Searchable abstracts of presentations at key conferences in endocrinology

ea0084op-13-67 | Oral Session 13: Basic 3 | ETA2022

A single cell atlas of the T3-responsive transcriptome during early cortical neurogenesis in human cerebral organoids

Opitz Robert , Fernandez-Vallone Valeria , Megges Matthias , Amber Julie Bresser Audrey , Obermayer-Wasserscheid Benedikt , Stachelscheid Harald , Kuhnen Peter

Perturbation of thyroid hormone (TH) function during prenatal brain development can cause a spectrum of neurological disorders as evident in pediatric patients with untreated congenital hypothyroidism or patients with mutations in THRA and SLC16A2 genes. However, scarcity and inaccessibility of human brain tissue from early developmental stages has been a major roadblock for experimental approaches to decipher local TH action in early development. Advanced <e...

ea0084ps1-04-35 | Thyroid Hormone Transporters and Development | ETA2022

Spatiotemporal expression of the thyroid hormone transporter MCT8 during cortical neurogenesis in human cerebral organoids

Graffunder Adina , Amber Julie Bresser Audrey , Anthofer Larissa , Megges Matthias , Fernandez-Vallone Valeria , Stachelscheid Harald , Kuhnen Peter , Opitz Robert

Thyroid hormones (TH) play a critical role during nervous system development and patients carrying coding variants of THRA or SLC16A2/MCT8 genes present a spectrum of neurological phenotypes presumably resulting from perturbed local TH action during early brain development. Monocarboxylate transporter MCT8 is a well-characterized TH membrane transporter and MCT8 mutations have been associated with the Allan-Herndon-Dudley Syndrome. Recent advances in stem cel...

ea0084ps2-09-81 | Thyroid Hormone ACTION | ETA2022

An experimental framework for probing molecular mechanisms of local thyroid hormone action during cortical neurogenesis in human cerebral organoids

Amber Julie Bresser Audrey , Graffunder Adina , Anthofer Larissa , Megges Matthias , Obermayer-Wasserscheid Benedikt , Rijntjes Eddy , Wiese Niklas , Fernandez-Vallone Valeria , Stachelscheid Harald , Kuhnen Peter , Opitz Robert

Recently, human cerebral organoids (hCOs) emerged as powerful three-dimensional in vitro models recapitulating key aspects of early human cerebral cortex development. Improved protocols for hCO generation from induced pluripotent stem cells (hiPSC) paved the way for new disease modeling approaches and enable multimodal analyses of perturbed neurogenesis resulting from manipulation of signaling pathways or gene function. These prospects prompted us to adopt this techno...