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首页> 美国卫生研究院文献>PLoS Pathogens >Impaired Systemic Tetrahydrobiopterin Bioavailability and Increased Dihydrobiopterin in Adult Falciparum Malaria: Association with Disease Severity Impaired Microvascular Function and Increased Endothelial Activation
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Impaired Systemic Tetrahydrobiopterin Bioavailability and Increased Dihydrobiopterin in Adult Falciparum Malaria: Association with Disease Severity Impaired Microvascular Function and Increased Endothelial Activation

机译:成人恶性疟疾中全身四氢生物蝶呤的生物利用度受损和双氢生物蝶呤增加:与疾病严重程度微血管功能受损和内皮细胞活化增加相关

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Tetrahydrobiopterin (BH4) is a co-factor required for catalytic activity of nitric oxide synthase (NOS) and amino acid-monooxygenases, including phenylalanine hydroxylase. BH4 is unstable: during oxidative stress it is non-enzymatically oxidized to dihydrobiopterin (BH2), which inhibits NOS. Depending on BH4 availability, NOS oscillates between NO synthase and NADPH oxidase: as the BH4/BH2 ratio decreases, NO production falls and is replaced by superoxide. In African children and Asian adults with severe malaria, NO bioavailability decreases and plasma phenylalanine increases, together suggesting possible BH4 deficiency. The primary three biopterin metabolites (BH4, BH2 and B0 [biopterin]) and their association with disease severity have not been assessed in falciparum malaria. We measured pterin metabolites in urine of adults with severe falciparum malaria (SM; n=12), moderately-severe malaria (MSM, n=17), severe sepsis (SS; n=5) and healthy subjects (HC; n=20) as controls. In SM, urinary BH4 was decreased (median 0.16 ¼mol/mmol creatinine) compared to MSM (median 0.27), SS (median 0.54), and HC (median 0.34)]; p<0.001. Conversely, BH2 was increased in SM (median 0.91 ¼mol/mmol creatinine), compared to MSM (median 0.67), SS (median 0.39), and HC (median 0.52); p<0.001, suggesting increased oxidative stress and insufficient recycling of BH2 back to BH4 in severe malaria. Overall, the median BH4/BH2 ratio was lowest in SM [0.18 (IQR: 0.04-0.32)] compared to MSM (0.45, IQR 0.27-61), SS (1.03; IQR 0.54-2.38) and controls (0.66; IQR 0.43-1.07); p<0.001. In malaria, a lower BH4/BH2 ratio correlated with decreased microvascular reactivity (r=0.41; p=0.03) and increased ICAM-1 (r=-0.52; p=0.005). Decreased BH4 and increased BH2 in severe malaria (but not in severe sepsis) uncouples NOS, leading to impaired NO bioavailability and potentially increased oxidative stress. Adjunctive therapy to regenerate BH4 may have a role in improving NO bioavailability and microvascular perfusion in severe falciparum malaria.
机译:四氢生物蝶呤(BH4)是一氧化氮合酶(NOS)和氨基酸单加氧酶(包括苯丙氨酸羟化酶)催化活性所需的辅助因子。 BH4是不稳定的:在氧化应激期间,它会被非酶氧化成二氢生物蝶呤(BH2),从而抑制NOS。取决于BH4的可用性,NOS在NO合酶和NADPH氧化酶之间振荡:随着BH4 / BH2比值的降低,NO生成量下降,并被超氧化物所取代。在患有严重疟疾的非洲儿童和亚洲成年人中,NO生物利用度降低,血浆苯丙氨酸升高,共同提示可能存在BH4缺乏症。恶性疟疾中尚未评估主要的三种生物蝶呤代谢产物(BH4,BH2和B0 [生物蝶呤])及其与疾病严重性的关系。我们测量了患有严重恶性疟疾(SM; n = 12),中度重度疟疾(MSM,n = 17),严重败血症(SS; n = 5)和健康受试者(HC; n = 20)的成年人尿液中的蝶呤代谢产物)作为控件。在SM中,与MSM(中位数0.27),SS(中位数0.54)和HC(中位数0.34)相比,尿中BH4降低(中位数0.16¼mol/ mmol肌酐)]; p <0.001。相反,与MSM(中位数0.67),SS(中位数0.39)和HC(中位数0.52)相比,SM(中位数0.91¼mol/ mmol肌酐)中BH2升高; p <0.001,表明严重疟疾中氧化应激增加且BH2不能充分循环回BH4。总体而言,SM中的BH4 / BH2中位数比率最低[0.18(IQR:0.04-0.32)],而MSM(0.45,IQR 0.27-61),SS(1.03; IQR 0.54-2.38)和对照(0.66; IQR 0.43 -1.07); p <0.001。在疟疾中,较低的BH4 / BH2比与微血管反应性降低(r = 0.41; p = 0.03)和ICAM-1升高(r = -0.52; p = 0.005)相关。在严重的疟疾中(但在严重的败血症中)BH4的减少和BH 2 的增加使NOS脱钩,从而导致NO生物利用度受损和氧化应激可能增加。在严重的恶性疟疾中,再生BH4的辅助治疗可能对改善NO的生物利用度和微血管灌注具有作用。

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