Summary. This study analysed a naturally occurring specific cellular immunity against tumour cells in chronic lymphocytic leukaemia (CLL) patients. Five out of eight patients had blood T lymphocytes able to recognize spontaneously and specifically the autologous tumour B cells (proliferation assay). In these five patients, detection of cytokines by realtime reverse transcription polymerase chain reaction (RT-PCR) revealed that granulocyte±macrophage colony-stimulating factor (GM-CSF) was the most abundant cytokine gene expressed by the T cells that recognized the autologous tumour B cells. Other activated cytokine genes were ginterferon (IFN), interleukin (IL)-2 and tumour necrosis factor (TNF)-a, but not IL-4. This profile suggests a type 1 anti-B-CLL T-cell response. CD80 and CD54 were relatively downregulated on the native tumour B cells compared with control normal B cells. Upregulation of CD80 on the leukaemic cells was mandatory for the induction of such a specific T-cell response. CD80 and CD54 monoclonal antibodies inhibited the specific T-cell DNA synthesis proliferation. The proliferative T-cell response was either MHC class I or class II restricted (inhibition by monoclonal antibodies). The specific cytokine gene expression could be found in isolated CD4, as well as CD8, T-cell subsets. This study demonstrated the presence of a potential natural specific CD4, as well as a CD8 type 1 T-cell immunity against the leukaemic CLL tumour B cells in CLL. A further detailed analysis of the spontaneous anti-CLL T-cell immunity is warranted that may facilitate the development of effective anti-tumour vaccines in CLL.
Summary. Dendritic cells (DC) are attractive candidates for use in vaccine-based immunotherapy. We have analysed the functional capability of DC generated in vitro from blood CD14 1 cells of chronic lymphocytic leukaemia (CLL) patients and healthy donors by culturing for 10 d with granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin 4 (IL-4) and tumour necrosis factor-a (TNF-a). Two distinct DC populations were identified in patients as well as in controls. The majority of DC expressed CD11c and a minority also CD123. Most of the DC generated from both patients and controls exhibited a mature phenotype indicated by CD83 and major histocompatibility complex (MHC) class II expression, as well as by a characteristic morphology. Less than 1% of DC exhibited CD14. CLL DC had a similar expression of accessory molecules (CD54, CD80 and CD86) as control DC. The mean fluorescence intensity of CD80 and MHC class I molecules was significantly higher on CLL DC than on control DC (P , 0´05). At the gene level (real-time polymerase chain reaction) the expression of IL-10 was higher in CLL (P 0´028) than in control DC. IL-1b and IL-12p 35 transcripts were also more abundant in CLL than in control DC but did not reach statistical significance. The expression of IL-4 and TNF-a was similar to that of control DC. The interferon g (IFN-g) gene expression level in CLL DC was decreased compared with control DC. DC of CLL patients had a similar capacity to stimulate in mixed leucocyte reaction as well as to present a recall antigen (PPD) as control DC. Thus, DC of CLL patients seem to have a normal function and may serve as antigen preserving cells for presentation of tumour antigens in a therapeutic vaccination approach. The mechanisms behind the observed increase in some surface molecules and the abnormal cytokine profile of CLL DC is not clear but might indicate pre-activation of DC in vivo, which may have a regulatory role in the pathobiology of CLL.
We have previously shown that autologous T cells recognize leukaemic cells from patients with chronic lymphocytic leukaemia (B-CLL) in an MHC class I- and/or II-restricted manner. A candidate recognition structure might be the tumour cell-derived Ig VH complementarity-determining region (CDR)3. Three patients with B-CLL were analysed for the presence of autologous T cells recognizing the tumour-specific VH-CDR3 region. The VH region was shown to be mutated in all three patients. In two patients, a VH-CDR3-specific T-cell response was detected by proliferation assay, as well as by gamma-interferon (IFN) production. The responses could be inhibited by monoclonal antibodies against MHC class II, but not MHC class I. In the third patient, a VH-CDR3 proliferative response was detected, which could be inhibited by an anti-MHC class I monoclonal antibody, but not by anti-MHC class II antibodies. No gamma-IFN response could be detected in this patient. In no patient was an interleukin (IL)-4 response noted. Thus, in patients with B-CLL, naturally occurring T cells recognizing the tumour-unique VH-CDR3 region are present.
Summary.We have previously shown that autologous T cells recognize leukaemic cells from patients with chronic lymphocytic leukaemia (B-CLL) in an MHC class I-and/or II-restricted manner. A candidate recognition structure might be the tumour cell-derived Ig VH complementaritydetermining region (CDR)3. Three patients with B-CLL were analysed for the presence of autologous T cells recognizing the tumour-specific VH-CDR3 region. The VH region was shown to be mutated in all three patients. In two patients, a VH-CDR3-specific T-cell response was detected by proliferation assay, as well as by g-interferon (IFN) production. The responses could be inhibited by monoclonal antibodies against MHC class II, but not MHC class I. In the third patient, a VH-CDR3 proliferative response was detected, which could be inhibited by an anti-MHC class I monoclonal antibody, but not by anti-MHC class II antibodies. No g-IFN response could be detected in this patient. In no patient was an interleukin (IL)-4 response noted. Thus, in patients with B-CLL, naturally occurring T cells recognizing the tumourunique VH-CDR3 region are present.
This study analysed a naturally occurring specific cellular immunity against tumour cells in chronic lymphocytic leukaemia (CLL) patients. Five out of eight patients had blood T lymphocytes able to recognize spontaneously and specifically the autologous tumour B cells (proliferation assay). In these five patients, detection of cytokines by real-time reverse transcription polymerase chain reaction (RT-PCR) revealed that granulocyte-macrophage colony-stimulating factor (GM-CSF) was the most abundant cytokine gene expressed by the T cells that recognized the autologous tumour B cells. Other activated cytokine genes were gamma-interferon (IFN), interleukin (IL)-2 and tumour necrosis factor (TNF)-alpha, but not IL-4. This profile suggests a type 1 anti-B-CLL T-cell response. CD80 and CD54 were relatively downregulated on the native tumour B cells compared with control normal B cells. Upregulation of CD80 on the leukaemic cells was mandatory for the induction of such a specific T-cell response. CD80 and CD54 monoclonal antibodies inhibited the specific T-cell DNA synthesis proliferation. The proliferative T-cell response was either MHC class I or class II restricted (inhibition by monoclonal antibodies). The specific cytokine gene expression could be found in isolated CD4, as well as CD8, T-cell subsets. This study demonstrated the presence of a potential natural specific CD4, as well as a CD8 type 1 T-cell immunity against the leukaemic CLL tumour B cells in CLL. A further detailed analysis of the spontaneous anti-CLL T-cell immunity is warranted that may facilitate the development of effective anti-tumour vaccines in CLL.
SummaryIn this pilot study, T-cell receptor B-variable (TCR-BV) gene usage in CD4 and CD8 T cells was assessed, by real-time polymerase chain reaction, as well as complementarity-determining region 3 (CDR3)-length polymorphism, before and after therapy in five patients with B-cell chronic lymphocytic leukaemia who received alemtuzumab (anti-CD52 monoclonal antibody) as first-line therapy. A decline in expression of most BV family genes in both CD4 and CD8 T cells was observed after alemtuzumab treatment, which was followed by a gradual increase in most BV families during long-term followup. After treatment, CDR3-length polymorphism showed an even more restricted pattern in CD4 T cells compared with pretreatment, with a shift towards a monoclonal/oligoclonal pattern. The clonally restricted pattern was significantly reduced in CD4 (P < 0AE01) but not in CD8 T cells. This was followed by a gradual increase in the number of peaks within the CDR3 region of the different TCR-BV families, i.e. a polyclonal repertoire, during long-term follow-up. A restricted CDR3 pattern became even more restricted after treatment, but normalised during unmaintained follow-up. These results indicate that perturbations in the T-cell alterations following alemtuzumab are complex and include not only changes in CD4/CD8 Tcell numbers but also a highly restricted T-cell repertoire especially in CD4 T cells.
Oxidative damage by free radicals has a negative effect on blood quality during storage. Antioxidant nanoparticles can prevent oxidative stress. We use SOD-CAT-Alb-PEG-PLGA-nanoparticles to reduce the effects of oxidative stress in blood storage. Electrospray was employed to prepare nanoparticles. Nanoparticles entered the test bags and were kept for 35 days from the time of donation under standard conditions. On target days, experiments were performed on the samples taken. The examination included blood smear, red blood cells count, hemoglobin, hematocrit, K, Fe, glutathione peroxidase, glutathion reductase, glucose-6-phosphate dehydrogenase, prooxidant-antioxidant balance, malondialdehyde, and flow cytometric assay for phosphatidylserine. The repeated measures analysis was performed on samples every week. Morphological changes were less in the test group compared to the control. The quantitative hemolysis profile test showed significant changes in the test and control groups (p < 0.05) in consecutive weeks except for K and Fe. Oxidative stress parameters too showed a significant change during the target days of the examination (p < 0.05
Background: The correlation between gene expression of ABCC transporters and recurrence as a treatment failure in pediatric patients with acute lymphoblastic leukemia (ALL) is an unsolved problem in scientific associations. The aim of this study was to evaluate the predictive value of ABCC1-6 gene expression pattern for estimating recurrence in Iranian pediatric patients with ALL. Materials and Methods: Iranian pediatric patients with approved ALL enrolled in this study as 2 groups of case (relapsed ALL) and control (treated individuals who lasted for >3 years following their final treatment). Real-time polymerase chain reaction was done with GAPDH for expressing ABCC1-6 transporter genes. Cumulative doses of Vincristine, Daunorubicin, and L-Asparginase were checked for each patient. Gathered data analyzed with SPSS version 22 and REST 2009 software. Results: Thirty-nine samples as 23 relapsed ALL and 16 controls enrolled. High expression of ABCC2-6 and low expression of ABCC1 were detected in pediatric patients with relapse. ABCC3 and ABCC4 had significant relation with high-risk patients of NCI group. Also, ABCC4 and ABCC6 had more expression with high doses of Daunorubicin and L-Asparginase. Conclusions: Designed expression pattern have the predictive value for estimating of conferring relapse in Iranian pediatric patients with diagnosed ALL. The authors suggest of designing a multiple childhood malignancy center project to evaluate this pattern in a cohort study.
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