Jun-ichi Furuyama

Association between genetic variants of mast-cell chymase and eczema

BACKGROUND Atopy is a common syndrome underlying asthma, rhinitis, and eczema, and is characterised by high immunoglobulin E (IgE) responses to common antigens. IgE and mast-cell chymase (MCC-a serine protease secreted by skin mast cells) have a key role in atopic or allergic inflammation of the skin. The gene for MCC is located within a cluster of genes for cellular proteases on chromosome 14q11.2. We aimed to identify variants of MCC and another gene within this complex, and assess whether there is a genetic association between variants of MCC and atopic disorders-particularly eczema. METHODS We randomly selected 100 controls and recruited patients-100 in each group-with atopic asthma, non-atopic asthma, atopic rhinitis, and atopic eczema. PCR amplification was used to test genomic DNA for an association between allelic polymorphisms in MCC and a flanking gene (CGL1, for the cathepsin-G-like protein) on chromosome 14q11 and asthma, rhinitis, and eczema. FINDINGS We found a significant association between a BstXI polymorphism in MCC and eczema (odds ratio 2.17 [95% CI 1.21-3.88], p = 0.009), but no association with atopic asthma, rhinitis, or non-atopic asthma. There was no association between an Mboll polymorphism in CGL1 and any of the atopic disorders. INTERPRETATION These findings suggest that variants of MCC may be one source of genetic risk for eczema.

Characterization of the three genotypes of low Km aldehyde dehydrogenase in a Japanese population.

A deficiency in low Km aldehyde dehydrogenase (ALDH2) is regarded as the main factor responsible for “Oriental flushing” and other symptoms due to alcohol sensitivity. In this study, the relationship of the ALDH2 genotype to alcohol-associated symptoms and drinking behavior was investigated in 524 Japanese workers, using a new, rapid, and nonisotopic polymerase chain reaction (PCR) method. Differences in the frequency of alcohol-associated manifestations between the normal homozygote and the other deficient types were apparent. In addition, among the ALDH2-deficient individuals, the atypical homozygote was obviously more hypersensitive to alcohol than the heterozygote, judging from the frequency of flushing or other drinking-associated manifestations with a small dose of alcohol. Drinking frequency also apparently decreased in the following order: typical homozygote, heterozygote, atypical homozygote. Similarly, mean amounts of alcohol consumption also decreased in the same order, although considerable variation existed within the typical homozygote and the heterozygote group. In contrast, neither the manifestations nor the drinking behavior were, in general, influenced by polymorphism of the alcohol dehydrogenase β-subunit (ADH2) gene in males. These findings further indicate the important contribution of the ALDH2 genotype to alcohol sensitivity in Orientals.

Linkage between severe atopy and chromosome 11q13 in Japanese families

Atopy, characterised by allergic asthma and rhinitis, is due to increased IgE responses to common aeroallergens. An Oxford group has described maternal inheritance of atopy, where there is significant linkage between IgE responsiveness and a VNTR marker D11S97 and a CA microsatellite within a candidate gene, the high affinity IgE receptor β subunit(FcεRIβ), on chromosome 11q. Attempts at independent replication have produced conflicting results. We therefore recruited 270 atopic asthmatic probands in a Japanese community population for genetic linkage analysis. Four families, each with more than 15 meioses and a clear phenotype for atopy, were selected for genetic analysis. Atopy was defined as presence of all of raised total IgE, positive RAST and skin tests to three or more aeroallergens; non‐atopy, as absence of all these criteria. Linkage analysis showed a maximum two‐point lod score of 9.35 for D11S97 and FcεRIβ under the assumption of unequal rates of maternal and paternal recombination. Two families showed close genetic linkage with FcεRIβ with a pattern of maternal inheritance. These results from a Japanese population provide further evidence for genetic linkage between severe atopy and chromosome 11q13 and the likelihood of genomic imprinting at the locus.

Fas antigen mRNA induction in postischemic murine brain.

Fas antigen mRNA induction in the brain was examined using a transient global cerebral ischemia model in BALB/C mice. Northern blot analysis revealed little Fas antigen mRNA expression in the brains of sham-operated mice. A marked induction of Fas mRNA expression was detected in the brains of mice 6 h after 30 min of cerebral ischemia. These results suggest a possible apoptotic mechanism for cell death, mediated by the Fas antigen, in postischemic brain.

Localization of Fas antigen mRNA induced in postischemic murine forebrain by in situ hybridization

The expression of mRNA for the Fas antigen, a membrane-associated protein mediating apoptosis, was localized by in situ hybridization histochemistry in murine brains following 30 min of global cerebral ischemia. Six hours following the ischemia, many labeled cells were detected anew throughout the brain. The hybridization was seen in the small neural cells and in the cells along the walls of the ventricles and vessels, and became undetectable 24 h following the ischemia. These results suggest that the Fas antigen is expressed in the neuron, glia and periventricular cells of the post-ischemic brain.

IL18 polymorphism is associated with an increased risk of Crohn’s disease

Background. The etiology of inflammatory bowel disease, which includes ulcerative colitis and Crohn’s disease, has not yet been made clear. However, inflammatory bowel disease is recognized as a multifactorial disease, and innate genetic factors might contribute to the pathogenesis. Cytokine genes are thought to be important in inflammatory bowel disease. Recently, interleukin 18, cloned as a novel proinflammatory cytokine, has been implicated in inflammatory bowel disease, especially Crohn’s disease. Methods. To identify germline mutations in patients with inflammatory bowel disease, the entire coding region of IL18 was examined using a DNA sequencing procedure. Results. No functional mutations were found, but a novel single nucleotide polymorphism (SNP) was identified as TCA/ TCC at codon 35. In patients with Crohn’s disease, the frequency of TCC allele carriers was significantly higher than in healthy controls (χ2 = 9.35, P = 0.002229, OR = 2.58, 95% CI = 1.39–4.80). Also, the magnitude of the association was more remarkable in females (χ2 = 16.36, P = 0.000052, OR = 8.17, 95% CI = 2.73–24.41). The TCC allele at codon 35 of IL18 may increase the risk for Crohn’s disease, especially in females. Conclusions.IL18 is probably one of several genes that determine susceptibility to Crohn’s disease.

Suppression of growth of hepatocellular carcinoma by sodium butyrate in vitro and in vivo

Treatment of HuH‐7 human hepatocellular carcinoma (HCC) cells with 1–10 mM sodium butyrate (SB) resulted in growth inhibition in a dose‐dependent manner. At 3 mM and higher concentrations, SB caused nuclear fragmentation and DNA ladder formation characteristic of apoptosis. In the treated cells, the expression of p21 (WAF1/CIP1) increased and that of α‐fetoprotein (AFP) decreased. These characteristic changes were also observed with 5 other human HCC cell lines with or without mutation of the p53 gene. The ability of these cells to form colonies in soft agar was suppressed by either pretreating the cells with SB prior to soft agar plating or incubating untreated cells in SB‐containing soft agar. Direct injection of SB into tumors developed from HuH‐7 cells in nude mice resulted in an increase in the p21 level, a decrease in the tumor size and an increase in the survival time of mice. When the inoculation of HuH‐7 cells into nude mice was immediately followed by subcutaneous injection of SB, development of tumors was either significantly delayed or completely suppressed. These results suggest that SB induces cellular differentiation and suppresses growth and tumorigenicity of HCC cells in vitro and in vivo by a mechanism independent of p53 but possibly dependent on p21. Int. J. Cancer 76:897–902, 1998.© 1998 Wiley‐Liss, Inc.

Increased expression of human DNA repair genes, XRCC1, XRCC3 and RAD51, in radioresistant human KB carcinoma cell line N10

The radioresistant N10 and parental KB cell lines were examined for the expression of human DNA repair genes which were related to the repair of radiation-induced DNA damage by northern blot analysis using five kinds of DNA probes (XRCC1, XRCC3, XRCC5, RAD51, RAD52). In the unirradiated condition, N10 cells showed higher expression of XRCC1, XRCC3 and RAD51 mRNA than did KB cells. The X-irradiation induced a time-dependent increase in the mRNA levels of XRCC3 and RAD51 in both cell lines with a maximum at 2 h postirradiation. The XRCC1 mRNA in N10 was maintained at the same level even after irradiation, whereas that in KB was decreased after irradiation. There was no difference in the expression of XRCC5 and RAD52 mRNA between N10 and KB cells in both unirradiated and irradiated conditions. From these findings, it was suggested that XRCC1, XRCC3 and RAD51 contribute to the radioresistance in cell line N10.

Are human herpes viruses or measles virus associated with esophageal achalasia

In order to test the hypothesis that esophageal achalasia may be due to neurotropic viral damage to the esophageal myenteric plexus, esophageal tissue with or without achalasia was analyzed by polymerase chain reaction for the presence of human herpes virus DNA or measles virus RNA. The DNA and RNA were extracted from the esophageal muscle of 12 patients with achalasia and six patients with upper esophageal carcinoma. Peripheral blood mononuclear cells from eight adult volunteers and two samples of umbilical blood mononuclear cells were also used as controls. PCR amplification with a pair of primers specific for herpes simplex type 1 and 2 viruses identified 92-bp fragments in nearly all specimens, including those without achalasia. Each 92-bp fragment was confirmed to be identical to a single herpes simplex virus sequence by automated DNA sequence analysis. No amplification for five other herpes viruses or measles virus was detected. Therefore, a specific viral etiology for achalasia was not identified in this study.

Stabilization of c-myc protein in human glioma cells

The regulation of c-myc protein, product of c-myc/genes, was studied in four glioma cell lines by Northern blot, pulse-chase dot blot, immunoblot and immunoprecipitation analyses. Northern blot analysis revealed no overexpression of c-myc transcript, and pulse-chase dot blot analysis showed normal turnover rate of c-myc transcript, suggestive of no evidence of aberrant regulation of c-myc at post-transcriptional level. The synthesis levels of c-myc protein were shown by immunoprecipitation and closely associated with the c-myc transcript levels demonstrated by Northern blot, suggestive of no evidence of aberrant translational control of c-myc, whereas they were dissociated from the accumulation levels of c-myc protein shown by immunoblot, suggestive of an evidence of aberrant regulation of c-myc at post-translational level. The mean (±standard deviation) half-lives of c-myc protein in four glioma cell lines were calculated from the pulse-chase immunoprecipitation analysis, and being 98±8 to 143±11 min, were about four-to sixfold longer than normal. In surgical specimens, the immunostain of c-myc protein was not found in normal astrocytes but localized heterogeneously in nuclei of reactive astrocytes and glioma cells, and increased in stained cell number in proportion to malignancy. Although this study was limited to four glioma cell lines, it suggests that the c-myc protein in glioma cells may be accumulated due to its prolonged half-life contributing to an uncontrolled proliferation.