The etiology of essential tremor: Genes versus environment.

INTRODUCTION

Essential tremor (ET) is characterized by bilateral upper limb action tremor. Here we review the pathophysiology (cerebral mechanisms) and etiology (genetic and environmental risk factors) of ET.

METHODS

We reviewed the literature (until June 2017) by searching PubMed for relevant papers.

RESULTS

The pathophysiology of ET involves oscillatory activity in the cortico-olivo-cerebello-thalamic circuit, evidenced by electrophysiological and metabolic imaging. Possible underlying mechanisms include GABA-ergic dysfunction, cerebellar neurodegeneration, olivary dysfunction, or a combination. Genetic studies have examined affected ET families (linkage studies and whole-exome sequencing studies). These studies revealed several chromosomal regions and genes associated with ET, but the findings have not been replicated across different ET families. Genetic studies also assessed the sporadic occurrence of ET using genome wide genotyping of single nucleotide polymorphisms (SNP's) and candidate gene studies. Several SNP's are associated with ET, and this has been replicated across different cohorts. Interestingly, some of the involved genes are linked to the cerebellum and inferior olive. Environmental studies point to an association between ET and beta-carboline alkaloids (such as harmane), which have been found in the cerebellum.

CONCLUSION

Genetic and environmental risk factors may influence cerebellar and/or olivary function, resulting in abnormal cortico-olivo-cerebello-thalamic activity, and ultimately ET.