Spatiotemporal expression of thyroid hormone transporter MCT8 and THRA mRNA in human cerebral organoids recapitulating first trimester cortex development

Graffunder, Adina Sophie; Bresser, Audrey Amber Julie; Fernandez Vallone, Valeria; Megges, Matthias; Stachelscheid, Harald; Kühnen, Peter; Opitz, Robert

doi:10.1038/s41598-024-59533-2

Sci Rep

2024

DOI: 10.1038/s41598-024-59533-2

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Spatiotemporal expression of thyroid hormone transporter MCT8 and THRA mRNA in human cerebral organoids recapitulating first trimester cortex development

Adina Sophie Graffunder,

Audrey Amber Julie Bresser,

Valeria Fernandez Vallone

et al.

Abstract: Thyroid hormones (TH) play critical roles during nervous system development and patients carrying coding variants of MCT8 (monocarboxylate transporter 8) or THRA (thyroid hormone receptor alpha) present a spectrum of neurological phenotypes resulting from perturbed local TH action during early brain development. Recently, human cerebral organoids (hCOs) emerged as powerful in vitro tools for disease modelling recapitulating key aspects of early human cortex development. To begin exploring prospects of this mod… Show more

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Cited by 4 publications

References 83 publications

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Mapping Thyroid Hormone Action in the Human Brain

Salas-Lucia

2024

Thyroid®

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Mapping Thyroid Hormone Action in the Human Brain

Salas-Lucia

2024

Thyroid®

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Thyroid Hormone and Alzheimer Disease: Bridging Epidemiology to Mechanism

Escamilla,

Salas-Lucia

2024

Endocrinology

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The identification of critical factors that can worsen the mechanisms contributing to the pathophysiology of Alzheimer’s is paramount. Thyroid hormones (TH) fit this criterion. Epidemiological studies have identified an association between altered circulating TH levels and Alzheimer’s. The study of human and animal models indicates that TH can affect all the main cellular, molecular, and genetic mechanisms known as hallmarks of Alzheimer’s. This is true not only for the excessive production in the brain of protein aggregates leading to amyloid plaques and neurofibrillary tangles but also for the clearance of these molecules from the brain parenchyma via the blood-brain barrier and for the escalated process of neuroinflammation–and even for the effects of carrying Alzheimer’s-associated genetic variants. Suboptimal TH levels result in a greater accumulation of protein aggregates in the brain. The direct TH regulation of critical genes involved in amyloid beta production and clearance is remarkable, affecting the expression of multiple genes, including APP (related to amyloid beta production), APOE, LRP1, TREM2, AQP4, and ABCB1 (related to amyloid beta clearance). TH also affects microglia by increasing their migration and function and directly regulating the immunosuppressor gene CD73, impacting the immune response of these cells. Studies aiming to understand the mechanisms that could explain how changes in TH levels can contribute to the brain alterations seen in patients with Alzheimer’s are ongoing. These studies have potential implications for the management of patients with Alzheimer’s and ultimately can contribute to devising new interventions for these conditions.

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RNA Sequencing Reveals a Strong Predominance of THRA Splicing Isoform 2 in the Developing and Adult Human Brain

Graceffo,

Opitz,

Megges

et al. 2024

IJMS

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Thyroid hormone receptor alpha (THRα) is a nuclear hormone receptor that binds triiodothyronine (T3) and acts as an important transcription factor in development, metabolism, and reproduction. In mammals, THRα has two major splicing isoforms, THRα1 and THRα2. The better-characterized isoform, THRα1, is a transcriptional stimulator of genes involved in cell metabolism and growth. The less-well-characterized isoform, THRα2, lacks the ligand-binding domain (LBD) and is thought to act as an inhibitor of THRα1 activity. The ratio of THRα1 to THRα2 splicing isoforms is therefore critical for transcriptional regulation in different tissues and during development. However, the expression patterns of both isoforms have not been studied in healthy human tissues or in the developing brain. Given the lack of commercially available isoform-specific antibodies, we addressed this question by analyzing four bulk RNA-sequencing datasets and two scRNA-sequencing datasets to determine the RNA expression levels of human THRA1 and THRA2 transcripts in healthy adult tissues and in the developing brain. We demonstrate how 10X Chromium scRNA-seq datasets can be used to perform splicing-sensitive analyses of isoforms that differ at the 3′-end. In all datasets, we found a strong predominance of THRA2 transcripts at all examined stages of human brain development and in the central nervous system of healthy human adults.

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Spatiotemporal expression of thyroid hormone transporter MCT8 and THRA mRNA in human cerebral organoids recapitulating first trimester cortex development

Cited by 4 publications

References 83 publications

Mapping Thyroid Hormone Action in the Human Brain

Mapping Thyroid Hormone Action in the Human Brain

Thyroid Hormone and Alzheimer Disease: Bridging Epidemiology to Mechanism

RNA Sequencing Reveals a Strong Predominance of THRA Splicing Isoform 2 in the Developing and Adult Human Brain

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