The thyroid hormone receptor alpha locus and white matter lesions: a role for the clock gene REV-ERBα

Genetic determination of the hypothalamic-pituitary-thyroid axis: where do we stand?

For a long time it has been known that both hypo- and hyperthyroidism are associated with an increased risk of morbidity and mortality. In recent years, it has also become clear that minor variations in thyroid function, including subclinical dysfunction and variation in thyroid function within the reference range, can have important effects on clinical endpoints, such as bone mineral density, depression, metabolic syndrome, and cardiovascular mortality. Serum thyroid parameters show substantial interindividual variability, whereas the intraindividual variability lies within a narrow range. This suggests that every individual has a unique hypothalamus-pituitary-thyroid axis setpoint that is mainly determined by genetic factors, and this heritability has been estimated to be 40-60%. Various mutations in thyroid hormone pathway genes have been identified in persons with thyroid dysfunction or altered thyroid function tests. Because these causes are rare, many candidate gene and linkage studies have been performed over the years to identify more common variants (polymorphisms) associated with thyroid (dys)function, but only a limited number of consistent associations have been found. However, in the past 5 years, advances in genetic research have led to the identification of a large number of new candidate genes. In this review, we provide an overview of the current knowledge about the polygenic basis of thyroid (dys)function. This includes new candidate genes identified by genome-wide approaches, what insights these genes provide into the genetic basis of thyroid (dys)function, and which new techniques will help to further decipher the genetic basis of thyroid (dys)function in the near future.

THRA and DIO2 mutations are unlikely to be a common cause of increased bone mineral density in euthyroid post-menopausal women

OBJECTIVE

A new autosomal dominant disorder due to mutation of THRA, which encodes thyroid hormone receptor α, is characterised by severely delayed skeletal development but only slightly abnormal thyroid status. Adult mice with disrupted thyroid hormone action in bone due to a mutation of Thra or deletion of Dio2, encoding the type 2 deiodinase, have high bone mass and mineralisation despite essentially euthyroid status. No individuals with DIO2 mutations have been described and the adult phenotype of patients with THRA mutations is largely unknown. We hypothesised that screening euthyroid adults with high bone mineral density (BMD) could be used to identify individuals with mutations of THRA or DIO2.

DESIGN

The Osteoporosis and Ultrasound Study (OPUS) is a 6-year prospective study of fracture-related factors from five European centres.

METHODS

A cohort of 100 healthy euthyroid post-menopausal women with the highest BMD was selected from the OPUS population. We sequenced the intron-exon boundaries and critical exons of THRA and DIO2 in these subjects. TSH, free 3,5,3'-l-triiodothyronine, free thyroxine, vitamin D, parathyroid hormone and bone turnover marker concentrations, and BMD measurements were available in all OPUS participants.

RESULTS

No coding sequence or splice site mutations affecting THRA or DIO2 were identified.

CONCLUSIONS

Mutations affecting THRA or DIO2 are not a common cause of high BMD in healthy euthyroid post-menopausal women.