Yukie Tanaka

Sendai Virus Blocks Alpha Interferon Signaling to Signal Transducers and Activators of Transcription

ABSTRACT We demonstrate here that Sendai virus (SeV) blocks alpha interferon (IFN-α) signaling to signal transducers and activators of transcription (STATs) in HeLa cells. IFN-α-stimulated tyrosine phosphorylation of STATs and subsequent formation of the IFN-stimulated gene factor 3 transcription complex were inhibited in SeV-infected cells, resulting in inefficient induction of IFN-stimulated gene products. None of the components of the signaling pathway—type I IFN receptor subunits Jak1, Tyk2, Stat1, Stat2, and p48—was degraded. Moreover, tyrosine phosphorylation of Jak1 in response to IFN-α was unaffected at the early phase of infection, suggesting that oligomerization of the receptor subunits proceeded normally. In contrast to Jak1, IFN-α-stimulated tyrosine phosphorylation of Tyk2 was partially inhibited. Therefore, this partial inhibition of activation of Tyk2 probably contributes to the subsequent failure in the activation of STATs.

Nicotine induces human neutrophils to produce IL‐8 through the generation of peroxynitrite and subsequent activation of NF‐κB

Leukocytosis in tobacco smokers has been well recognized; however, the exact cause has not been elucidated. To test the hypothesis that tobacco nicotine stimulates neutrophils in the respiratory tract to produce IL‐8, which causes neutrophilia in vivo, we examined whether nicotine induces neutrophil‐IL‐8 production in vitro; the causative role of NF‐κB in its production, in association with the possible production of reactive oxygen intermediates that activate NF‐κB; and the nicotinic acetylcholine receptors (nAChRs) involved in IL‐8 production. Nicotine stimulated neutrophils to produce IL‐8 in both time‐ and concentration‐dependent manners with a 50% effective concentration of 1.89 mM. A degradation of IκB‐α/β proteins and an activity of NF‐κB p65 and p50 were enhanced following nicotine treatment. The synthesis of superoxide and the oxidation of dihydrorhodamine 123 (DHR) were also enhanced. The NOS inhibitor, nω‐Nitro‐l‐arginine methyl ester, prevented nicotine‐induced IL‐8 production, with an entire abrogation of DHR oxidation, IκB degradation, and NF‐κB activity. Neutrophils spontaneously produced NO whose production was not increased, but rather decreased by nicotine stimulation, suggesting that superoxide, produced by nicotine, generates peroxynitrite by reacting with preformed NO, which enhances the NF‐κB activity, thereby producing IL‐8. The nAChRs seemed to be involved in IL‐8 production. In smokers, blood IL‐8 levels were significantly higher than those in nonsmokers. In conclusion, nicotine stimulates neutrophil‐IL‐8 production via nAChR by generating peroxynitrite and subsequent NF‐κB activation, and the IL‐8 appears to contribute to leukocytosis in tobacco smokers.

Newborn mass screening and selective screening using electrospray tandem mass spectrometry in Japan.

Electrospray tandem mass spectrometry was applied to detect a series of inherited metabolic disorders during a newborn-screening pilot study and a selective screening in Japan. In our mass screening of 102,200 newborns, five patients with propionic acidemia, two with methylmalonic acidemia, two with medium-chain acyl-CoA dehydrogenase deficiency, three with citrullinemia type II, and one with phenylketonuria were identified. In a selective screening of 164 patients with symptoms mainly related to hypoglycemia and/or hyperammonemia, 12 with fatty acid oxidation disorders and six with other disorders were found. The results indicated the importance of newborn screening using this technology in Japan.

Prenatal diagnosis of organic acidemias based on amniotic fluid levels of acylcarnitines

Acylcarnitines in amniotic fluid samples were analyzed for the prenatal diagnosis of propionic acidemia, methylmalonic aciduria, isovaleric acidemia, and glutaric aciduria by electrospray tandem mass spectrometry. Although the levels of the specific acylcarnitine between affected and unaffected cases showed an overlap, the ratios of propionylcarnitine to 4-carbon acylcarnitine levels for propionic acidemia and methylmalonic aciduria, those of isovalerylcarnitine to propionylcarnitine for isovaleric acidemia, and those of glutarylcarnitine to propionylcarnitine for glutaric aciduria type I were shown to be reliable indicators in the prenatal diagnosis. In addition, it is suggested that the combination of the ratios of glutarylcarnitine, isovalerylcarnitine, and hexanoylcarnitine to propionylcarnitine may be useful for the prenatal diagnosis of glutaric aciduria type II.

Blood screening for non-A, non-B hepatitis by hepatitis C virus antibody assay.

ABSTRACT: Hepatitis C virus (HCV) antibody was detected in 1499 donor sera by radioimmunoassay using an antigen expressed in yeast from a cDNA clone of the HCV genome. Eighteen samples over 4200 counts per minute (cpm) were considered to contain infectious HCV because these recipients developed typical posttransfusion non‐A,non‐B hepatitis after transfusion. The antibody‐positive sera were all within the normal range of ALT levels. This assay system is thus useful for the screening for blood transfusion.

Protein expression profiling of lens epithelial cells from Prdx6-depleted mice and their vulnerability to UV radiation exposure

Oxidative stress is one of the causative factors in progression and etiology of age-related cataract. Peroxiredoxin 6 (Prdx6), a savior for cells from internal or external environmental stresses, plays a role in cellular signaling by detoxifying reactive oxygen species (ROS) and thereby controlling gene regulation. Using targeted inactivation of the Prdx6 gene, we show that Prdx6-deficient lens epithelial cells (LECs) are more vulnerable to UV-triggered cell death, a major cause of skin disorders including cataractogenesis, and these cells display abnormal protein profiles. PRDX6-depleted LECs showed phenotypic changes and formed lentoid body, a characteristic of terminal cell differentiation and epithelial-mesenchymal transition. Prdx6(-/-) LECs exposed to UV-B showed higher ROS expression and were prone to apoptosis compared with wild-type LECs, underscoring a protective role for Prdx6. Comparative proteomic analysis using fluorescence-based difference gel electrophoresis along with mass spectrometry and database searching revealed a total of 13 proteins that were differentially expressed in Prdx6(-/-) cells. Six proteins were upregulated, whereas expression of seven proteins was decreased compared with Prdx6(+/+) LECs. Among the cytoskeleton-associated proteins that were highly expressed in Prdx6-deficient LECs was tropomyosin (Tm)2beta. Protein blot and real-time PCR validated dramatic increase of Tm2beta and Tm1alpha expression in these cells. Importantly, Prdx6(+/+) LECs showed a similar pattern of Tm2beta protein expression after transforming growth factor (TGF)-beta or H(2)O(2) treatment. An extrinsic supply of PRDX6 could restore Tm2beta expression, demonstrating that PRDX6 may attenuate adverse signaling in cells and thereby maintain cellular homeostasis. Exploring redox-proteomics (Prdx6(-/-)) and characterization and identification of abnormally expressed proteins and their attenuation by PRDX6 delivery should provide a basis for development of novel therapeutic interventions to postpone ROS-mediated abnormal signaling deleterious to cells or tissues.

Modifications in electrospray tandem mass spectrometry for a neonatal-screening pilot study in Japan.

In a neonatal-screening pilot study for inherited disorders in organic acid and amino acid metabolism, we analyzed butyrated acylcarnitines and amino acids in blood spots of more than 20,000 newborns by electrospray tandem mass spectrometry. In order to screen urea cycle disorders, we performed multiple scanning functions with additional stable isotope-labelled internal standards, since such reported functions as neutral loss of m/z 102 or 109 for butyrated amino acids were not sufficient. Arginine levels were measured with arginine-13C6. Hypocitrullinemia for the screening of some urea cycle disorders was detectable by measurement with synthesized citrulline-d6, although we did not find any such disorders. In the acylcarnitine analysis, we found a patient with propionic acidemia, who has been treated effectively. The increasing false positive rate due to the use of pivalic acid-containing antibiotics in the diagnosis of isovaleric acidemia was a problem in Japan.

Selective screening for fatty acid oxidation disorders by tandem mass spectrometry: difficulties in practical discrimination

In a selective screening for fatty acid oxidation disorders by tandem mass spectrometry, we tested the diagnostic ratios and acylcarnitine concentrations in sera or blood spots, which were reported to be specific to very long-chain acyl CoA dehydrogenase deficiency, carnitine palmitoyltransferase I deficiency, and carnitine palmitoyltransferase II deficiency. While the acylcarnitine profiles in the majority of these patients were typical in the respective disorders, some overlapping of the indices was observed between these patients and the infants, who showed symptoms mainly related to hypoglycemia but did not have the disorders mentioned above. Although the diagnostic ratio of tetradecenoylcarnitine to dodecanoylcarnitine for very long-chain acyl CoA dehydrogenase deficiency seemed to minimize the overlapping in this study, additional measures including careful assessment of clinical data and enzyme assays may be necessary for the diagnosis in atypical cases.

CCN1 (Cyr61) Is Overexpressed in Human Osteoarthritic Cartilage and Inhibits ADAMTS-4 (Aggrecanase 1) Activity

ADAMTS‐4, also called aggrecanase 1, is considered to play a key role in aggrecan degradation in human osteoarthritic (OA) cartilage, but information about regulators of ADAMTS‐4 aggrecanase activity remains limited. We undertook this study to search for molecules that modulate ADAMTS‐4 activity.

Novel leukemic cell lines resistant to clofarabine by mechanisms of decreased active metabolite and increased antiapoptosis

Clofarabine (CAFdA) is incorporated into leukemic cells by human equilibrative nucleoside transporters (hENT) 1 and 2 and human concentrative nucleoside transporter (hCNT) 3. CAFdA is then phosphorylated to the active metabolite CAFdA triphosphate (CAFdATP) by deoxycytidine kinase (dCK) and deoxyguanosine kinase (dGK). Two novel CAFdA‐resistant variants were established and their mechanism of resistance was elucidated. The two variants (HL/CAFdA20, HL/CAFdA80) were 20‐fold and 80‐fold more CAFdA‐resistant than HL‐60, respectively. mRNA levels of hENT1, hENT2 and hCNT3 were 53.9, 41.8 and 17.7% in HL/CAFdA20, and 30.8, 13.9 and 7.9% in HL/CAFdA80, respectively, compared with HL‐60. Thus, the total nucleoside transport capacity of CAFdA was reduced in both variants. dCK protein levels were 1/2 in HL/CAFdA20 and 1/8 in HL/CAFdA80 of that of HL‐60. dGK protein levels were 1/2 and 1/3, respectively. CAFdATP production after 4‐h incubation with 10 μM CAFdA was 20 pmol/107cells in HL/CAFdA20 and 3 pmol/107cells in HL/CAFdA80 compared with 63 pmol/107cells in HL‐60. The decreased CAFdATP production attenuated drug incorporation into both mitochondrial and nuclear DNA. In addition, the two variants were resistant to CAFdA‐induced apoptosis due to Bcl2 overexpression and decreased Bim. A Bcl2 inhibitor, ABT737, acted synergistically with CAFdA to inhibit the growth with combination index values of 0.27 in HL/CAFdA20 and 0.23 in HL/CAFdA80, compared with 0.65 in HL‐60. Thus, the mechanism of resistance primarily included not only reduced CAFdATP production, but also increased antiapoptosis. The combination of CAFdA and ABT737 may be effective against CAFdA resistance.