Dietrich Niethammer

Serial and quantitative analysis of mixed hematopoietic chimerism by PCR in patients with acute leukemias allows the prediction of relapse after allogeneic BMT

Within a prospective study we analyzed hematopoietic chimerism in serial peripheral blood samples taken from 55 patients with acute leukemias (ALL 21, AML 20, MDS 14) with a median age of 13.5 years at very short time intervals following allogeneic bone marrow transplantation (allo-BMT). The investigation was performed to determine the implications of mixed hematopoietic chimerism (MC) with regard to the clinical outcome in patients with acute leukemias after allo-BMT. Analysis of chimerism was performed by PCR of variable number of tandem repeat (VNTR) sequences with a maximum sensitivity of 0.8%. Thirteen male patients transplanted with the marrow of a female donor were also studied by amplification of a Y-chromosome- specific alphoid repeat (0.1–0.01% sensitivity). VNTR analysis in 55 patients revealed complete chimerism (CC) in 36 cases, MC in 18 follow-ups and autologous recovery in one patient. Quantitative analysis of MC identified 10/18 patients with increasing autologous patterns in whom 9/10 subsequently relapsed. The patient with autologous recovery relapsed as well. Eight of 18 patients with MC showed decreasing amounts of autologous DNA and became CC upon further follow-up. In contrast, only 7/36 patients with CC in the prior analysis of chimerism status relapsed. However, in 4/7 patients the interval between last CC confirmation and relapse was more than 4 months. In 2/7 patients autologous DNA was not detectable in peripheral blood but in bone marrow aspirates. One of these seven patients developed a fulminant relapse within 3 weeks. The probability of relapse-free survival for patients with CC is 0.67 (n = 36), for patients with decreasing MC 1.0 (n = 8) and for patients with increasing MC 0.1 (n = 10). In summary, the results demonstrate that serial and quantitative chimerism analysis at short time intervals by PCR provides a reliable and rapid screening method for the early detection of recurrence of underlying disease and is therefore a prognostic tool to identify patients at highest risk of relapse.

A prospective analysis of the pattern of immune reconstitution in a paediatric cohort following transplantation of positively selected human leucocyte antigen‐disparate haematopoietic stem cells from parental donors

Transplantation of haematopoietic stem cells from human leucocyte antigen (HLA)‐disparate parental donors presents a promising new approach for the treatment of patients lacking a HLA‐matched donor. Success against major obstacles such as graft‐versus‐host disease (GvHD) and graft rejection has recently been demonstrated, so that immune reconstitution is one of the prime factors that determines the long‐term prognosis following transplantation. Twenty children transplanted with megadoses of highly purified CD34+ haematopoietic stem cells after rigorous T‐cell depletion were prospectively monitored for their immune reconstitution during the first post‐transplant year. Natural killer (NK) cells showed a marked increase on du2003+30. T and B cells began to reconstitute on du2003+72 and +68 respectively. During extended follow‐up, their numbers and proliferative capacity upon mitogen stimulation continually increased. Early reconstituting T cells were predominantly of a primed, activated phenotype with severely skewed T‐cell receptor (TCR)‐repertoire complexity. Naive T cells emerged 6u2003months post transplantation, paralleled by an increase in TCR‐repertoire diversity. All patients self‐maintained sufficient immunoglobulin levels after du2003+200. This study demonstrates that paediatric recipients of highly purified, haploidentical stem cells are able to reconstitute functioning T‐, B‐ and NK‐cell compartments within the first post‐transplant year. This, together with the absence of significant GvHD, provides a strong indication for this approach to be considered in children who lack a HLA‐matched donor.

Detection of adenovirus‐specific T cells in children with adenovirus infection after allogeneic stem cell transplantation

Human adenovirus (ADV) infection is an important complication post allogeneic stem cell transplantation (SCT), especially in children, with significant morbidity and mortality despite new antiviral treatment strategies. Although the control of infection seems to require T cells, characterization of ADV‐specific T cells post‐SCT has not been reported to date. Therefore, we prospectively studied the occurrence of ADV‐specific T cells in children with (nu2003=u200321) and without (nu2003=u200325) ADV‐infection postallogeneic SCT and in healthy donors (nu2003=u200353). ADV‐associated mortality occurred in seven of 21 children. After stimulation ex vivo with ADV‐lysate, interferon‐γ‐secreting T cells were analysed by flow cytometry. All the patients with ADV‐associated mortality had no specific T cells, although reconstitution of absolute lymphocyte counts exceeded 0·3u2003×u2003109/l within 30u2003d post‐transplant. Patients who cleared ADV infection had significantly higher frequencies (meanu2003±u2003standard deviation, 0·56u2003±u20030·5%) of ADV‐specific T cells until day 200 post‐SCT, than patients without ADV‐infection (0·12u2003±u20030·1%). These data suggest that ADV‐specific T‐cell reconstitution is protective against life‐threatening ADV‐infections postallogeneic SCT.

Mixed hematopoietic chimerism after allogeneic bone marrow transplantation: the impact of quantitative PCR analysis for prediction of relapse and graft rejection in children.

It still remains unclear whether patients with mixed hematopoietic chimerism (MC) after allogeneic bone marrow transplantation (allo-BMT) have an increased risk of developing relapse or graft failure. To address this question, we monitored the individual dynamics of chimerism after allo-BMT in pediatric patients within a prospective case control study. The individual ratio of donor to recipient peripheral white cells was determined by quantification of genomic variable number of tandem repeats (VNTRs) with a polymerase chain reaction (PCR) approach. Within the study period from 1 January 1994 until 1 July 1996 we investigated 50 sequences of 46 pediatric patients after allo-BMT (32 with malignant, 18 with nonmalignant diseases). We found complete chimerism (CC) in 34/50 cases, MC in 12/50 follow-ups and 4/50 patients revealed autologous recovery (AC). Eight of 12 patients with MC showed increasing autologous patterns and subsequently relapsed or rejected their graft, 3/12 showed decreasing amounts of recipient DNA and turned to CC upon further follow-up. One patient of 12 who had severe combined immunodeficiency (SCID), attained engraftment with a stable MC pattern. Three patients of 34 with CC relapsed lacking a transitional MC interval. However, the time span between last CC confirmation and relapse in each of these three patients was 6 months or longer. We suggest that these patients also developed a stage of transitional MC but that the critical timepoint of molecular confirmation by PCR was missed as time intervals in the individual follow-up of these three patients were too long (⩾6 months). In summary, the results demonstrate that the individual risk of developing relapse or graft failure is significantly enhanced in the MC situation (Pu2009< 0.0005). therefore the quantitative analysis of mc at short time intervals might be of great value to identify high risk patients which will have a significantly enhanced risk for relapse or graft rejection.

Increasing mixed chimerism defines a high-risk group of childhood acute myelogenous leukemia patients after allogeneic stem cell transplantation where pre-emptive immunotherapy may be effective

Summary:Children with leukemias and increasing mixed chimerism (increasing MC) after allogeneic stem cell transplantation have the highest risk to relapse. Early immunological intervention was found to be effective in these cases. To substantiate this on a defined group of pediatric acute myelogenous leukemia (AML) patients, we performed serial analysis of post transplant chimerism and pre-emptive immunotherapy in patients with increasing MC. In total, 81 children were monitored, 62 patients revealed complete chimerism (CC), low-level MC or decreasing MC. Increasing MC was detected in 19 cases. Despite early immunological intervention relapse was still significantly more frequent in patients with increasing MC (9/19) than in patients with CC, low-level or decreasing MC (8/62, P<0.005). The probability of 3-year event-free survival (EFS) was 52% for all patients (n=81), 59% for patients with CC, low-level MC, 60% for patients with decreasing MC (n=62), and 28% for patients with increasing MC (n=19, P<0.005). Patients with increasing MC who received early immunological intervention showed a significantly enhanced probability for event-free survival (pEFS 36%, n=15) compared to patients with increasing MC without intervention (pEFS 0%, n=4, P<0.05). These results prove that pediatric AML patients with increasing MC are at highest risk for relapse and that early immunological intervention can prevent relapse in these patients.

Treatment of neuroblastoma stage 4 with 131I-meta-iodo-benzylguanidine, high-dose chemotherapy and immunotherapy. A pilot study

Disseminated neuroblastoma after infancy has a prognosis of approximately 10-20% with conventional therapy. We investigated the role of high-dose chemotherapy (HDCT) with peripheral blood stem cell (PBSC) rescue in combination with 131I-metaiodobenzylguanidine ([131I-m]IBG). 11 children with neuroblastoma stage 4 were pretreated within the German Neuroblastoma Trial NB90 and included in a high-dose concept for consolidation. Remission was documented by ultrasound, CT, NMR, or [123I-m]IBG scanning. HDCT was a combination of melphalan (180 mg/m2), carboplatin (1,500 mg/m2) and etoposide (40 mg/kg). All children were treated by [131I-m]IBG (0.58 GBq/kg) prior to high-dose treatment. All 11 children were additionally treated with antiGD2 murine- or chimeric-antibody (ch14.18). 4 children had no change to their remission status but three achieved a complete response (from a partial response to first line) and one a partial response (from no response to first line). The other 3 children progressed, 2 dying of their disease. Using Kaplan-Meier analysis, the probability of progression-free survival was 0.70 +/- 0.15 with a median observation time of 19 months. 9/11 children are alive, 8 without progression or relapse, whilst 2 have died of their disease. The combination of mIBG plus high-dose chemotherapy with PBSC support supplemented by immunotherapy with antiGD2 antibody appears to be a feasible and effective treatment regimen for disseminated neuroblastoma in this limited series. Larger numbers of patients should be treated to confirm these results.

Detection of neuroblastoma cells in CD34+ selected peripheral stem cells using a combination of tyrosine hydroxylase nested RT-PCR and anti-ganglioside GD2 immunocytochemistry.

A sensitive assay was developed for the detection of neuroblastoma cell contamination in CD34+ selected and unseparated peripheral blood stem cells (PBSC) used for autologous transplantation in stage 4 neuroblastoma patients. Specifically, we established a non-radioactive nested cDNA-PCR (nPCR) for detection of tyrosine hydroxylase (TH) gene expression combined with anti-disialoganglioside GD2 immunocytochemistry with the murine monoclonal antibody (MAb) 14G2a. Sensitivities of TH nPCR determined with a number of neuroblastoma cell lines and PBSCs correlated to cell line dependent basal TH gene expression levels and ranged from 1:10(4) to 1:10(6). The sensitivity obtained by immunocytochemistry was 1:10(5). We observed the highest PBSC contamination rate of 47% (18/38) among 38 PBSC specimens exclusively obtained from stage 4 neuroblastoma patients by using TH nPCR and GD2 immunocytochemistry in combination. Furthermore, a clinically applied purging method, CD34+ selection by immunoabsorption (CD34+ purity 42.4%), was used on 16 PBSCs. 10/16 (63%) preparations were contaminated prior to CD34+ selection and 56% (9/16) remained contaminated. A significant reduction of neuroblastoma cell contamination by CD34+ selection was not detectable, but the absolute amount of re-infused tumour cells was decreased due to 100-fold smaller cell counts of CD34+ selected grafts used for transplantation. 22 PBSC preparations were used for transplantation. A Kaplan-Meier analysis showed an event-free survival probability of 0.56 +/- 0.22 (n = 9) in the group with contaminated PBSCs versus 0.88 +/- 0.12 (n = 8) with no detectable neuroblastoma-cell contamination. Our data suggest that the combined use of TH nPCR and GD2 immunocytochemistry is optimal to detect contamination and monitor purging strategies.

Reverse transcriptase-polymerase chain reaction (RT-PCR) analysis of monoamine transporters in neuroblastoma cell lines: Correlations to meta-iodobenzylguanidine (MIBG) uptake and tyrosine hydroxylase gene expression

Radiolabelled meta-iodobenzylguanidine (MIBG) has been widely used in scintigraphy and targeted radiotherapy in patients with neuroblastoma. Recently, it has been demonstrated that MIBG is incorporated into neuroblastoma cells by the noradrenaline transporter. In vitro experiments on SK-N-SH human neuroblastoma cells performed in the present study showed that uptake of MIBG is inhibited by noradrenaline, more so by dopamine and to a lesser extent, by serotonin, indicating that the respective transporters may also contribute to MIBG uptake. However, neither dopamine nor serotonin transporter gene expression was detected. Noradrenaline transporter gene expression was found in 4 of 6 investigated cell lines, which correlated with specific MIBG uptake. Furthermore, an inverse correlation of noradrenaline transporter and tyrosine hydroxylase gene expression, the key regulatory enzyme of catecholamine synthesis, was observed. These data show that MIBG is specifically incorporated only in neuroblastoma cells in which there is noradrenaline transporter gene expression. Furthermore, the catecholamine status in neuroblastoma cells is regulated by a coordinate expression of the key elements of catecholamine synthesis and reuptake systems.

Characterization of lineage-specific chimaerism in patients with acute leukaemia and myelodysplastic syndrome after allogeneic stem cell transplantation before and after relapse.

Recently, we have shown that patients with acute leukaemias and myelodysplastic syndromes (MDS), who showed increasing mixed chimaerism (MC) upon serial PCR analysis after transplant, have a significantly increased risk of relapse. To determine whether the increasing MC in these patients is caused by the reappearance of normal recipient haematopoiesis or by the reoccurrence of malignant cells, we purified different leucocyte subpopulations and analysed these subfractions with regard to their donor–recipient ratio by a PCR‐based method for the analysis of minisatellite DNA regions. In 14 patients [eight acute lymphoblastic leukaemia (ALL), three acute myelogenous leukaemia (AML) and three MDS] subfractions were analysed when increasing MC was first noted upon serial analysis of the peripheral blood. In seven of these 14 patients (four ALL, two AML and one MDS), subfractions were characterized at the time of frank haematological relapse. In all 14 patients investigated with increasing MC, recipient cells were detected in different mononuclear cell subpopulations. In patients characterized during frank relapse, two distinct distribution patterns were found. Patients who relapsed before day +300 (one ALL, two AML and one MDS) showed recipient‐derived (normal) cells in addition to blast populations in different mononuclear subsets as well as granulocytes. In patients with acute leukaemias who relapsed after day +300 (two ALL and one AML), only leukaemic cells were found that were of recipient origin, whereas all other haematopoietic cell lines were donor derived.

A prospective comparison of immune reconstitution in pediatric recipients of positively selected CD34+ peripheral blood stem cells from unrelated donors vs recipients of unmanipulated bone marrow from related donors.

Summary:Positively selected CD34+ hematopoietic stem cells from unrelated donors (UD-HSCT) have been successfully transplanted, but little is known about immune reconstitution in this setting. Here we report a prospective comparison of immune reconstitution in recipients of UD-HSCT and of unmanipulated bone marrow from matched sibling donors (MSD-BMT). T-cell reconstitution occurred more than 100 days later in the UD-HSCT than in the MSD-BMT group. The first T cells after UD-HSCT were almost exclusively CD45RO+ HLA-DR+, whereas early-emerging T cells after MSD-BMT more frequently expressed CD62L, CD28, and CD25. In both groups, numbers of CD45RA+ naive T cells increased after 180 days. After UD-HSCT, the T-cell-receptor (TCR)-repertoire was severely skewed and showed significantly reduced diversity during the first year, but only minor abnormalities were seen after MSD-BMT. TCR-diversity increased simultaneously with the number of naive T cells. In both groups, we observed transient expansions of γδ T cells. B cells were reconstituted more rapidly in UD-HSCT than in MSD-BMT recipients, whereas the rapidity of NK-cell reconstitution was similar in the two groups. In summary, T-cell reconstitution was slower after UD-HSCT than after MSD-BMT because of the delayed recovery of early memory-type T cells with reduced TCR-diversity, whereas naive T-, NK-, and B cells were reconstituted similarly in the two groups.