Notch signaling in thyrocytes is essential for adult thyroid function and mammalian homeostasis.

The thyroid functions as an apex endocrine organ that controls growth, differentiation and metabolism ¹ , and thyroid diseases comprise the most common endocrine disorders ² . Nevertheless, high-resolution views of the cellular composition and signals that govern the thyroid have been lacking ^3,4 . Here, we show that Notch signalling controls homeostasis and thermoregulation in adult mammals through a mitochondria-based mechanism in a subset of thyrocytes. We discover two thyrocyte subtypes in mouse and human thyroids, identified in single-cell analyses by different levels of metabolic activity and Notch signalling. Therapeutic antibody blockade of Notch in adult mice inhibits a thyrocyte-specific transcriptional program and induces thyrocyte defects due to decreased mitochondrial activity and ROS production. Thus, disrupting Notch signalling in adult mice causes hypothyroidism, characterized by reduced levels of circulating thyroid hormone and dysregulation of whole-body thermoregulation. Inducible genetic deletion of Notch1 and 2 in thyrocytes phenocopies this antibody-induced hypothyroidism, establishing a direct role for Notch in adult murine thyrocytes. We confirm that hypothyroidism is enriched in children with Alagille syndrome, a genetic disorder marked by Notch mutations, suggesting that these findings translate to humans.
(© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)