Steven M. Fruchtman

A pilot study of allogeneic bone marrow transplantation using related donors stimulated with G-CSF.

Growth factor administration to donors prior to bone marrow (BM) harvesting results in an enrichment of the graft for myeloid precursors. In animals, growth factor-primed BM has a higher repopulating ability than untreated BM. Ten patients received an HLA-identical sibling, allogeneic transplant using granulocyte colony-stimulating factor (G-CSF)-stimulated BM. Stimulation consisted of G-CSF at 10 μg/kg/day for 2 days prior to harvest. Patients were transplanted for various benign and malignant hematological conditions. The GVHD prophylaxis consisted of cyclosporine, methotrexate and/or prednisone. Compared to untreated historical control BM, stimulated BM infusions contained similar number of nucleated cells (mean ± s.d.: 3.5 ± 1.5 vs 4.0 ± 0.9 × 108/kg), CD34+ cells (mean ± s.d.: 7.5 ± 3.0 vs 9.4 ± 6.7 × 106/kg), and CD3+ cells (mean ± s.d.: 129 ± 30 vs 190 ± 59 × 106/kg) but higher numbers of granulocyte–macrophage colony-forming units (mean ± s.d.: 20 ± 12 vs 96 ± 34 × 104/kg). Patients receiving stimulated BM had prompt and stable engraftment of white cells and platelets. On average they attained an ANC of ⩾1 ×109/l 9 days earlier and a platelet count of ⩾20 × 109/l 6 days earlier than historical controls receiving unstimulated HLA-identical sibling BM. Hospitalization was shortened by a mean of 10 days and transfusion requirements were modest. None of the patients developed severe GVHD or disease relapse. Two patients died of severe VOD post-BMT and thus were unevaluable for platelet engraftment. A third patient died of TTP on day 76 post-BMT. Seven patients are alive and well 49–585 days post-BMT. Stimulated BM may provide a valuable alternative to allogeneic BM and PBSC transplants. Ideal stimulation regimens need to be investigated.

Long-term follow-up after allogeneic granulocyte colony-stimulating factor--primed bone marrow transplantation

Granulocyte colony-stimulating factor (G-CSF) priming increases the number of progenitor cells in harvested bone marrow (BM) and has been used for allogeneic transplantation. Primed bone marrow (pBM) seems to offer faster engraftment than steady-state BM, but the stability of such engraftment has been questioned. The incidence of graft-versus-host disease (GVHD) and disease relapse after pBM, compared with such incidence after BM or peripheral blood progenitor allotransplantation, has not been established. We studied the long-term outcome (median follow-up, 24 months) of sibling matched allografting with G-CSF pBM. Seventeen patients received pBM from matched sibling donors primed with G-CSF 10 microg/kg per day for 2 days before BM harvest. Conditioning consisted of total body irradiation and cyclophosphamide (CY); busulfan and CY; or total lymphoid irradiation, CY, and antithymocyte globulin. All infused grafts contained > or = 3.5 to 4 x 10(8) mononuclear cells per kilogram. Ten of 17 patients received methotrexate as part of their GVHD prophylaxis. International Bone Marrow Transplant Registry definitions for engraftment were used. Control subjects consisted of 112 consecutive patients who received allogeneic transplantation at our institution with steady-state BM; control subjects for length of hospitalization consisted of the subset of patients who underwent transplantation during 1996. Neutrophil engraftment occurred a median of 7 days earlier in primed bone marrow transplantation (pBMT) patients when compared with steady-state BMT patients; this shortened hospitalization by a median of 11 days. The peritransplant mortality rate was 18% in pBMT patients and 25% in BMT patients (not significant). The rate of GVHD of grade > II and the rate of relapse were almost identical in pBMT and BMT patients (GVHD: 18% and 19%, respectively; relapse: 14% and 13%, respectively). There were 4 transplant-related deaths within the first 100 days; 1 patient died of disease relapse on day 470. Twelve patients remained alive on days 430 through 1522 after BMT. Results showed that pBM allografts resulted in more rapid engraftment and shorter hospitalization. All patients maintained stable donor engraftment. In this cohort of patients, G-CSF pBMT resulted in rates of GVHD, disease relapse, and peritransplant mortality that were similar to those produced by conventional BMT.

Interphase FISH analysis of sex-mismatched BMT utilizing dual color XY probes

Interphase FISH analysis, utilizing dual color XY probes, was performed on 27 patients following allogeneic sex-mismatched bone marrow transplantation and on 31 controls. Of the 123 167 examined interphase nuclei, 63 318 were from 19 of the 21 patients (54 specimens) who engrafted, 31 827 from five of the six patients (29 specimens) who relapsed (four) or failed to engraft (one) and 24 703 from the 31 control specimens. In patients who engrafted, the mean percentage of host cells was 0.26% between day 29 and 5 years following BMT. Microchimerism of 0.7% or less than 1–5 years following BMT was not predictive of relapse. Interphase FISH analysis predicted relapse or failure of engraftment in five of the six evaluable patients. In three of five patients both conventional cytogenetics and interphase FISH of bone marrow cells provided important information regarding engraftment status and degree of chimerism.

Allogeneic bone marrow transplantation for advanced Waldenstrom’s macroglobulinemia

Waldenstrom’s disease is a lymphoproliferative disorder that is typically treated with plasmapheresis and/or alkylating agents. In young patients, other lymphoproliferative disorders have been treated with allogeneic transplantation. Two patients with aggressive Waldenstrom’s disease, who progressed in spite of multi-agent chemotherapy and autologous stem cell transplantation, in one case, underwent allogeneic transplantation from their HLA-identical donors. Both remain alive with event-free survivals of more than 3, and more than 9 years, respectively. Allogeneic transplantation should be considered for young patients with Waldenstrom’s disease.

Low-dose total body irradiation, fludarabine, and antithymocyte globulin conditioning for nonmyeloablative allogeneic transplantation

Nonmyeloablative allogeneic peripheral blood progenitor cell transplantation with low-dose total body irradiation (TBI; 200 cGy) plus fludarabine followed by cyclosporine and mycophenolate mofetil results in modest graft rejection rates. Acute and chronic graft-versus-host diseases (GVHD) are also seen and may not differ substantially from those that occur after fully ablative transplantation. Adding antithymocyte globulin (ATG) to pretransplant conditioning produces substantial immunosuppression. Because of its persistence in the circulation, ATG can achieve in vivo T-cell depletion. Twenty-five patients who were not eligible for conventional fully ablative allogeneic stem cell transplantation by virtue of age or comorbidities underwent nonmyeloablative allogeneic transplantation with ATG 15 mg/kg/d days -4 to -1, TBI 200 cGy on a single fraction on day -5, and fludarabine 30 mg/m(2)/d on days -4 to -2. Oral mycophenolate mofetil 15 mg/kg every 12 hours and cyclosporine 6 mg/kg every 12 hours were started on day -5. Grafts were unmanipulated peripheral blood progenitor cells mobilized with filgrastim 10 microg/kg/d and collected on day 5. The median age of the recipients was 57 years (range, 30-67 years); diagnoses were non-Hodgkin lymphoma (n = 11), acute myeloid leukemia (n = 6), multiple myeloma (n = 3), acute lymphoblastic leukemia (n = 2), severe aplastic anemia (n = 1), paroxysmal nocturnal hemoglobinuria (n = 1), and myelodysplastic syndrome (n = 1). The median CD34(+) and CD3(+) contents of the grafts were 7.6 x 10(6)/kg and 1.6 x 10(8)/kg, respectively. Five patients received voluntary unrelated donor grafts. Three patients, 2 with voluntary unrelated donor grafts and 1 with a sib donor, received a 1 antigen-mismatched graft. The rest were fully matched. Twenty-two of 25 patients were evaluable for chimerism. Sixteen had >/=95% donor chimerism. Four patients displayed 80% to 90% donor chimerism, 1 displayed 78%, and 1 displayed 64%. Eleven patients relapsed with their original disease. One patient rejected the graft at 180 days. The median hospital stay was 27 days. Complications included GVHD in 6 patients (3 patients had grade I or II GVHD of skin and liver, and 3 patients had grade III or IV GVHD of liver and gut). Two of the patients with GVHD had mismatched grafts. Transplant-related toxicity was seen in 4 patients and infection in 5 patients. The median length of follow-up was 162 days (range, 17-854 days). Complete remissions were seen in 10 patients. Four patients remained in complete response (CR) at 280 to 595 days. One patient relapsed with non-Hodgkin lymphoma after a CR of 728 days. Of the 25 patients, 16 died (6 of relapsed disease, 4 of GVHD, 3 of infection, and 3 of transplant-related toxicity) and 9 are alive (6 with CR-2 of them after donor leukocyte infusion-and 3 with relapsed disease). The addition of ATG to low-dose TBI and fludarabine nonmyeloablative conditioning was well tolerated and resulted in >80% donor engraftment in this small cohort. As in other series of truly nonmyeloablative transplantation, a high rate of relapse was observed. Donor engraftment may be facilitated by the addition of ATG to low-dose TBI and fludarabine conditioning.

Transcriptional Profiling of Polycythemia Vera Identifies Gene Expression Patterns Both Dependent and Independent From the Action of JAK2V617F

Purpose: To understand the changes in gene expression in polycythemia vera (PV) progenitor cells and their relationship to JAK2V617F. Experimental Design: Messenger RNA isolated from CD34+ cells from nine PV patients and normal controls was profiled using Affymetrix arrays. Gene expression change mediated by JAK2V617F was determined by profiling CD34+ cells transduced with the kinase and by analysis of leukemia cell lines harboring JAK2V617F, treated with an inhibitor. Results: A PV expression signature was enriched for genes involved in hematopoietic development, inflammatory responses, and cell proliferation. By quantitative reverse transcription-PCR, 23 genes were consistently deregulated in all patient samples. Several of these genes such as WT1 and KLF4 were regulated by JAK2, whereas others such as NFIB and EVI1 seemed to be deregulated in PV by a JAK2-independent mechanism. Using cell line models and comparing gene expression profiles of cell lines and PV CD34+ PV specimens, we have identified panels of 14 JAK2-dependent genes and 12 JAK2-independent genes. These two 14- and 12-gene sets could separate not only PV from normal CD34+ specimens, but also other MPN such as essential thrombocytosis and primary myelofibrosis from their normal counterparts. Conclusions: A subset of the aberrant gene expression in PV progenitor cells can be attributed to the action of the mutant kinase, but there remain a significant number of genes characteristic of the disease but deregulated by as yet unknown mechanisms. Genes deregulated in PV as a result of the action of JAK2V617F or independent of the kinase may represent other targets for therapy. Clin Cancer Res; 16(17); 4339–52. ©2010 AACR.

An immunological syndrome featuring transverse myelitis, Evans syndrome and pulmonary infiltrates after unrelated bone marrow transplant in a patient with severe aplastic anemia.

A patient with severe aplastic anemia underwent a matched unrelated bone marrow transplant, following which he developed a complex autoimmune syndrome. This featured transverse myelitis, immune mediated Coombs positive hemolytic anemia and immune thrombocytopenia (Evans syndrome), pulmonary infiltrates, eosinophilia, muscle pains and cramps and lichenoid dermatitis all of which may represent manifestations of graft-versus-host disease as they showed response to immunosuppression. Thus, although immune-mediated cytopenias after an allogeneic bone marrow transplant are rare, they should be considered as a possible cause of cytopenia in post-transplant patients. Bone Marrow Transplantation (2000) 26, 1225–1228.

Syngeneic stem cell transplant for spent-phase polycythaemia vera: eradication of myelofibrosis and restoration of normal haematopoiesis

Summary. We report a patient with spent‐phase polycythaemia vera (S‐PV) and massive splenomegaly who failed to engraft after a syngeneic granulocyte colony‐stimulating factor‐primed peripheral blood stem cell transplant (SCT), but later engrafted after splenectomy. Bone marrow (BM) showed resolution of myelofibrosis (MF) and absent endogenous erythroid colonies. This case demonstrated that (1) normal haematopoiesis can be restored after syngeneic SCT despite extensive MF, and (2) fibrosis can regress following a total body irradiation‐containing regimen and syngeneic SCT. As a graft‐versus‐BM stroma effect is non‐existent in syngeneic transplants, there may be a role for autologous SCT to obliterate MF in S‐PV.

del(2)(p23): A new recurrent abnormality in acute myeloid leukemia

In two patients with acute myeloid leukemia, we found a new chromosome abnormality: del(2)(p23) which was detected in 13% and 50% of studied bone marrow cells, respectively. In patient one, del(2p) was an additional abnormality to t(8;21), while patient two had del(2p) as the sole abnormality. Based on our observation and a review of the literature we propose that del(2p) is a new recurrent chromosome abnormality for acute myeloid leukemia.

Comparative analysis of HLA-B∗8101 by serology, isoelectric focusing, and sequence-based typing

We describe a bone marrow donor evaluation on a twenty-four-year-old patient from Honduras, Central America. The patients phenotype included a HLA-B7v, with serologic reactivity to HLA- B7, 8101, and 48, and was consistent with, HLA-B*8101. One-dimensional isoelectric focusing (IEF) identified HLA-B 7.1, a low frequency isotype that has previously been associated with the HLA-B7 variant, B*0705. To further classify this allele, sequence based typing (SBT) was performed, confirming HLA-B*8101 sequence homology. The diagnostic evaluation of this case illustrates the correlation of sequenced based typing and isoelectric focusing in defining HLA Class I antigen characteristics and the use of IEF in screening for rare and novel alleles.