Peer-reviewed veterinary case report
New steroid treatment tested for high cortisol in dogs
By Sanders, K et al.·Published in Domestic animal endocrinology·2018·Department of Clinical Sciences of Companion Animals, Netherlands·View original on PubMed →
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Original publication title: Steroidogenic factor-1 inverse agonists as a treatment option for canine hypercortisolism: in vitro study.
- Species:
- dog
Plain-English summary
A study looked at new treatment options for dogs with hypercortisolism, a condition where the body produces too much cortisol. Researchers tested a compound called #31, which was found to reduce cortisol production in normal adrenal cells without harming the cells. However, the results were mixed when testing it on adrenal tumors. This suggests that while #31 could be a promising treatment for hypercortisolism in dogs, more research is needed to understand its effects on different types of tumors.
People also search for: dog hypercortisolism treatment · canine Cushing's disease medication · cortisol levels in dogs
Abstract
Hypercortisolism is one of the most commonly diagnosed endocrinopathies in dogs, and new targeted medical treatment options are desirable. Steroidogenic factor-1 (SF-1), an orphan nuclear hormone receptor, is a key regulator of adrenal steroidogenesis, development, and growth. In pituitary-dependent hypercortisolism (PDH), high plasma ACTH concentrations increase the transcriptional activity of SF-1. In adrenal-dependent hypercortisolism, SF-1 expression is significantly greater in dogs with recurrence after adrenalectomy than in those without recurrence. Inhibition of SF-1 could therefore be an interesting treatment option in canine spontaneous hypercortisolism. We determined the effects of 3 SF-1 inverse agonists, compounds IsoQ A, #31, and #32, on cortisol production, on the messenger RNA (mRNA) expression of steroidogenic enzymes and SFs, and on cell viability, in primary adrenocortical cell cultures of 8 normal adrenal glands and of 3 cortisol-secreting adrenocortical tumors (ATs). To mimic PDH, the normal adrenocortical cell cultures were stimulated with ACTH. The results show that only compound #31 inhibited cortisol production and SF-1 target gene expression in non-ACTH-stimulated and ACTH-stimulated normal adrenocortical cells but did not affect cell viability. In the AT cell cultures, the effects of #31 on cortisol production and target gene expression were variable, possibly caused by a difference in the SF-1 mRNA expressions of the primary tumors. In conclusion, inhibition of SF-1 activity shows much promise as a future treatment for canine hypercortisolism.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/29223003/