Department of Clinical Biochemistry and Metabolic Medicine, Royal Liverpool University Hospitals Trust, Liverpool, UK.
Department of Musculoskeletal Biology I, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK.
J Inherit Metab Dis. 2020 Sep;43(5):1014-1023. doi: 10.1002/jimd.12229. Epub 2020 Mar 5.
For over two decades, nitisinone (NTBC) has been successfully used to manipulate the tyrosine degradation pathway and save the lives of many children with hereditary tyrosinaemia type 1. More recently, NTBC has been used to halt homogentisic acid accumulation in alkaptonuria (AKU) with evidence suggesting its efficacy as a disease modifying agent. NTBC-induced hypertyrosinaemia has been associated with cognitive impairment and potentially sight-threatening keratopathy. In the context of a non-lethal condition (ie, AKU), these serious risks call for an evaluation of the wider impact of NTBC on the tyrosine pathway. We hypothesised that NTBC increases the tyrosine pool size and concentrations in tissues. In AKU mice tyrosine concentrations of tissue homogenates were measured before and after treatment with NTBC. In humans, pulse injection with l-[ C ]tyrosine and l-[d ]phenylalanine was used along with compartmental modelling to estimate the size of tyrosine pools before and after treatment with NTBC. We found that NTBC increased tyrosine concentrations in murine tissues by five to nine folds. It also significantly increased the tyrosine pool size in humans (P < .001), suggesting that NTBC increases tyrosine not just in serum but also in tissues (ie, acquired tyrosinosis). This study provides, for the first time, the experimental proof for the magnitude of NTBC-related acquired tyrosinosis which should be overcome to ensure the safe use of NTBC in AKU.
二十多年来,尼替西农(NTBC)已成功用于操纵酪氨酸降解途径,挽救了许多 1 型遗传性酪氨酸血症患者的生命。最近,NTBC 已用于阻止尿黑酸症(AKU)中的同型胱氨酸积累,有证据表明其作为一种疾病修饰剂的疗效。NTBC 诱导的高酪氨酸血症与认知障碍和潜在的威胁视力的角膜病变有关。在非致命性疾病(即 AKU)的情况下,这些严重的风险需要评估 NTBC 对酪氨酸途径的更广泛影响。我们假设 NTBC 会增加组织中的酪氨酸池大小和浓度。在 AKU 小鼠中,在给予 NTBC 治疗前后测量组织匀浆中的酪氨酸浓度。在人类中,使用 l-[ C ]酪氨酸和 l-[d ]苯丙氨酸脉冲注射,并结合房室模型来估计给予 NTBC 前后酪氨酸池的大小。我们发现 NTBC 将小鼠组织中的酪氨酸浓度提高了五到九倍。它还显著增加了人类的酪氨酸池大小(P < .001),这表明 NTBC 不仅增加了血清中的酪氨酸,还增加了组织中的酪氨酸(即获得性酪氨酸血症)。这项研究首次提供了 NTBC 相关获得性酪氨酸血症程度的实验证据,为确保 AKU 中 NTBC 的安全使用,需要克服这种获得性酪氨酸血症。
