These results suggest that the generation of a large amount of bradykinin by filtration of PCs through a negatively charged filter might cause hypotensive reactions in patients with decreased ACE activity. The clinical significance of bradykinin generation requires further study.
We examined the antileukemic effects of high concentrations of L-ascorbic acid (high AA) on human leukemic cells. In vitro, high AA markedly induced apoptosis in various leukemic cell lines by generating hydrogen peroxide (H2O2) but not in normal hematopoietic stem/progenitor cells. High AA significantly repressed leukemic cell proliferation as well as neoangiogenesis in immunodeficient mice. We then noted that in leukemic cells, HIF-1α transcription was strongly suppressed by high AA and correlated with the transcription of VEGF. Our data indicate that exposure to high AA markedly increased the intracellular AA content of leukemic cells and inhibited the nuclear translocation of NF-κB, which mediates expression of HIF-1α. We next generated K562 cells that overexpressed HIF-1α (K562-HIF1α cells) and assessed the mechanistic relationship between inhibition of HIF-1α transcription and the antileukemic effect of high AA. The ability of high AA to induce apoptosis was significantly lower in K562-HIF1α cells than in K562 cells in vitro. We found that expression of HIF-1α-regulated antiapoptotic proteins of the Bcl-2 family, such as Mcl-1, Bcl-xL, and Bcl-2, was significantly suppressed by high AA in K562 cells, but was sustained at higher levels in K562-HIF1α cells, regardless of high AA exposure. Moreover, repression of cell proliferation and neoangiogenesis by high AA was completely abrogated in mice receiving transplants of K562-HIF1α cells. These results indicate that, along with H2O2 generation, downregulation of HIF-1α transcription plays a crucial role in growth inhibition of human leukemic cells by high AA.
Summary. In an attempt to determine the pathological significance of a long arm deletion of chromosome 13 (13q-) in bone marrow failure syndrome, we reviewed the clinical records of nine patients who were initially diagnosed with aplastic anaemia due to bone marrow hypoplasia without dysplasia. Six patients responded to immunosuppressive therapy and the other three improved with steroids. None of the patients developed acute leukaemia (follow up: 54-129 months) and the estimated 5-year survival was 78%. These findings indicate that pancytopenia with 13q-represents bone marrow failure of a benign nature, similar to aplastic anaemia without karyotypic abnormalities, rather than preleukaemia.
Phenylbutyrate (PB) is a histone deacetylase antagonist that also exhibits antitumor activity. In this study, we used 7 breast cancer cell lines to identify biomarker candidates that predict PB sensitivity in breast cancer.Comprehensive gene expression profiles were compared using microarrays, and the importance of the identified genes to PB sensitivity was confirmed in gene transfection experiments. CRL and MDAMB453 cells were identified as PB-sensitive, while MDAMB231 cells were PB-resistant.RAB25 and ESRP1 were identified as key regulators of PB sensitivity, while ANKD1, ETS1, PTRF, IFI16 and KIAA1199 acted as PB resistance-related genes. Expression of these genes was dramatically altered by DNA demethylation treatments. RAB25 expression inhibited IFI16 and PTRF, while ESRP1 expression suppressed ANKRD1, ETS1, and KIAA1199. Both RAB25 and ESRP1 were suppressed by ZEB1, which was in turn regulated via epigenetic mechanisms. Thus, PB sensitivity is influenced by epigenetic expression alteration of ZEB1. The genes associated with PB sensitivity are downstream targets of ZEB1. Epigenetic regulation of ZEB1 may prove valuable as a critical biomarker for predicting resistance to breast cancer therapies.
The percent of granular lymphocytes of total bone marrow lymphocytes was 12.5% in controls, 15% in myeloma and 27% in monoclonal gammopathy of undetermined significance (MGUS). A good correlation was found between the percent of granular lymphocytes in the bone marrow lymphocytes at diagnosis (Y) and the years of survival (X) from the diagnosis of either the IgG- or IgA-type myeloma. The linear regression equation calculated for the IgG-type myeloma was Y = 1.6X + 7.42, and for the IgA-type myeloma Y = 4.25X + 4.75. For the purpose of analyzing in detail the granular lymphocyte behavior, two-color analyses of peripheral blood mononuclear cells and the serum levels of cytokines were performed. The absolute number of CD3+ cells, CD4+CD45RA+ cells and CD4+CD29+ cells was lower in the multiple myeloma (MM) cases than that of MGUS or controls (p < 0.01). The CD57+CD16+ natural killer (NK) cells were lower in MM cases than in MGUS cases. The serum levels of IL-1 which may activate NK cells, were higher in the MGUS cases than in either myeloma cases or controls (p < 0.01). The IL-10 levels, which may inhibit the proliferation of NK cells, were higher in the myeloma cases than in the MGUS cases (p < 0.05). Detailed understanding of the cytokine network of myeloma patients and their NK cell frequency may be important for the investigation of M proteinemias and for the future strategic planning of biological modulation therapies of myeloma patients.
Although vitamin C (VC) has recently garnered interest as an alternative cancer therapy, its clinical effects remain controversial. It was recently reported using in vitro prostate cancer cell lines that excess extracellular iron (EEI) diminishes anti-cancer effects of VC, promoting the decomposition of hydrogen peroxide (H2O2) generated by VC. Here we demonstrated that EEI diminished the inhibitory effect of VC on the survival of K562 human leukemic cells in vitro, by reducing the amount of H2O2 and abrogating the apoptosis pathways induced by VC. In vivo, in the presence of EEI, the growth inhibitory effect of VC on K562 cells was completely abrogated; in fact, VC enhanced K562 cell growth. Reduction of EEI restored the apoptosis-inducing effect of VC in vitro and enhanced the growth inhibitory effect of VC in vivo. Further studies are warranted to investigate whether the combination of VC and iron depletion has similar effects in various other leukemic or cancer cells against which VC has been effective in previous experimental studies.
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