Inherited disorders of gamma-aminobutyric acid metabolism and advances inALDH5A1mutation identification

Abstract

Background and Objectives

Inherited disorders of GABA metabolism include SSADH and GABA-transaminase deficiencies. The clinical features, pathophysiology, diagnosis, and management of both are discussed, including an updated list of ALDH5A1 mutations causing SSADH deficiency.

Methods

Our SSADH patient database was analyzed and murine and translational studies leading to clinical trials are reviewed.

Results

The database containing 112 SSADH-deficient patients (71 pediatric and adolescent subjects, 41 adults) indicates that developmental delay and hypotonia are the most common presenting symptoms. Epilepsy is present in 2/3 of patients by adulthood. Murine genetic model, and human studies using flumazenil-PET and transcranial magnetic stimulation, have led to therapeutic trials and identified additional metabolic disruptions. Suggestions for new therapies have arisen from findings of GABAergic effects on autophagy with enhanced activation of the mTor pathway. A total of 45 pathogenic mutations have been reported in SSADH deficiency including the discovery of three previously unreported.

Conclusions

Investigations into the disorders of GABA metabolism provide fundamental insights into mechanisms underlying epilepsy and support the development of biomarkers and clinical trials. Comprehensive definition of the phenotypes of both SSADH and GABA-T deficiencies may increase our knowledge of the neurophysiological consequences of a hyperGABAergic state.