Jae-Wook Oh

Publications (22)65.87 Total impact

• Source

  Available from: PubMed Central

  Article: Bacterial growth in amniotic fluid is dependent on the iron-availability and the activity of bacterial iron-uptake system.

  Young-Joon Ahn, Sang-Kee Park, Jae-Wook Oh, Hui Yu Sun, Sung-Heui Shin
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  ABSTRACT: In the present study, the relationship among iron-availability, antibacterial activity, role of meconium as an iron source and the activity of bacterial iron-uptake system (IUS) for bacterial growth in amniotic fluid (AF) were investigated. Staphylococcus aureus ATCC 6538 and its streptonigrin-resistant (SR) mutant with defective IUS were used as the test strains. The growth of S. aureus in AF was stimulated dose-dependently by addition of meconium. Bacterial growth stimulated by meconium was re-inhibited dose-dependently by addition of iron-chelator, dipyridyl and apotransferrin. Iron concentration was correlated with the meconium content in AF (r(2)= 0.989, p=0.001). High-affinity IUS of S. aureus was expressed only in AF but not in AF with meconium. The growth of SR strain was more retarded than that of the parental strain in the iron-deficient brain heart infusion (ID-BHI), clear AF and AF containing apotransferrin. The retarded growth of both strains in the ID-BHI and AF was recovered by addition of holotransferrin, hemoglobin and FeCl3. Taken together, the antibacterial activity of AF is closely related with low iron-availability. Bacterial growth in AF considerably depends on the activity of bacterial IUS. Meconium acts as one of the exogenous iron-sources and thus can stimulate bacterial growth in AF.
  Journal of Korean Medical Science 07/2004; 19(3):333-40. · 0.99 Impact Factor
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  Available from: ncbi.nlm.nih.gov

  Article: Ginseng saponins induce store-operated calcium entry in Xenopus oocytes.

  Sang Min Jeong, Jun-Ho Lee, Sunoh Kim, Hyewhon Rhim, Byung-Hwan Lee, Jong-Hoon Kim, Jae-Wook Oh, Sang-Mok Lee, Seung-Yeol Nah
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  ABSTRACT: 1 We investigated the effect of the active ingredients of Panax ginseng, ginsenosides, on store-operated Ca2+ entry (SOCE) using a two-electrode voltage clamp technique in Xenopus oocytes in which SOCE is monitored through Ca(2+)-activated Cl- currents. 2 Under hyperpolarizing voltage clamp conditions, treatment with ginsenosides produced a biphasic Ca(2+)-activated Cl- current consisting of a rapid transient inward current and a slowly developing secondary sustained inward current. The transient inward current was inactivated rapidly, whereas the sustained inward current persisted for nearly 10 min. The effect of ginsenosides on the biphasic current was dose-dependent and reversible. The EC50 was 42.8+/-11.6 and 46.6+/-7.1 microg ml(-1) for the transient and sustained inward current, respectively. 3 In the absence of extracellular Ca2+ ginsenosides induced only a transient inward current but in the presence of extracellular Ca2+ ginsenosides induced the biphasic current. Magnitudes of the sustained currents were dependent on extracellular Ca2+ concentration. Sustained inward current induced by ginsenosides, but not transient inward current, and ginsenoside-induced store-operated Ca2+ (SOC) currents (ISOC) were blocked by La3+, a Ca2+ channel blocker, suggesting that the sustained inward current and ISOC was derived from an influx of extracellular Ca2+. 4 Treatment with 2-APB and heparin, which are IP3 receptor antagonists, inhibited the ginsenoside-induced biphasic current. Treatment with the PLC inhibitor, U73122, also inhibited the ginsenoside-induced biphasic current. Intraoocyte injection of ATP-gammaS, but not adenylyl AMP-PCP, induced a persistent activation of ginsenoside-induced sustained current but did not affect the transient current. 5 In rat hippocampal neurons, ginsenosides inhibited both carbachol-stimulated intracellular Ca2+ release and intracellular Ca2+ depletion-activated SOCE. 6 These results indicate that ginsenoside might act as a differential regulator of intracellular Ca2+ levels in neurons and Xenopus oocytes.
  British Journal of Pharmacology 07/2004; 142(3):585-93. · 4.41 Impact Factor