甘氨酸裂解系统
甘氨酸
病理学
医学
疾病
遗传学
病因学
生物信息学
物候学
生物
生物化学
甘氨酸受体
神经递质系统
人类遗传学
术语
病理
表型
精神科
高甘氨酸血症
计算生物学
基因型
遗传异质性
作者
Arthavan Selvanathan,Ashley Hertzog,Curtis R. Coughlin,Michael A. Swanson,Johan L.K. Van Hove
摘要
Despite its simple chemical structure, glycine plays a complex role in the body. The glycine cleavage system regulates brain glycine levels and is a key one-carbon donor to folate. Its metabolism is tightly integrated with that of serine. In addition to its biochemical role, glycine functions as a neurotransmitter and neuromodulator. Primary defects in the glycine cleavage system have long been known to cause human disease with a primarily neurological phenotype, and this was labelled as 'nonketotic hyperglycinaemia' in 1968. With increasing availability of molecular testing, many additional genetic conditions became apparent, as well as non-genetic factors that cause hyperglycinaemia. There is now a much greater appreciation of the marked clinical impact of this heterogeneity. The previous terminology of 'classical' and 'atypical' nonketotic hyperglycinaemia does not adequately address these numerous genetic aetiologies, nor does it account for the phenotypic spectrum within individual genetic disorders. We provide here a clinically relevant classification of the glycine encephalopathies, based on the underlying genetic aetiology and its relation to the glycine cleavage system. Characteristic clinical and biochemical features of each condition, as well as non-genetic phenocopies that cause hyperglycinaemia, are discussed in detail. This provides a readily usable framework for clinicians when faced with a patient with elevated glycine levels.
科研通智能强力驱动
Strongly Powered by AbleSci AI