Gao Hui
Hebei Shijiazhuang Maternal and Child Health Care Hospital, Shijiazhuang, China.
Evid Based Complement Alternat Med. 2022 Jul 4;2022:5245200. doi: 10.1155/2022/5245200. eCollection 2022.
To explore and analyze the influencing factors of tetrahydrobiopterin therapy in patients with phenylketonuria.
86 children with phenylketonuria (PKU) diagnosed and treated in our hospital from February 2019 to September 2021 were randomly enrolled. All the children underwent coenzyme hydroxybiopterin and urinary pterin spectrum analysis, and the children with deficiency received gene mutation testing.
The results of urine pterin analysis showed that 82 patients had higher urinary N and B contents than the normal reference values, with the N/B slightly higher than the normal B% within the normal range. 4 patients had extremely high urinary N/B and B% <5% and were diagnosed as BH4 deficiency caused by 6-pyruvoyl-tetrahydropterin synthase (PTPS) deficiency, and a combined stress test was performed. The blood Phe level was (720-1200) mol/L 3 h after Phe loading, and the blood Phe concentration decreased to (120-240) mol/L 4-6 h after oral administration of 7.5 mg/kg BH4 tablet. After one week of treatment, the blood Phe concentration decreased significantly to 239 ± 173 mol/L, with a decrease rate of 52.14 ± 25.28%. It shows that the application of tetrahydrobiopterin intervention therapy is effective in patients with PKU. The results of the full-length cDNA analysis of the PTPS gene showed that a total of 4 gene mutations were found. A C ⟶ T substitution occurred at the 259th base, and the 87th proline (Pro) in the coding region was converted to serine (Ser) (P87S). G ⟶ A substitution at base 286 converts aspartic acid (Asp) at position 96 of the coding region to asparagine (Asn) (D96N). A ⟶ G substitution occurs at the 155th base to convert asparagine (Asn) at position 52 of the coding region to serine (Ser) (N52S). G ⟶ C substitution occurs at the 430th base to convert glycine at position 144 (Gly) to arginine (Arg) (G144R). G144R is a new mutation type. The gene mutation types of the 4 patients were P87S/D96N, N52S/G144R, D96N/P87S, and P87S/P87S, all of which were from their parents, which conformed to the law of autosomal recessive inheritance.
PKU is caused by the defect of phenylalanine hydroxylase activity in children, which causes phenylalanine metabolism disorder, and tetrahydrobiopterin intervention therapy can affect the activity of phenylalanine hydroxylase, increase the decline rate of blood Phe, significantly reduce the level of phenylalanine in children, and promote intellectual recovery. The dose of tetrahydrobiopterin should be tailored, with small doses for mild phenotypes and long-term treatment using even smaller doses.
探讨并分析苯丙酮尿症患者四氢生物蝶呤治疗的影响因素。
随机选取2019年2月至2021年9月在我院诊断并治疗的86例苯丙酮尿症患儿。所有患儿均接受辅酶羟生物蝶呤及尿蝶呤谱分析,对存在缺乏的患儿进行基因突变检测。
尿蝶呤分析结果显示,82例患者尿N和B含量高于正常参考值,N/B略高于正常范围且B%在正常范围内。4例患者尿N/B极高且B%<5%,诊断为6-丙酮酰四氢蝶呤合成酶(PTPS)缺乏所致的BH4缺乏,并进行了联合应激试验。苯丙氨酸负荷后3小时血苯丙氨酸水平为(720 - 1200)μmol/L,口服7.5mg/kg BH4片后4 - 6小时血苯丙氨酸浓度降至(120 - 240)μmol/L。治疗1周后,血苯丙氨酸浓度显著降至239±173μmol/L,下降率为52.14±25.28%。表明四氢生物蝶呤干预治疗对苯丙酮尿症患者有效。PTPS基因全长cDNA分析结果显示,共发现4种基因突变。第259位碱基发生C→T替换,编码区第87位脯氨酸(Pro)转换为丝氨酸(Ser)(P87S)。第286位碱基G→A替换,使编码区第96位天冬氨酸(Asp)转换为天冬酰胺(Asn)(D96N)。第155位碱基A→G替换,使编码区第52位天冬酰胺(Asn)转换为丝氨酸(Ser)(N52S)。第430位碱基G→C替换,使第144位甘氨酸(Gly)转换为精氨酸(Arg)(G144R)。G144R为新的突变类型。4例患者的基因突变类型分别为P87S/D96N、N52S/G144R、D96N/P87S和P87S/P87S,均来自其父母,符合常染色体隐性遗传规律。
儿童苯丙酮尿症是由苯丙氨酸羟化酶活性缺陷导致苯丙氨酸代谢紊乱引起的,四氢生物蝶呤干预治疗可影响苯丙氨酸羟化酶活性,提高血苯丙氨酸下降率,显著降低患儿苯丙氨酸水平,促进智力恢复。四氢生物蝶呤剂量应个体化,轻型表型用小剂量,长期治疗用更小剂量。
