Primary immunosuppressive TNI-based conditioning regimens in pediatric patients treated with haploidentical hematopoietic cell transplantation.

PURPOSE: This retrospective analysis aims to address the toxicity and efficacy of a modified total nodal irradiation (TNI)-based conditioning regimen before haploidentical hematopoietic cell transplantation (HCT) in pediatric patients. MATERIALS AND METHODS: Patient data including long-term follow-up were evaluated of 7 pediatric patients with malignant (n = 2) and non-malignant diseases (n = 5) who were treated by a primary TNI-based conditioning regimen. TNI was performed using anterior/posterior opposing fields. All patients received 7 Gy single-dose TNI combined with systemic agents followed by an infusion of peripheral blood stem cells (n = 7). All children had haploidentical family donors. RESULTS: Engraftment was reached in 6/7 children after a median time of 9.5 days; 1 child had primary graft failure but was successfully reconditioned shortly thereafter. After an average follow-up time of 103.5 months (range 8.8-138.5 months), event-free (EFS) and overall survival (OS) rates were 71.4% and 85.7%, respectively. One child with a non-malignant disease died 8.8 months after transplantation due to a relapse and a multiple organ failure. Follow-up data was available for 5/6 long-term survivors with a median follow-up (FU) of 106.2 months (range 54.5-138.5 months). Hypothyroidism and deficiency of sexual hormones was present in 3/5 patients each. Mean forced expiratory volume in 1 s (FEV1) after TNI was 71%; mean vital capacity (VC) was 78%. Growth failure (< 10th percentile) occurred in 2/5 patients (height) and 1/5 patient (weight). No secondary malignancies were reported. CONCLUSION: In this group of patients, a primary single-dose 7 Gy TNI-based conditioning regimen before HCT in pediatric patients allowed sustained engraftment combined with a tolerable toxicity profile leading to long-term OS/EFS. Late toxicity after a median FU of over 9 years includes growth failure, manageable hormonal deficiencies, and acceptable decrease in lung function.

Monocytes show immunoregulatory capacity on CD4+ T cells in a human in-vitro model of extracorporeal photopheresis.

Extracorporeal photopheresis (ECP) is a widely used immunomodulatory therapy for the treatment of various T cell-mediated disorders such as cutaneous T cell lymphoma (CTCL), graft-versus-host disease (GvHD) or systemic sclerosis. Although clinical benefits of ECP are already well described, the underlying mechanism of action of ECP is not yet fully understood. Knowledge on the fate of CD14+ monocytes in the context of ECP is particularly limited and controversial. Here, we investigated the immunoregulatory function of ECP treated monocytes on T cells in an in-vitro ECP model. We show that ECP-treated monocytes significantly induce proinflammatory T cell types in co-cultured T cells, while anti-inflammatory T cells remain unaffected. Furthermore, we found significantly reduced proliferation rates of T cells after co-culture with ECP-treated monocytes. Both changes in interleukin secretion and proliferation were dependent on cell-contact between monocytes and T cells. Interestingly, blocking interactions of programmed death ligand 1 (PD-L1) to programmed death 1 (PD-1) in the in-vitro model led to a significant recovery of T cell proliferation. These results set the base for further studies on the mechanism of ECP, especially the regulatory role of ECP-treated monocytes.

Successful autologous stem cell transplantation in two patients with juvenile dermatomyositis.

Juvenile dermatomyositis (JDM) is a chronic inflammatory disorder of unknown aetiology that affects muscle and skin. We report on two patients with severe progressive JDM who developed contractures and were wheelchair dependent despite therapy including methotrexate (MTX), steroids, immunoglobulins, cyclosporin A, and rituximab. On account of the refractory disease, autologous stem cell transplantation (ASCT) was performed using a CD3/CD19-depleted graft after immunoablative conditioning with fludarabine, cyclophosphamide, and anti-thymocyte globulin. This induced a dramatic improvement and sustained remission of the disease in both patients. We demonstrate that ASCT is a therapeutic option with low toxicity for patients with severe, refractory JDM.

Superantigen-induced lysis of melanoma cells.

Superantigens like the Staphylococcus enterotoxin A (SEA) can direct cytotoxic T lymphocytes expressing certain T cell receptor V beta regions to lyse MHC class II-positive target cells. This superantigen-dependent cellular cytotoxicity (SDCC) has been extended to MHC class II-negative tumour cells by targeting T cells via conjugates of a tumour-specific monoclonal antibody (moAb) and a superantigen. In the present study the MHC class II-negative human melanoma cell lines G361 and MaRI were tested for susceptibility to SDCC in vitro. Antibodies recognizing the disialoganglioside GD3 and the CD10 antigen were linked to SEA either by a recombinant protein A-SEA fusion protein or an anti-kappa moAb-SEA chemical conjugate. Specific lysis of melanoma cells was dose- and effector to target (E:T) cell ratio-dependent. Introduction of a point mutation into the SEA gene (producing SEAm9) in order to reduce MHC II affinity of the superantigen, which has already been shown to severely diminish superantigen-dependent binding and lysis of MHC class II-positive cells, did not influence antibody-targeted SDCC. Cytotoxicity was equal with both antibodies (anti-GD3 and anti-CD10) and independent of whether protein A-SEA, protein A-SEAm9 or anti-kappa-SEA were used.

T-cell stimulation and cytokine release induced by staphylococcal enterotoxin A (SEA) and the SEAD227A mutant.

Previous work demonstrated that human cytotoxic T cells activated by superantigens can lyse major histocompatibility complex (MHC) class II-positive target cells as well as MHC class II-negative tumour cells coated with conjugates of monoclonal antibodies and superantigens. In order to decrease MHC class II affinity, and therefore unwanted binding of the superantigen staphylococcal enterotoxin A (SEA) to MHC class II molecules, a point mutation was introduced into the SEA gene. This mutation (SEAD227A) resulted in an approximately 3-log reduction of affinity to human leucocyte antigen (HLA)-DR, but cytotoxicity mediated by this mutant superantigen towards antibody-labelled tumour cells is as efficient as cytotoxicity mediated by the native superantigen. We therefore compared the T-cell activating potency of native and mutated SEA. Our data show that SEAD227A is 4- to 5-log less effective than native SEA when activation of resting T cells is assayed in terms of blast formation, expression of cell surface activation markers and cytokine release. Furthermore, presenting either SEA or SEAD227A to MHC class II-negative mononuclear cells by MHC class II-negative tumour cells did not result in significant blast formation of T cells, up-regulation of CD25 or cytokine release. This suggests that lysis of MHC class II-negative tumour cells is efficiently induced by monoclonal antibody targeted superantigen, while activation of resting T cells requires additional co-stimulatory signals.

Superantigen-mediated cellular cytotoxicity is dependent on antigen expression, but independent of the P-glycoprotein multidrug resistance phenotype.

Superantigen-activated T cells can be targeted by monoclonal antibodies (mAb) to lyse MHC class II negative tumour cells. In this study we determined the susceptibility of the T-lymphoblastoid leukaemic cell line CCRF-CEM and its multidrug resistant sublines CCRF VCR100, CCRF VCR1000 and CCRF ADR5000 to lysis by monoclonal antibody-targeted and superantigen-activated T cells (superantigen-dependent cellular cytotoxicity, SDCC). A recombinant fusion protein of protein A and the superantigen Staphylococcus enterotoxin A (SEA) was used together with the mAbs anti-CD7, anti-CD38, anti-CD45RA and 4E3 (anti-P-glycoprotein) to correlate susceptibility to SDCC with expression of the MDR1-gene product. Our results demonstrated SDCC to be independent of MDR1-gene expression. This was further confirmed by blocking the function of Pgp in the leukaemic cell lines with a cyclosporine A derivative, which had no influence on SDCC. As expected, expression of the respective cell surface antigens on target cells had a strong impact on SDCC, although other factors seem to influence efficiency of SDCC as well.

[Quality of life after survival of severe trauma]. / Lebensqualität nach überlebter Schwerstverletzung.

Quality of life (QoL) was analyzed in 73 patients with severe multiple trauma (PTS > or = 40 patients) between 1 and 13 years after injury. QoL was assessed by the Aachen Longtime Outcome Score (ALOS), the Spitzer Index (SI) and individual self-assessment. The patients were asked about further social, financial, psychological and physical items. According to the ALOS, 81% of the patients showed moderate, 14% severe and 5% no disability. In 66% of the patients a favorable Spitzerindex (8-10 points) was found. Only 14% had poor SI scores (0-4 points). Also, two out of three patients regarded the current state of their health as "good" or "very good". Predominantly, handicaps resulted from permanent physical disability, in particular the lower extremities, whereas psychosocial and financial problems were reported infrequently. Besides injuries to the head or extremities, low QoL correlated with severity of injury and increasing age. Within the first 4 post-traumatic years SI and ALOS, as well as individual self-assessment, improved with time after injury. The rate of patients who returned to work (69%) was similar to other multiple trauma series, including series with less severe injuries. The reasonable long-term outcome even after severe multiple trauma seems to justify the enormous staff and economic expense required to manage these patients. Further improvement in QoL may be achieved by professional psychological support and early fracture treatment.

Superantigen-staphylococcal-enterotoxin-A-dependent and antibody-targeted lysis of GD2-positive neuroblastoma cells.

Superantigens such as the staphylococcal enterotoxin A (SEA) are among the most potent T cell activators known. They bind to major histocompatibility complex (MHC) class II molecules and interact with T cells depending on their T cell receptor (TCR) V beta expression. Superantigens also induce a variety of cytokines and trigger a direct cytotoxic effect against MHC-class-II-positive target cells. In order to extend superantigen-dependent cell-mediated cytotoxicity (SDCC) to MHC-class-II-negative neuroblastoma cells, SEA was linked to the anti-ganglioside GD2 human/mouse chimeric monoclonal antibody (mAb) ch14.18. Ganglioside GD2 is expressed on most tumours of neuroectodermal origin but is expressed to a lesser extent on normal tissues. The linkage of ch14.18 to SEA was achieved either with a protein-A-SEA fusion protein or by chemical coupling. Both constructs induced T-cell-mediated cytotoxicity towards GD2-positive neuroblastoma cells in an effector-to-target(E:T)-ratio- and dose-dependent manner in vitro. To reduce the MHC class II affinity of SEA, a point mutation was introduced in the SEA gene (SEAm9) that resulted in 1000-fold less T cell killing of MHC-class-II-expressing cells as compared to native SEA. However, a protein-A-SEAm9 fusion protein mediated cytotoxicity similar to that of protein-A-SEA on ch14.18-coated, MHC-class-II-negative neuroblastoma cells. Taken together, these findings suggest that superantigen-dependent and monoclonal-antibody-targeted lysis may be a potent novel approach for neuroblastoma therapy.

Antibody-targeted superantigens induce lysis of major histocompatibility complex class II-negative T-cell leukemia lines.

CTLs bearing certain T-cell receptor V beta-regions are directed by the bacterial superantigen Staphylococcus enterotoxin A (SEA) to lyse MHC class II-positive cells. In order to extend superantigen-dependent cytotoxicity to MHC class II-negative carcinoma cells, covalent conjugates of superantigen and mAbs against surface markers of these cells have been used. We now describe a novel strategy which allows rapid selection of mAb suitable for superantigen targeting against MHC class II-negative tumor cells. A recombinant fusion protein of protein A and SEA binding to the mAbs CD7 or CD38 was able to mediate T cell-dependent lysis of MHC class II-negative Molt-4 and CCRF-CEM acute lymphatic leukemia cell lines. Lysis was dose dependent and correlated with E:T cell ratio. In contrast, SEA alone did not induce any significant lysis. In order to decrease the MHC class II affinity of the protein A-SEA complex, a point mutation was introduced into SEA (protein A-SEA mu9). The mutated fusion protein had similar potency as protein A-SEA against Molt-4 cells but was 100-fold less active against MHC class II-positive cells. Considering the efficiency and specificity of the mutated SEA protein interacting with mAb in targeting T lymphocytes against MHC class II-negative leukemia cells while only marginally affecting normal MHC class II-positive cells, we suggest the development of SEA-mAb fusion proteins as a potential adjuvant therapy of leukemias.