Heparanase wildtype is associated with a reduced incidence of transplant-associated systemic vasculopathies.

Some of the early complications of hematopoietic stem cell transplantation (HSCT) concerning the small vessels can be summarized as transplant-associated systemic vasculopathies (TASV). One enzyme known to play a major role in inflammation, tissue remodeling, and repair processes as well as tumor metastasis is heparanase (HPSE). HPSE genetic variants have recently been associated with significant influence on the risk of developing certain TASV such as a sinusoidal obstruction syndrome. This study aimed to validate the two known HPSE single nucleotide polymorphisms (SNPs)-rs4693608 and rs4364254-as a genetic predictor of TASV in a cohort of 494 patients and were correlated retrospectively with the clinical course post-HSCT. Significant association was revealed for rs4364254, showing that the incidence of TASV (38.0% vs. 57.8%, p = .009) and in particular of acute graft-versus-host disease (aGvHD) (36.3% vs. 54.0%, p = .0138) was lower in wildtype CC carriers than in TC/TT carriers. Moreover, compared with all other genotypes, the allelic combination GG-CC had the lowest incidence of TASV (34.9% vs. 57.4%, p = .0109) and aGvHD in particular (34.9% vs. 53.5%, p = .0315). A competing risk regression analysis confirmed a significantly reduced risk for a TASV in patients with GG (subhazard ratio [SHR] = 0.670, p = .043) and CC (SHR = 0.598, p = .041) compared with the corresponding homozygote SNP as well as for allelic combinations correlated with low HPSE gene expression (SHR = 0.630, p = .016) and in correlation with clinical risk factors. In summary, our study emphasizes an association of HPSE gene SNPs with TASV, in particular with aGvHD, which could be implementable as pre-transplant risk stratification if validated prospectively.

Integrative medicine during the intensive phase of chemotherapy in pediatric oncology in Germany: a randomized controlled trial with 5-year follow up.

BACKGROUND: Integrative medicine is used frequently alongside chemotherapy treatment in pediatric oncology, but little is known about the influence on toxicity. This German, multi-center, open-label, randomized controlled trial assessed the effects of complementary treatments on toxicity related to intensive-phase chemotherapy treatment in children aged 1-18 with the primary outcome of the toxicity sum score. Secondary outcomes were chemotherapy-related toxicity, overall and event-free survival after 5 years in study patients. METHODS: Intervention and control were given standard chemotherapy according to malignancy & tumor type. The intervention arm was provided with anthroposophic supportive treatment (AST); given as anthroposophic base medication (AMP), as a base medication for all patients and additional on-demand treatment tailored to the intervention malignancy groups. The control was given no AMP. The toxicity sum score (TSS) was assessed using NCI-CTC scales. RESULTS: Data of 288 patients could be analyzed. Analysis did not reveal any statistically significant differences between the AST and the control group for the primary endpoint or the toxicity measures (secondary endpoints). Furthermore, groups did not differ significantly in the five-year overall and event-free survival follow up. DISCUSSION: In this trial findings showed that AST was able to be safely administered in a clinical setting, although no beneficial effects of AST between group toxicity scores, overall or event-free survival were shown.

[Maculopathy in sickle cell disease]. / Makulopathie bei Sichelzellerkrankung.

BACKGROUND: Sickle cell disease (SCD) is a hereditary hemoglobinopathy, which leads to microcirculatory disturbances of various organ systems through recurrent vaso-occlusive episodes, with a possibly fatal outcome. Sickle cell retinopathy (SCR) is the best described ocular manifestation of SCD. Irrespective of the presence of peripheral SCR, sickle cell maculopathy (SCM) can occur early in the course of the disease. METHODS: Review of the international and German literature on ocular involvement in SCD with a focus on SCR and SCM and an overview of current systemic therapeutic approaches in SCD on the occasion of the presentation of two patients with HbSS SCD. RESULTS AND CONCLUSION: In contrast to SCR, SCM with temporal thinning of the inner retinal layers has only been increasingly described in the literature in the last 5 years, with the advent of SD-OCT and OCTA. Irrespective of the presence of SCR, as many as about half of the patients may develop SCM early in the course of the disease. As a result of progress in systemic therapeutic options and due to migration, the clinical picture will occur more often also in Germany. By knowing about this complication of SCD an early diagnosis can be made and unnecessary diagnostics can be avoided.

Immunostimulation by OX40 Ligand Transgenic Ewing Sarcoma Cells.

Interleukin-2 (IL-2) transgenic Ewing sarcoma cells can induce tumor specific T and NK cell responses and reduce tumor growth in vivo and in vitro. Nevertheless, the efficiency of this stimulation is not high enough to inhibit tumor growth completely. In addition to recognition of the cognate antigen, optimal T-cell stimulation requires signals from so-called co-stimulatory molecules. Several members of the tumor necrosis factor superfamily have been identified as co-stimulatory molecules that can augment antitumor immune responses. OX40 (CD134) and OX40 ligand (OX40L = CD252; also known as tumor necrosis factor ligand family member 4) is one example of such receptor/ligand pair with co-stimulatory function. In the present investigation, we generated OX40L transgenic Ewing sarcoma cells and tested their immunostimulatory activity in vitro. OX40L transgenic Ewing sarcoma cells showed preserved expression of Ewing sarcoma-associated (anti)gens including lipase member I, cyclin D1 (CCND1), cytochrome P450 family member 26B1 (CYP26B1), and the Ewing sarcoma breakpoint region 1-friend leukemia virus integration 1 (EWSR1-FLI1) oncogene. OX40L-expressing tumor cells showed a trend for enhanced immune stimulation against Ewing sarcoma cells in combination with IL-2 and stimulation of CD137. Our data suggest that inclusion of the OX40/OX40L pathway of co-stimulation might improve immunotherapy strategies for the treatment of Ewing sarcoma.

Indoleamine-2,3-dioxygenase in an immunotherapy model for Ewing sarcoma.

BACKGROUND/AIM: Interleukin-2 (IL2) transgenic Ewing sarcoma cells reduce tumor growth in vivo and in vitro. In the present study we analyzed the expression of immune suppressive indoleamine-2,3-dioxygenase (IDO) in this model. MATERIALS AND METHODS: Expression of IDO was analyzed by polymerase chain reaction. The impact of the cluster of differentiation 137 (CD137)/CD137 ligand (CD137L) co-stimulatory system on expression of IDO and different cytokines was analyzed both in vivo and in vitro. RESULTS: Tumors that developed in vivo in the presence of IL2 transgenic tumor cells expressed IDO. The presence of CD137L transgenic tumor cells led to down-regulation of IDO. Further in-vitro analysis of this phenomenon indicated that IDO was expressed in tumor cells as a consequence of interferon-gamma produced by lymphocytes in response to IL2. Depending on the concentration of IL2, stimulation of CD137 increased or reduced cytokine production in lymphocytes. CONCLUSION: Our data indicate that the CD137/CD137L pathway can modulate the immune response against Ewing sarcoma cells.

CD137 stimulation and p38 MAPK inhibition improve reactivity in an in vitro model of glioblastoma immunotherapy.

Dendritic cell vaccination has become an interesting option for cancer immunotherapy. Tumor-lysate-pulsed dendritic cells (DC) can prime naïve T cells and induce the regression of established tumors including gliomas as shown in various animal models. Despite hopeful results even in clinical studies, the outcome for many patients is still unsatisfying. In the present study, we tested the combination of tumor-lysate-pulsed dendritic cells (TPDC) with a monoclonal antibody against CD137, a monoclonal antibody against CD25 (daclizumab) and a specific p38 mitogen-activated protein kinase (p38 MAPK) inhibitor (SB203580) for improving immunostimulation in an in vitro model of immunotherapy for human gliomas. We observed a higher secretion of interferon gamma by TPDC-primed peripheral blood mononuclear cells (PBMC) that were incubated with an antibody against CD137 or the p38 MAPK inhibitor. In addition, we observed higher specific lysis of tumor cells after incubation of PBMC with the p38 MAPK inhibitor or the anti-CD137 antibody. In contrast, incubation of TPDC-primed PBMC with the anti-CD25 antibody did enhance neither interferon gamma secretion nor cellular cytotoxicity. Cell depletion experiments demonstrated that the immune reaction induced by TPDC is strongly dependent on CD4-positive and CD8-positive cells. Incubation of DC during maturation and antigen loading with the anti-CD137 antibody did not enhance cytotoxicity and interferon gamma secretion in comparison with application of the anti-CD137 antibody during priming. In conclusion, our data suggest that p38 MAPK inhibition and anti-CD137 antibodies can enhance the immune response against glioblastoma cells.

Gene expression profiles of Hodgkin's lymphoma cell lines with different sensitivity to cytotoxic drugs.

OBJECTIVE: The prognosis of patients with Hodgkin's lymphoma (HL) has been significantly improved as a result of combination treatment including chemotherapy. However, some patients are refractory to chemotherapy. Therefore, identification of new targets might be useful for development of alternative treatment strategies. In addition, identification of markers associated with chemoresistance can be used to identify patients with increased risk of relapse. MATERIALS AND METHODS: By using high-density DNA microarrays, we analyzed the gene-expression profile of HL-cell lines in comparison to a set of normal tissues. Furthermore, we tested the sensitivity of HL cells for cytotoxic drugs (cisplatin, etoposide, melphalan) and compared the gene-expression profile of chemotherapy-resistant and -sensitive cell lines. Differentially expressed genes were validated by polymerase chain reaction and flow cytometry. RESULTS: In addition to genes with high expression in all cell lines, we observed differences between the gene-expression profile of chemotherapy-resistant and -sensitive cells. Genes upregulated in resistant cells include cytokine receptors (IL5RA, IL13RA1), markers expressed on antigen-presenting cells (CD40, CD80), as well as genes with known association to chemoresistance, e.g., myristoylated alanine-rich protein kinase C substrate. In addition, the tumor antigen PRAME (preferentially expressed antigen in melanoma) was expressed in resistant cell lines only. CONCLUSION: Genes with high expression in HL cells might be potential targets for development of future therapeutic interventions. Expression of tumor antigens together with costimulatory molecules in chemotherapy-resistant HL cells might become targets for cytotoxic T-cell responses against HL cells.

Possible association of non-binding of HSP70 to HLA-DRB1 peptide sequences and protection from rheumatoid arthritis.

The beta-chains of HLA-DR molecules associated with susceptibility to rheumatoid arthritis (RA) share a common amino acid sequence in their third hypervariable region at position 70-74. This shared epitope could either contribute to preferential binding of a given disease-associated peptide, be involved in disease-induction by molecular mimicry or, by binding to heat shock proteins, influence antigen presentation. It is known that the Escherichia coli M(r)70,000 heat shock protein DnaK can bind peptides from the shared epitope. Using a highly sensitive method, we show that peptides covering the third hypervariable region of associated, but also most of the non-associated HLA-DR alleles, bind to DnaK. Similar binding specificities could be found for the constitutively expressed mammalian M(r)70,000 heat shock protein Hsc73 and the inducible mammalian Hsp72. However, peptides containing the amino acid sequence DERAA, found in HLA-DR alleles and strongly associated with protection from RA, did not bind any HSP70. Thus, our results suggest a possible association of non-binding of HSP70 to HLA-DR molecules or its 70-74 fragments and protection from RA.