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Peer-reviewed veterinary case report

Gene mutations linked to spontaneous hyperthyroidism in older cats

By Hiron, Thomas K et al.·Published in Scientific reports·2024·Department of Clinical Science and Services, United Kingdom·View original on PubMed

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Original publication title: Transcriptomic analysis reveals a critical role for activating Gα mutations in spontaneous feline hyperthyroidism.

Species:
cat

Plain-English summary

A study found that many older cats with hyperthyroidism, a condition where the thyroid gland produces too much hormone, have specific genetic mutations that may be causing the problem. These mutations affect how the thyroid functions without the usual signals from the body. The research suggests that targeting these genetic changes could lead to new treatments for hyperthyroidism in cats. This is important because hyperthyroidism is common in older cats and can lead to serious health issues if not managed properly.

People also search for: cat hyperthyroidism treatment · symptoms of hyperthyroidism in cats · what causes hyperthyroidism in older cats

Abstract

Feline hyperthyroidism (FHT) is a debilitating disease affecting > 10% of elderly cats. It is generally characterised by chronic elevation of thyroid hormone in the absence of circulating TSH. Understanding of the molecular pathogenesis of FHT is currently limited. However, FHT shares clinical and histopathological similarities with human toxic multinodular goitre, which has been associated with activating mutations in TSH receptor (TSHR) and Gα encoding genes. Using RNA-seq transcriptomic analysis of thyroid tissue from hyperthyroid and euthyroid cats, we identified differentially expressed genes and dysregulated pathways in FHT, many of which are downstream of TSHR. In addition, we detected missense variants in thyroid RNA-seq reads that alter the structure of both TSHR and Gα. All FHT-associated mutations were absent in germline sequence from paired blood samples. Only a small number of hyperthyroid cats demonstrated TSHR variation, however all thyroids from advanced cases of FHT carried at least one missense variant affecting Gα. The activating nature of the acquired Gα mutations was demonstrated by increased cAMP production in vitro. These data indicate that constitutive activation of signalling downstream of TSHR is central to the TSH-independent production of thyroid hormone in FHT, offering a novel therapeutic target pathway in this common disease.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/39567583/