Enzymatic sulfation of galactose residue of keratan sulfate by chondroitin 6-sulfotransferase

We have previously found that the purified chondroitin 6-sulfotransferase(C6ST), which transfers sulfate from 3'-phosphoadenosine 5'-phosphosulfate(PAPS) to position 6 of N-acetylgalactosamine in chondroitin,catalyzed the sulfation of keratan sulfate, and that both theC6ST activity and the keratan sulfate sulfotransferase (KSST)activity were expressed in COS-7 cells when C6ST cDNA was transfected.In this report we describe some properties of the KSST activitycontained in the purified C6ST, and characterize the sulfatedproducts formed from keratan sulfate and partially desulfatedkeratan sulfate. Optimal pH, requirement for cationic activators,and K_m value for PAPS of the KSST activity were very similarto those of the C6ST activity. ³⁵S-Labeled glycosaminoglycansformed from keratan sulfate and partially desulfated keratansulfate were N-deacetylated by treatment with hydrazine/hydrazinesulfate and then cleaved with HNO₂ at pH 4, and the resultingproducts were reduced with NaB³H₄. Analysis of the degradationproducts with paper chromatography and high performance liquidchromatography provided evidence that C6ST transferred sulfateto position 6 of galactose residue which was glycosidicallylinked to N-acetylglucosamine 6-sulfate residue or to N-acetylglucosamineresidue. Northern blot analysis using poly (A)⁺ RNA from 12-d-oldchick embryos indicated that the message of C6ST was expressednot only in the cartilage but also in the cornea in which keratansulfate is actively synthesized. chondroitin sulfate keratan sulfate glycosaminoglycan sulfotransferase hydrazinolysis deaminative cleavage     

Growth stimulating activity secreted by human anaplastic thyroid carcinoma cells.

In order to clarify the mechanism of rapid growth of anaplastic thyroid carcinoma, growth stimulating activity produced by the cancer cells in culture was studied. A cell line (HTh7) established from a biopsy specimen of anaplastic thyroid carcinoma was used throughout the study. Growth stimulating activity was determined as an activity to increase 3H-thymidine incorporation in rat thyroid cell line (FRTL5). Conditioned medium of HTh7 cells contained significant growth stimulating activity for FRTL5 cells. The activity was separated into two fractions with heparin agarose gel: heparin-binding and heparin-non-binding. In the medium, the heparin-non-binding activity was much greater than the heparin-binding one. The heparin-non-binding activity was acid stable. It was partially purified with gel filtration in an acidic condition followed by reverse phase HPLC. In gel filtration with a Sephacryl S-200 column, the activity was eluted later than the elution volume of cytochrome c (MW 12400) as several separated peaks. In reverse phase HPLC, however, the activity in these peaks was eluted as a single peak. The retention time of the active peak was almost the same as that of recombinant IGF-I. When measured by specific RIAs, the conditioned media concentrated 20 times contained both 0.35 ng/ml of IGF-I and 5.21 ng/ml of IGF-II. As for the heparin-binding mitogenic activity, when applied to heparin affinity HPLC column and eluted with a linear gradient of NaCl, the activity came out as one major peak with approximately 1.0 M NaCl.(ABSTRACT TRUNCATED AT 250 WORDS)     

Role of the Ryanodine Receptor in Ischemic Brain Damage—Localized Reduction of Ryanodine Receptor Binding During Ischemia in Hippocampus CA1

1. The ryanodine receptor has recently been shown to play a pivotal role in the regulation of intracellular Ca²⁺ concentration via Ca²⁺-induced Ca²⁺ release (CICR). Effects of ischemia on CICR in the brain tissue, however, remain largely unknown since only a few reports have been published on this subject. In this paper we report on work in this area by our group and review related progress in this field.2. We examined alterations of ryanodine receptor binding and local cerebral blood flow (LCBF) at 15 min, 30 min, and 2 hr after occlusion of the right common carotid artery in the gerbil brain. A quantitative autoradiographic method permitted simultaneous measurement of these parameters in the same brain. The LCBF was significantly reduced in most of the cerebral regions on the occluded side during each time period of ischemia. In contrast, only in the hippocampus CA1 on the occluded side was a significant reduction in ryanodine binding found at 15 min, 30 min and 2 hr after the occlusion.3. These findings suggest that suppression of ryanodine binding in the hippocampus CA1 may be attributable to a regionally specific perturbation of CICR and that this perturbation may be closely associated with the pathophysiological mechanism that leads to the selective ischemic vulnerability of this region.4. Other recent studies have also reported an important role for ryanodine receptors in neuronal injury such as the delayed neuronal death in the hippocampus CA1. These data suggest that derangement of CICR is likely to be involved in acute neuronal necrosis as well as in delayed neuronal death in ischemia.5. Further studies on clarifying the role of CICR in ischemic brain damage are needed in order to develop new therapeutic strategies for stroke patients.     

The 9-1-1 DNA clamp is required for immunoglobulin gene conversion

Chicken DT40 cells deficient in the 9-1-1 checkpoint clamp exhibit hypersensitivity to a variety of DNA-damaging agents. Although recent work suggests that, in addition to its role in checkpoint activation, this complex may play a role in homologous recombination and translesion synthesis, the cause of this hypersensitivity has not been studied thoroughly. The immunoglobulin locus of DT40 cells allows monitoring of homologous recombination and translesion synthesis initiated by activation-induced deaminase (AID)-dependent abasic sites. We show that both the RAD9^−/− and RAD17^−/− mutants exhibit substantially reduced immunoglobulin gene conversion. However, the level of nontemplated immunoglobulin point mutation increased in these mutants, a finding that is reminiscent of the phenotype resulting from the loss of RAD51 paralogs or Brca2. This suggests that the 9-1-1 complex does not play a central role in translesion synthesis in this context. Despite reduced immunoglobulin gene conversion, the RAD9^−/− and RAD17^−/− cells do not exhibit a prominent defect in double-strand break-induced gene conversion or a sensitivity to camptothecin. This suggests that the roles of Rad9 and Rad17 may be confined to a subset of homologous recombination reactions initiated by replication-stalling lesions rather than those associated with double-strand break repair.     

Synthesis of a glycosylated peptide thioester by the Boc strategy and its application to segment condensation

The synthesis of a chitobiosylated peptide thioester by the t-butoxycarbonyl (Boc) strategy is demonstrated. Boc-Asn carrying benzyl-protected chitobiose was introduced during application of the Boc mode solid-phase method. HF treatment of the resulting protected peptide resin gave the desired chitobiosylated peptide thioester. This thioester was used to prepare the peptide sequence derived from extracellular matrix metalloproteinase inducers (emmprin) (34-94), (34-118) and (22-118) by the thioester segment condensation method. The conformation of these glycopeptides is characterized by circular dichroism (CD) spectral measurement.     

Dynamics of endogenous glucocorticoid secretion and its metabolism in Kawasaki disease

Objective

Kawasaki disease (KD) is a severe inflammatory disease that occurs in childhood. Recently, the initial corticosteroid therapy for KD has been reconsidered because its efficacy is controversial. The aim of this study was to evaluate the dynamic change in endogenous glucocorticoid levels and their relation with 11beta-hydroxysteroid dehydrogenase (11β-HSD) activity in the acute phase of KD.

Study design

Sixteen KD patients were investigated. Cortisol and cortisone levels, the cortisol/cortisone ratio and C-reactive protein (CRP) levels were measured on admission, before the first intravenous immunoglobulin (IVIG) therapy and convalescence.

Results

The 16 patients were divided into two groups. Group A included patients who received the first IVIG on admission and blood samples were collected before the first IVIG and convalescence. Group B included patients whose blood samples were collected at three different time points (on admission, before the first IVIG, and convalescence). CRP and cortisol levels and the cortisol/cortisol ratio were markedly higher before the first IVIG than those of convalescence in all patients except in one patient. In Group B patients, both serum cortisol levels and the cortisol/cortisone ratio on admission were significantly increased compared with those before the first IVIG (cortisol: p < 0.005, cortisol/cortisone: p < 0.001).

Conclusions

Decreases in cortisol levels and the cortisol/cortisone ratio before the first IVIG may be explained by a reduction in adrenal secretion and/or local glucocorticoid action through 11β-HSD activity. These findings suggest that exogenous glucocorticoid treatment in combination with the first IVIG at the acute stage may play a synergetic role in KD.