Vibrio parahaemolyticus produces a structurally novel type of siderophore, termed vibrioferrin, in response to iron-limitation. This study was performed to examine whether vibrioferrin can assimilate iron from human iron-binding proteins for growth. Comparison of the growth rates between V. parahaemolyticus AQ 3354 and its spontaneously arising, vibrioferrindeficient mutant revealed that vibrioferrin was able to sequester iron from 30% iron-saturated human transferrin for growth, but not from human lactoferrin even if fully saturated with iron. In both strains, iron limitation induced two high-molecular-weight outer membrane proteins with apparent molecular masses of approximately 78 and 83 kDa. Since only the outer membrane fraction including these proteins showed a binding capacity to ferric vibrioferrin complex, either of them may function as its cell surface receptor. These results suggested that the organism might utilize such a source of host iron through the action of vibrioferrin during in vivo survival and proliferation, although its importance in pathogenesis is unknown.
SummaryMale mice of three strains, C57BL, DBA and C3H/He, were fed on commercial food with 10% (v/v) ethanol solution as drinking liquid ad libitum for eighty days, and the changes in the activities of enzymes in the metabolic pathway of ethanol in the liver were examined. C57BL and C3H/He mice showed a preference for drinking the 10% (v/v) ethanol solution, while DBA mice did not. The ethanol intake g/g of body weight of C3H/He mice showed the highest value among all three strains and that of C57BL mice tended to show higher value than that of DBA mice. The liver weights of C57BL and C3H/He mice increased significantly following chronic ethanol administration, but that of DBA did not. The cytosolic enzyme alcohol dehydrogenase (ADH) showed no changes in any of the strains following chronic ethanol administration. The microsomal ethanol-oxidizing system (MEOS) of C57BL mice ex hibited approximately 2-fold higher activity compared to that of DBA and C3H/He mice but did not increase in any strain following chronic ethanol administration. However, the microsomal aniline hydroxylase activity in the liver increased significantly in C57BL and C3H/He mice following chronic administration of ethanol. The microsomal cytochrome P-450 content also tended to slightly increase in the same strains of mice. It seemed that cytochrome P-450IIEl was induced in the liver microsomes of these strains. Total aldehyde dehydrogenase (AlDH) activities togeth er with high-Km AlDH activity increased markedly in the microsomes of C57BL mice and tended to increase in C3H/He mice, while it did not change in DBA mice following chronic ethanol administration. In the mitochondria of C57BL, total AlDH activities increased slightly and high-Km AlDH activities tended to increase. These mitochondrial AlDH
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