Of 11 children with juvenile myelomonocytic leukemia (JMML) carrying RAS mutations (8 with NRAS mutations, 3 with KRAS2 mutations), 5 had a profound elevation in either or both the white blood cells and spleen size at diagnosis. Three patients had no or modest hepatosplenomegaly and mild leukocytosis at presentation but subsequently showed a marked increase in spleen size with or without hematologic exacerbation, for which nonintensive chemotherapy was initiated. The other three patients with NRAS or KRAS2 glycine to serine substitution received no chemotherapy, but hematologic improvement has been observed during a 2-to 4-year follow up. In the third group, all hematopoietic cell lineages analyzed had the RAS mutations at the time of hematologic improvement, whereas DNA ob- IntroductionSomatic point mutations of the RAS genes at codons 12, 13, and 61 (NRAS and KRAS2) are found in approximately 20% of patients with juvenile myelomonocytic leukemia (JMML). 1,2 Other patients show inactivation of NF1 or PTPN11 mutations. [3][4][5] Although most patients with JMML die from progressive disease unless treated with hematopoietic stem cell transplantation, there are a few patients who have been reported to spontaneously recover without intervention. 6,7 Some of these children have JMML associated with Noonan syndrome, but others do not. So far, the individual prognosis in JMML-carrying specific genetic aberrations remains unclear. We report the clinical course in 11 patients with RAS mutations. Materials and methodsThis study was approved by the Institutional Review Board of Shinshu University. Informed consent was obtained from the guardians of the patients following institutional guidelines. Cell preparationWe used peripheral blood (PB) or bone marrow (BM) mononuclear cells (MNCs) that had been frozen with liquid nitrogen. CD3-and CD56-positive PB cells were separated immunomagnetically. 8 Ninety-nine percent of the isolated cells were CD3-or CD56-positive according to a flow cytometric analysis. Clonal cell cultureTwenty thousand PB or BM MNCs were plated in a dish containing methylcellulose medium supplemented with or without 0.01 to 10 ng/mL of granulocyte-macrophage colony-stimulating factor (GM-CSF). 9 To examine the clonal derivation of myeloid and erythroid lineages, 2000 CD34 ϩ PB cells harvested immunomagnetically were cultured in methylcellulose medium supplemented with GM-CSF, stem cell factor, interleukin 3, and erythropoietin. Twelve days after incubation in 5% CO 2 , GM colonies, erythroid colonies, and mixed colonies were individually lifted and prepared as single cell suspensions. Sequence analyses were then performed on individual colonyconstituent cells. Detection of NRAS and KRAS2 mutationsDNA was extracted from PB or BM MNCs and nails. Exon 1 (codons 12 and 13) and exon 2 (codon 61) of NRAS and KRAS2 genes were amplified by polymerase chain reaction (PCR) using primer pairs described previously. 10,11 The PCR products were subjected to direct sequencing from both directions on an automatic DNA se...
Data regarding the chronological changes in gastric mucosal cytokines in the different phases of Helicobacter pylori infection are unavailable. We examined Mongolian gerbils for up to 52 weeks after H. pylori (ATCC 43504) inoculation. Levels of mRNAs of mucosal cytokines (interleukin-1 [IL-1], gamma interferon [IFN-␥], IL-4, IL-6, and IL-10) were assessed using real-time reverse transcription-PCR. Starting 26 weeks after H. pylori inoculation, two clinicohistologic patterns appeared: gastric ulcers in 32% and hyperplastic polyps in 68% of gerbils. High levels of mucosal IL-1 mRNA were observed early in the infection, reaching maximum at 4 weeks and then rapidly declining. Mucosal IFN-␥ mRNA also reached maximal levels at 4 weeks but remained high thereafter. Both IL-1 and IFN-␥ mRNA levels were consistently higher in the pyloric mucosa than in the fundic mucosa. In contrast, IL-4, IL-6, and IL-10 mRNA levels peaked at 8 to 26 weeks and levels were similar in the pyloric mucosa and the fundic mucosa. IFN-␥ mRNA levels were significantly higher in gerbils with ulcers than in those with hyperplastic polyps (median IFN-␥/glyceraldehyde-3-phosphate dehydrogenase ratio ؋ 100,000 ؍ 650 versus 338, respectively [antrum], and 172 versus 40, respectively [corpus]) (P < 0.05). We propose that the different outcomes (e.g., ulcers or hyperplastic polyps) might relate to imbalances among cytokines.Helicobacter pylori infection of the gastric mucosa is characterized by the infiltration of neutrophils, lymphocytes, monocytes, and plasma cells. The initial migration of inflammatory cells into the gastric mucosa and their activation are believed to depend on the production of proinflammatory cytokines (2,8,17,(30)(31)(32). The inflammatory products from the polymorphonuclear cells (PMNs) and mononuclear cells (MNCs) are also thought to damage the epithelial layer and play a role in disease pathogenesis. T-helper (Th) cells are also found in the gastric lamina propria in H. pylori infection. The cytokine response in the gastric mucosa of patients chronically infected with H. pylori is thought to be predominantly of the Th1 type (1,2,5,7,8,10,11,15,17,18,22,(24)(25)(26). This determination was based in part on the presence of increased numbers of gamma interferon (IFN-␥)-secreting T cells in H. pylori-infected gastric mucosa compared to normal mucosa (2,5,11,15,17,25). H. pylori-infected IFN-␥-knockout mice developed minimal pathological changes (1,22,24), consistent with the response to H. pylori infection being primarily a Th1-type response.However, the relative contribution of the different cytokines during the course of the infection is still unknown. It is generally impossible to characterize the natural history of the immune response to H. pylori in humans, but such studies are possible using animal models. Rodents are excellent model animals in that they can be infected with H. pylori strains that consistently produce severe gastritis. In particular, Mongolian gerbils (Meriones unguiculatus) infected with selected stra...
The gastric mucosal immune response is thought to be comprised predominantly of the Th1 type; however, there are limited data regarding the role of IL-18 in Helicobacter pylori-induced inflammation. We investigated IL-18 levels in gastric mucosal biopsy specimens as well as in isolated gastric epithelial cells and lamina propria mononuclear cells. We also investigated IL-18 levels in gastric epithelial cells and the monocyte cell line THP-1 cocultured with H. pylori. In both systems, IL-18 levels were markedly enhanced in H. pylori-infected epithelial cells and monocytes. IL-18 levels in H. pylori-infected gastric mucosa were well correlated with the severity of gastric inflammation, confirming that H. pylori-induced IL-18 plays an important role in gastric injury. Virulence factors of H. pylori; the cag pathogenicity island and OipA affected IL-18 induction in different manners. Up-regulation of IL-18 mRNA/protein in epithelial cells was dependent on both virulence factors. Interestingly, up-regulation of IL-18 mRNA in monocytes was independent of both factors, whereas IL-18 protein was OipA dependent – cag pathogenicity island independent, indicating that OipA regulates IL-18 induction in monocytes at the posttranscriptional level. IL-18 levels in the gastric biopsy specimens showed similar patterns to those in lamina propria mononuclear cells with respect to virulence factors, suggesting that submucosal monocytes/macrophages are the main source of IL-18 induced by H. pylori infection. H. pylori appeared to regulate the ERK/JNK→AP-1 pathway in both cell types. In addition, OipA and its related p38 pathway may be closely involved in IL-18 induction in H. pylori-infected gastric mucosa and may contribute to gastric injury.
Background: The 2009 Asian multicenter study for derivation of reference intervals (RIs) featured: 1) centralized measurements to exclude reagent-dependent variations; 2) inclusion of non-standardized analytes (hormones, tumor makers, etc.) in the target; and 3) cross-check of test results between the central and local laboratories. Transferability of centrally derived RIs for non-standardized analytes based on the cross-check was examined. Methods: Forty non-standardized analytes were centrally measured in sera from 3541 reference individuals recruited by 63 laboratories. Forty-four laboratories collaborated in the cross-check study by locally measuring aliquots of sera from 9 to 73 volunteers (average 22.2). Linear relationships were obtained by the reduced major-axis regression. Error in converting RIs using the regression line was expressed by the coefficient of variation of slope b [CV(b)]. CV(b) < 10% was set as the cut-off value allowing the conversion. The significance of factors for partitioning RIs was determined similarly as in the first report. Results: Significant sex-, age-, and region-related changes in test results were observed in 17, 15, and 11 of the 40 analytes, respectively. In the cross-comparison study, test results were not harmonized in the majority of immunologically measured analytes, but their average CV(b)s were < 10% except for total protein, cystatin C, CA19-9, free thyroxine, and triiodothyronine. After conversion, 74% of centrally derived RIs were transferred to each local laboratory.
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