prior to infusion has been pursued in an attempt to overcome the limited cellular content of a single UCB unit. Thus far, these attempts have not shown improvement in kinetics of donor-derived hematopoietic recovery. Our studies have incorporated UCB expanded over a feeder-layer of human mesenchymal stem cells (huMSC), known to inhibit the differentiation of hematopoietic stem cells (HSC) observed in expansion with cytokines alone. Expansion conditions included: UCB expanded over a huMSC monolayer with the addition of cytokines (IL-3, IL-6, G-CSF, SCF, FLT-3L, EPO) and UCB expanded in the same cytokines alone. Day 12 culture readouts included: viable cell counts, 4-color flow analysis, and rates of human engraftment in NOD/SCID mice. In the current study the fold expansion was 6.4 fold in the huMSC + cytokines condition and 7 fold in the cytokines alone condition. Flow cytometry surface marker analysis proportions (absolute numbers) were notable for higher proportions and numbers of early HSC expressing CD133 in cultures incorporating huMSC stromal layer: Unexpanded MSC+ cytokines Cytokines CD34 0.68 (.068M) 0.74 (3.63M) 1.94 (5.39M) CD133 5.69 (.569M) 2.56 (12.54M) 0.74 (2.06M) CD3 49.6 (4.96M) 2.2 (10.78M) 0.42 (1.17M) CD56 17.4 (1.74M) 2.71 (13.28M) 1.06 (2.95M) CD69 0.80 (7.28M) 7.28 (35.67M) 24.4 (67.8M) UCB graft T and NK populations were maintained in huMSC culture conditions and the observed difference in CD69 expression supports the hypothesis that huMSC may have an inhibitory effect on T cell activation during UCB ex vivo expansion. To assess the human engraftment potential of the cultures, cells from each culture condition were injected by tail vein into NOD/SCID mice (no CD34 selection was performed). Mice receiving unexpanded UCB received 10M mononuclear cells each. Mice receiving culture expanded cells received cell doses in proportion to the fold expansion over the number of cells at the initiation of the cultures. Engraftment was assessed by the percentage of human CD45+ (≥0.4%) cells found within the bone marrow of mice at seven weeks post infusion. Mice were injected as follows: 7 mice with unexpanded UCB (2 of which died within a month of transplant), 7 mice with UCB expanded in huMSC + cytokines, and 3 mice with UCB expanded in cytokines alone. Flow analysis of mouse bone marrow cells revealed average CD45+ percentages of 1.79% for mice injected with unexpanded UCB, 2.66% for mice injected with cytokine alone cells, and 5.94% for mice injected with huMSC + cytokine cells. Human cell subset analysis was performed for CD3, CD19, and CD56 content. The percentages of gated CD45+ co-expressing CD3+ were 10.3% in the unexpanded UCB, 16.6% in the cytokine alone condition and 10.4% in the huMSC + cytokine condition. Cells co-expressing CD19+ were 7.86% in the unexpanded UCB, 8.31% in the huMSC + cytokine condition and dropped to 1.43% in the cytokine alone condition. Gated CD45+ cells co-expressing CD56+ were 16.4% in the unexpanded UCB, 8.8% in the huMSC + cytokines condition, and dropped to 2.6% in the cytokines alone condition. In conclusion, UCB expanded short-term in cytokines demonstrates maintenance of earlier HSC phenotype and improved human engraftment in NOD/SCID in cultures incorporating a huMSC monolayer platform.

Haplo-Identical Allogeneic Stem Cell Transplantation Using GCSF-Mobilized Marrow Plus Blood Stem Cells from Parent Donors for Children with High-Risk Leukemia.

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 5084-5084
Author(s):  
Quanyi Lu ◽  
Xiaoqing Niu ◽  
Peng Zhang ◽  
Delong Liu
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Stem Cell ◽  
High Risk ◽  
Stem Cell Transplantation ◽  
Cell Transplantation ◽  
Peripheral Blood ◽  
Peripheral Blood Stem Cells ◽  
Hematopoietic Stem ◽  
Blood Stem Cells

Abstract Increasing number of patients in China have difficulty of finding sibling donors due to limited number of siblings. We therefore explored the feasibility using haploidentical parent donors for allogeneic hematopoietic stem cell transplantation. Eight leukemia patients were studied in our hospital. These included 2 CML-BC, 2 MDS-RAEB, 3 relapsed ALL and 1 relapsed AML. The median age was 12 (7–17). GCSF- mobilized bone marrow and peripheral blood stem cells were collected from parents (1 to 3 locus mismatched). The conditioning regimen consisted of fludarabine (30mg/m2/d x5), bulsulfan (4mg/kg/d x3) and cyclophosphamide (50mg/kg/d x2). Cyclosporin A, mycophenolate mofetil, methotrexate, and ATG were used for GVHD prophylaxis. The total number of CD34+ cell in the grafts ranged between 5–10 x 106/kg. The median follow- up was 13 months (6–24). One patient failed to engraft, the other 7 patients achieved full donor chimerism at day 28. The incidence of acute GVHD (grade II-IV) was 57.1% (4 of 7). The incidence of chronic GVHD of limited stage occurred in the same 4 patients. One patient died of lung complication at 17th month, another patient with CML-BC relapsed 10 months after transplantation. The rest 6 patients are alive without disease. These results suggested that parents could be considered as stem cell donors in the absence of alternative donors for young patients with high-risk diseases. GCSF-primed bone marrow plus peripheral blood stem cells might be beneficial to reduce the risk of GVHD for leukemia children in China. More patients are needed to further study this approach.

Status of Minimal Residual Disease Determines Outcome of Autologous HSCT in Adults with High-Risk Acute Lymphoblastic Leukemia.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 2321-2321
Author(s):  
Sebastian Giebel ◽  
Beata Stella-Holowiecka ◽  
Malgorzata Krawczyk-Kulis ◽  
Nicola Goekbuget ◽  
Dieter Hoelzer ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Acute Lymphoblastic Leukemia ◽  
High Risk ◽  
Minimal Residual Disease ◽  
Peripheral Blood ◽  
Residual Disease ◽  
Lymphoblastic Leukemia ◽  
Minimal Residual

Abstract Abstract 2321 Poster Board II-298 The role of autologous hematopoietic stem cell transplantation (autoHSCT) in the treatment of adult acute lymphoblastic leukemia (ALL) is a subject of controversies as several prospective studies failed to prove its advantage over maintenance chemotherapy. Those studies, however, did not take into account the status of minimal residual disease (MRD), which is now recognized a potent predictor for relapse among patients treated with conventional-dose chemotherapy. The goal of this analysis was to determine the impact of MRD on outcome of autoHSCT. Data on 123 autoHSCT recipients collected from 6 study groups cooperating in the European Leukemia Net were analyzed. Median age of 77 B-lineage and 46 T-lineage high-risk ALL patients was 31 (16-59) years. Ph+ ALL was recognized in 20 cases. All patients were in first complete remission (CR) lasting 6 (1.5-22) months. Peripheral blood was used as a source of stem cells in 67 patients whereas bone marrow, in 56 cases. Conditioning was based on chemotherapy alone (n=76) or total body irradiation (n=47). MRD was evaluated in bone marrow with the use of either multiparametric flow cytometry (n=79) or molecular techniques (n=44). MRD level of 0.1% bone marrow cells was used as a cut-off point for the purpose of this study. At the time of autoHSCT MRD was &0.1% in 93 patients and ≧0.1% in 30 cases. With the median follow up of 5 years, the probability of leukemia-free survival (LFS) at 5 years for the whole group equaled 48% (+/-5). Three patients died of transplantation-related complications. The LFS rate was significantly higher for patients with the MRD level at transplantation &0.1% compared to those with MRD ≧0.1% (57% vs. 19%, p=0.0002). The difference was particularly pronounced for peripheral blood HSCT (66% vs. 20%, p=0.0006) and for T-lineage ALL (62% vs. 8%, p=0.001). In a multivariate analysis adjusted for other potential prognostic factors (age, CR duration, Ph+ ALL, immunophenotype, source of stem cells, type of conditioning), the MRD status &0.1% remained the only independent factor associated with increased LFS (HR=2.5, p=0.0009). CONCLUSIONS: MRD status is the most important predictor for LFS after autoHSCT in adults with ALL. More than half of patients with high risk disease and low MRD level at the time of transplantation may be cured. This observation may contribute to re-evaluation of the role of autoHSCT in the therapy of adult ALL. Disclosures: No relevant conflicts of interest to declare.

In Acute Lymphoblastic Leukaemia, Stemness Is Frequent and Ubiquitous

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 92-92
Author(s):  
Klaus Rehe ◽  
Kerrie Wilson ◽  
Simon Bomken ◽  
Hesta McNeill ◽  
Martin Stanulla ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Stem Cell ◽  
Cord Blood ◽  
Cell Model ◽  
Cell Activity ◽  
Self Renewal ◽  
Nsg Mice ◽  
Stem Cell Activity ◽  
Stem Cell Model

Abstract Abstract 92 Research on cancer stem cells, cells that self-renew and reconstitute the full phenotype of the original malignancy, has yielded controversial results regarding their frequency and identity for many cancers. The hierarchical stem cell model has been well established in some malignancies such as acute myeloid leukemia and states that only rare, immunophenotypically immature blasts harbor stem cell activity, resembling a normal physiological hierarchy. The opposing stochastic model proposes that stemness in cancer cells is supported by extrinsic stimuli and that a substantial fraction of malignant cells have this potential. Continued optimization of in vivo xenotransplantation modeling recently caused a paradigm shift for some cancers, for example in malignant melanoma where stem cell activity was found in as many as 1 in 4 cells. For acute lymphoblastic leukemia (ALL) we and others previously challenged the hierarchical model by demonstrating that both immature and more mature leukemic blasts contain self-renewal properties (Cancer Cell 2008, 14(1), p47-58). In this study we address the frequency of leukemic stem cells in the bulk leukemia and also, more specifically, in subpopulations of different blast maturity by using unsorted and highly purified flow sorted cell fractions. Primary patient material as well as leukemic blasts harvested from engrafted mouse bone marrow (secondary and tertiary material) were sorted for their CD10, CD20 or CD34 expression followed by orthotopic intrafemoral transplantation into severely immunocompromised NOD/scid IL2Rγnull (NSG) mice. Engraftment of transplanted CD19+CD10low and CD19+CD10high, CD19+CD20low and CD19+CD20high and CD19+CD34low and CD19+CD34high blast populations was monitored by 5 color flow cytometry using material from consecutive bone marrow punctures, final bone marrow harvests and/or single cell suspensions from spleens. Primary ALL samples from 15 high risk (BCR/ABL positive (n=8), BCR/ABL like ALL (n=2), high hyperdiploid/MRD positive (n=2), MRD positive (n=1), MLL/AF4 (n=2)), 3 intermediate risk (high WBC/MRD negative (n=2), age >10 years (n=1)) and 3 standard risk (n=3) patients were included. Cells sorted into CD19+CD10low and CD19+CD10high fractions were transplanted from primary patient material (n=4, HR; n=1, SR) and from secondary samples (n=4, HR; n=1; IR) with cells from one HR patient used at limiting dilutions. As few as 100 sorted cells of either fraction were sufficient to repopulate the leukemia. CD19+CD20high and CD19+CD20 low fractions from primary (n=7, HR; n=1, IR), secondary (n=5, HR; n=1, IR) and tertiary material (n=2, HR; n=1, IR) engrafted NSG mice. Limiting dilutions were performed on secondary (n=4, HR) and tertiary material (n=2, HR). Cell numbers required for engraftment varied between leukemias with as few as 100 cells being sufficient to cause engraftment. Limiting dilution experiments using CD19+CD34high and CD19+CD34low fractions from secondary (n=1, HR) and tertiary (n=1, HR) material yielded engraftment with as few as 10 CD19+CD34high and 100 CD19+CD34low cells. Similarly, unsorted primary (n=11, HR; n=2, IR), secondary (n=2, HR) and tertiary material (n=1, HR) required as few as 10 cells for leukemic reconstitution. Taken together, both unsorted and sorted blasts of all immunophenotypes and transplanted with low numbers were able to reconstitute the complete original phenotype of the patient leukemia. All limiting dilutions were transplanted down to 10 cells per mouse and those mice not engrafted yet are still under observation. Furthermore, the ability to self-renew was demonstrated by serial transplantation. Finally, we compared expression of self-renewal associated genes (BMI1, EZH2, HMGA2, MEIS1, TERT) in CD19+CD34low and CD19+CD34high fractions of 5 HR and 1 SR samples with that in cord blood. Interestingly, expression of these genes was not dependent on the CD34 status of the leukemic cells, whereas HMGA2, MEIS1 and TERT were upregulated in CD34+ cord blood cells. In summary we provide strong evidence for the stochastic cancer stem cell model in B precursor ALL by demonstrating that (i) a broad spectrum of blast immunophenotypes exhibit stem cell characteristics and (ii) that this stemness is highly frequent among ALL cells. Disclosures: No relevant conflicts of interest to declare.

Co-Stimulatory Blockade With CTLA4-Ig Permits Transplantation Of Human Hematopoietic Stem Cells and HLA Incompatible T Cells In NOD/SCID γ Null (NSG) Mouse Model

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 1999-1999
Author(s):  
Annie L. Oh ◽  
Dolores Mahmud ◽  
Benedetta Nicolini ◽  
Nadim Mahmud ◽  
Elisa Bonetti ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
T Cells ◽  
Stem Cell ◽  
T Cell ◽  
Nsg Mice ◽  
Human Cd34 ◽  
Cd34 Cells

Abstract Our previous studies have shown the ability of human CD34+ cells to stimulate T cell alloproliferative responses in-vitro. Here, we investigated anti-CD34 T cell alloreactivity in-vivo by co-transplanting human CD34+ cells and allogeneic T cells of an incompatible individual into NSG mice. Human CD34+ cells (2x105/animal) were transplanted with allogeneic T cells at different ratios ranging from 1:50 to 1:0.5, or without T cells as a control. No xenogeneic GVHD was detected at 1:1 CD34:T cell ratio. Engraftment of human CD45+ (huCD45+) cells in mice marrow and spleen was analyzed by flow cytometry. Marrow engraftment of huCD45+ cells at 4 or 8 weeks was significantly decreased in mice transplanted with T cells compared to control mice that did not receive T cells. More importantly, transplantation of T cells at CD34:T cell ratios from 1:50 to 1:0.5 resulted in stem cell rejection since >98% huCD45+ cells detected were CD3+. In mice with stem cell rejection, human T cells had a normal CD4:CD8 ratio and CD4+ cells were mostly CD45RA+. The kinetics of human cell engraftment in the bone marrow and spleen was then analyzed in mice transplanted with CD34+ and allogeneic T cells at 1:1 ratio and sacrificed at 1, 2, or 4 weeks. At 2 weeks post transplant, the bone marrow showed CD34-derived myeloid cells, whereas the spleen showed only allo-T cells. At 4 weeks, all myeloid cells had been rejected and only T cells were detected both in the bone marrow and spleen. Based on our previous in-vitro studies showing that T cell alloreactivity against CD34+ cells is mainly due to B7:CD28 costimulatory activation, we injected the mice with CTLA4-Ig (Abatacept, Bristol Myers Squibb, New York, NY) from d-1 to d+28 post transplantation of CD34+ and allogeneic T cells. Treatment of mice with CTLA4-Ig prevented rejection and allowed CD34+ cells to fully engraft the marrow of NSG mice at 4 weeks with an overall 13± 7% engraftment of huCD45+ marrow cells (n=5) which included: 53±9% CD33+ cells, 22±3% CD14+ monocytes, 7±2% CD1c myeloid dendritic cells, and 4±1% CD34+ cells, while CD19+ B cells were only 3±1% and CD3+ T cells were 0.5±1%. We hypothesize that CTLA4-Ig may induce the apoptotic deletion of alloreactive T cells early in the post transplant period although we could not detect T cells in the spleen as early as 7 or 10 days after transplant. Here we demonstrate that costimulatory blockade with CTLA4-Ig at the time of transplant of human CD34+ cells and incompatible allogeneic T cells can prevent T cell mediated rejection. We also show that the NSG model can be utilized to test immunotherapy strategies aimed at engrafting human stem cells across HLA barriers in-vivo. These results will prompt the design of future clinical trials of CD34+ cell transplantation for patients with severe non-malignant disorders, such as sickle cell anemia, thalassemia, immunodeficiencies or aplastic anemia. Disclosures: No relevant conflicts of interest to declare.

Metabolic Regulation of Hematopoietic Stem Cells During Stress

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. SCI-42-SCI-42
Author(s):  
Toshio Suda
Keyword(s):  
Cell Cycle ◽  
Stem Cells ◽  
Bone Marrow ◽  
Stem Cell ◽  
Hematopoietic Stem Cells ◽  
Metabolic Regulation ◽  
Conflicts Of Interest ◽  
Hypoxia Inducible Factor ◽  
Ros Generation ◽  
Hematopoietic Stem

Abstract Abstract SCI-42 Tissue homeostasis over the life of an organism relies on both self-renewal and multipotent differentiation of stem cells. Hematopoietic stem cells (HSCs) are sustained in a specific microenvironment known as the stem cell niche. Adult HSCs are kept quiescent during the cell cycle in the endosteal niche of the bone marrow. Normal HSCs maintain intracellular hypoxia, stabilize the hypoxia-inducible factor-1a (HIF-1a) protein, and generate ATP by anaerobic metabolism. In HIF-1a deficiency, HSCs became metabolically aerobic, lost cell cycle quiescence, and finally became exhausted. An increased dose of HIF-1a protein in VHL-mutated HSCs and their progenitors induced cell cycle quiescence and accumulation of HSCs in the bone marrow (BM), which were not transplantable. This metabolic balance promotes HSC maintenance by limiting the production of reactive oxygen species (ROS), but leaves HSCs susceptible to changes in redox status (1). We have performed the metabolomic analysis in HSCs. Upregulation of pyruvate dehydrogenase kinases enhanced the glycolytic pathway, cell cycle quiescence, and stem cell capacity. Thus, HSCs directly utilize the hypoxic microenvironment to maintain their slow cell cycle by HIF-1a-dependent metabolism. Downregulation of mitochondrial metabolism might be reasonable, since it reduces ROS generation. On the other hand, at the time of BM transplantation, HSCs activate oxidative phosphorylation to acquire more ATP for proliferation. Autophagy also energizes HSCs by providing amino acids during transplantation. ATG (autophagy-related) 7 is essential for transplantation and metabolic homeostasis. The relationship between mitochondrial heat shock protein, mortalin, and metabolism in HSCs will also be discussed. Disclosures: No relevant conflicts of interest to declare.

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