Natural History of Adult Patients with GM2 Gangliosidosis.

OBJECTIVE: GM2 gangliosidoses are lysosomal diseases due to biallelic mutations in the HEXA (Tay-Sachs disease [TS]) or HEXB (Sandhoff disease [SD]) genes, with subsequent low hexosaminidase(s) activity. Most patients have childhood onset, but some experience the first symptoms during adolescence/adulthood. This study aims to clarify the natural history of adult patients with GM2 gangliosidosis. METHODS: We retrospectively described 12 patients from a French cohort and 45 patients from the literature. RESULTS: We observed 4 typical presentations: (1) lower motoneuron disorder responsible for proximal lower limb weakness that subsequently expanded to the upper limbs, (2) cerebellar ataxia, (3) psychosis and/or severe mood disorder (only in the TS patients), and (4) a complex phenotype mixing the above 3 manifestations. The psoas was the first and most affected muscle in the lower limbs, whereas the triceps and interosseous were predominantly involved in the upper limbs. A longitudinal study of compound motor action potentials showed a progressive decrease in all nerves, with different kinetics. Sensory potentials were sometimes abnormally low, mainly in the SD patients. The main brain magnetic resonance imaging feature was cerebellar atrophy, even in patients without cerebellar symptoms. The prognosis was mainly related to gait disorder, as we showed that beyond 20 years of disease evolution, half of the patients were wheelchair users. INTERPRETATION: Improved knowledge of GM2 gangliosidosis in adults will help clinicians achieve correct diagnoses and better inform patients on the evolution and prognosis. It may also contribute to defining proper outcome measures when testing emerging therapies. ANN NEUROL 2020;87:609-617.

CSF N-glycan profile reveals sialylation deficiency in a patient with GM2 gangliosidosis presenting as childhood disintegrative disorder.

Protein N-glycosylation consists in the synthesis and processing of the oligosaccharide moiety (N-glycan) linked to a protein and it serves several functions for the proper central nervous system (CNS) development and function. Previous experimental and clinical studies have shown the importance of proper glycoprotein sialylation for the synaptic function and the occurrence of autism spectrum disorders (ASD) in the presence of sialylation deficiency in the CNS. Late-onset Tay Sachs disease (LOTSD) is a lysosomal disorder caused by mutations in the HEXA gene resulting in GM2-ganglioside storage in the CNS. It is characterized by progressive neurological impairment and high co-occurrence of psychiatric disturbances. We studied the N-glycome profile of the cerebrospinal fluid (CSF) in a 14 year-old patient with GM2-gangliosidosis (LOTSD). At the age of 4, the patient presented regressive autism fulfilling criteria for childhood disintegrative disorder (CDD). A CSF sample was obtained in the course of diagnostic work-up for the suspicion of an underlying neurodegenerative disorder. We found definite changes of CSF N-glycans due to a dramatic decrease of sialylated biantennary and triantennary structures and an increase of asialo-core fucosylated bisected N-glycans. No changes of total plasma N-glycans were found. Herein findings highlight possible relationships between the early onset psychiatric disturbance featuring CDD in the patient and defective protein sialylation in the CNS. In conclusion, the study first shows aberrant N-glycan structures of CSF proteins in LOTSD; unveils possible pathomechanisms of GM2-gangliosidosis; supports existing relationships between neuropsychiatric disorders and unproper protein glycosylation in the CNS.

Late onset GM2 gangliosidosis presenting with motor neuron disease: an autopsy case.

Adult-onset GM2 gangliosidosis is very rare and only three autopsy cases have been reported up to now. We report herein an autopsy case of adult-onset GM2 gangliosidosis. The patient developed slowly progressive motor neuron disease-like symptoms after longstanding mood disorder and cognitive dysfunction. He developed gait disturbance and weakness of lower limbs at age 52 years. Because of progressive muscle weakness and atrophy, he became bed-ridden at age 65. At age of 68, he died. His neurological findings presented slight cognitive disturbance, slight manic state, severe muscle weakness, atrophy of four limbs and no extrapyramidal signs and symptoms, and cerebellar ataxia. Neuropathologically, mild neuronal loss and abundant lipid deposits were noted in the neuronal cytoplasm throughout the nervous system, including peripheral autonomic neurons. The most outstanding findings were marked neuronal loss and distended neurons in the anterior horn of the spinal cord, which supports his clinical symptomatology of lower motor neuron disease in this case. The presence of lipofuscin, zebra bodies and membranous cytoplasmic bodies (MCB) and the increase of GM2 ganglioside by biochemistry led to diagnosis of GM2 gangliosidosis.

The natural history of cognitive dysfunction in late-onset GM2 gangliosidosis.

BACKGROUND: Late-onset GM2 gangliosidosis (LGG) is a rare disease that is often considered in the differential diagnosis of adolescents and young adults who present with multiple realms of neurologic dysfunction. Cognitive disturbances are common but have not been systematically studied. OBJECTIVE: To determine the natural history of cognitive dysfunction in patients with LGG. DESIGN: Case series and literature review. SETTING: Urban tertiary referral clinic. PATIENTS: Individuals with hexosaminidase A deficiency as the origin of LGG. MAIN OUTCOME MEASURES: Cognitive dysfunction, psychiatric symptoms, and cerebellar, upper motor neuron, lower motor neuron, or extrapyramidal symptoms and signs. RESULTS: Historical and examination data from 62 patients were found. Forty-four percent of LGG patients had some degree of cognitive dysfunction. Cognitive dysfunction was associated with a greater number of other elemental neurologic deficits. In 21 patients with acceptable longitudinal information, 8 (38%) had a static cognitive disorder, whereas progressive dementia was evident in 13 patients (62%), including 2 of our cases with serial neuropsychological testing. Neuroimaging often showed nonspecific cerebellar and/or cerebral atrophy. CONCLUSIONS: Cognitive dysfunction is a frequent manifestation of LGG. Patients who experience cognitive dysfunction are more likely to have a greater number of other neurologic manifestations of the disease. Cognitive dysfunction may take the form of static encephalopathy, but progressive dementia is more often encountered. The pathogenesis of cognitive dysfunction in this disease is unknown, highlighting the need for further study.