Jeong Byeong C, Hawes Chris, Bonthrone Karen M, Macaskie Lynne E
School of Biological Sciences, The University of Birmingham, Edgbaston, Birmingham B15 2TT, UK.
School of Biological and Molecular Sciences, Oxford Brookes University, Gipsy Lane, Oxford OX3 OBP, UK.
Microbiology (Reading). 1997 Jul;143 ( Pt 7):2497-2507. doi: 10.1099/00221287-143-7-2509.
Growth of Pseudomonas aeruginosa ATCC 15692 was promoted when the strain was cultured in an iron-depleted succinate medium, supplemented with transferrin at 30%, 60% and 100% and lactoferrin at 60% and 100% iron-saturation. No significant differences between cell growth and pyoverdin production were observed when transferrin iron saturation was increased from 30% to 100%; however, cell growth and pyoverdin production were strongly dependent on lactoferrin iron saturation. Lower lactoferrin iron saturation (< 30%) resulted in more pyoverdin production and reduced cell growth. Incubation of pyoverdin (1.0 microM) with 10.0 microM transferrin (30%, 60% and 100% iron-saturated) or lactoferrin (60% and 100% iron-saturated) led to quenching of pyoverdin fluorescence. Also, 24 h incubation of pyoverdin (20.0 microM) with these two proteins (20.0 microM, 30%, 60% and 100% iron-saturated transferrin and 60% and 100% iron-saturated lactoferrin) at 25 degrees C resulted in increased absorbance at 460 nm. Both the fluorescence quenching and absorbance increases were iron-saturation-dependent. Taken together, these results support the conclusion that at physiological pH, P. aeruginosa pyoverdin can acquire from partially iron-saturated transferrin or lactoferrin.
当铜绿假单胞菌ATCC 15692在缺铁的琥珀酸盐培养基中培养时,其生长得到促进,该培养基补充了铁饱和度为30%、60%和100%的转铁蛋白以及铁饱和度为60%和100%的乳铁蛋白。当转铁蛋白铁饱和度从30%增加到100%时,未观察到细胞生长和绿脓菌素产生之间的显著差异;然而,细胞生长和绿脓菌素产生强烈依赖于乳铁蛋白铁饱和度。较低的乳铁蛋白铁饱和度(<30%)导致更多的绿脓菌素产生和细胞生长减少。将绿脓菌素(1.0微摩尔)与10.0微摩尔铁饱和度为30%、60%和100%的转铁蛋白或铁饱和度为60%和100%的乳铁蛋白孵育导致绿脓菌素荧光猝灭。此外,将绿脓菌素(20.0微摩尔)与这两种蛋白质(20.0微摩尔、铁饱和度为30%、60%和100%的转铁蛋白以及铁饱和度为60%和100%的乳铁蛋白)在25℃下孵育24小时导致460纳米处的吸光度增加。荧光猝灭和吸光度增加均依赖于铁饱和度。综上所述,这些结果支持以下结论:在生理pH值下,铜绿假单胞菌绿脓菌素可以从部分铁饱和的转铁蛋白或乳铁蛋白中获取铁。