Peer-reviewed veterinary case report
Cat with vitamin D-dependent rickets caused by CYP27B1 mutation
By Grahn, Robert A et al.Ā·Published in Journal of feline medicine and surgeryĀ·2012Ā·Department of Population Health and Reproduction, United StatesĀ·View original on PubMed ā
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Original publication title: A novel CYP27B1 mutation causes a feline vitamin D-dependent rickets type IA.
- Species:
- cat
Plain-English summary
A 12-week-old domestic cat was brought to the vet with low calcium levels and signs of rickets, which is a bone disease that can lead to fractures and deformities. Tests showed that the cat had low levels of the active form of vitamin D, indicating a specific genetic issue known as vitamin D-dependent rickets type 1A (VDDR-1A). Researchers found a new mutation in the cat's DNA that likely caused this condition. Unfortunately, the cat's treatment details weren't specified, but understanding the genetic cause can help guide future care and management for similar cases.
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Abstract
A 12-week-old domestic cat presented at a local veterinary clinic with hypocalcemia and skeletal abnormalities suggestive of rickets. Osteomalacia (rickets) is a disease caused by impaired bone mineralization leading to an increased prevalence of fractures and deformity. Described in a variety of species, rickets is most commonly caused by vitamin D or calcium deficiencies owing to both environmental and or genetic abnormalities. Vitamin D-dependent rickets type 1A (VDDR-1A) is a result of the enzymatic pathway defect caused by mutations in the 25-hydroxyvitamin D(3)-1-alpha-hydroxylase gene [cytochrome P27 B1 (CYP27B1)]. Calcitriol, the active form of vitamin D(3), regulates calcium homeostasis, which requires sufficient dietary calcium availability and correct hormonal function for proper bone growth and maintenance. Patient calcitriol concentrations were low while calcidiol levels were normal suggestive of VDDR-1A. The entire DNA coding sequencing of CYP27B1 was evaluated. The affected cat was wild type for previously identified VDDR-1A causative mutations. However, six novel mutations were identified, one of which was a nonsense mutation at G637T in exon 4. The exon 4 G637T nonsense mutation results in a premature protein truncation, changing a glutamic acid to a stop codon, E213X, likely causing the clinical presentation of rickets. The previously documented genetic mutation resulting in feline VDDR-1A rickets, as well as the case presented in this research, result from novel exon 4 CYP27B1 mutations, thus exon 4 should be the initial focus of future sequencing efforts.
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Search related cases āOriginal publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/22553308/