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Peer-reviewed veterinary case report

Kitten with vitamin D rickets linked to new gene mutation

By Gabriele Habacher et al.·Published in Journal of Feline Medicine and Surgery·2023·Raddenstiles Veterinary Surgery, CVS UK Ltd, Exmouth, UK, GB·View original on DOAJ

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Original publication title: Feline precision medicine using whole-exome sequencing identifies a novel frameshift mutation for vitamin D-dependent rickets type 2

Species:
cat
Movement & jointsCats

Plain-English summary

A 14-week-old female domestic longhair kitten was brought in for shifting lameness and was noticeably smaller than her littermate. Tests revealed low calcium levels and signs of rickets, a bone condition caused by vitamin D deficiency. The veterinarian provided pain relief and treated her with high doses of vitamin D and calcium supplements, which helped normalize her calcium levels and allowed her to grow normally, although some bone issues remained. Genetic testing identified a unique mutation affecting the vitamin D receptor as the cause of her condition.

People also search for: kitten lameness · rickets in cats · vitamin D deficiency treatment for kittens

Abstract

Objectives A 14-week-old female domestic longhair kitten presented with shifting lameness and disproportionately smaller size compared with a co-housed littermate. Methods Hematology and serum biochemical testing were conducted to investigate causes for delayed growth, and radiographs of the appendicular skeleton were obtained. Results The afflicted kitten had marked hypocalcemia, mild hypophosphatemia and substantial elevations in alkaline phosphatase activity, as well as pathognomonic radiographic findings consistent with rickets. Skeletal changes and hypocalcemia prompted testing of concentrations of parathyroid hormone (PTH) and vitamin D metabolites. Endocrine testing demonstrated significant increases in serum concentrations of PTH and 1,25-dihydroxycholecalciferol (calcitriol), supporting a diagnosis of vitamin D-dependent rickets type 2. Provision of analgesia, supraphysiologic doses of calcitriol and calcium carbonate supplementation achieved normalization of the serum calcium concentration and restoration of normal growth, although some skeletal abnormalities persisted. Once skeletally mature, ongoing calcitriol supplementation was not required. Whole-exome sequencing (WES) was conducted to identify the underlying DNA variant. A cytosine deletion at cat chromosome position B4:76777621 in VDR (ENSFCAT00000029466:c.106delC) was identified and predicted to cause a stop codon in exon 2 (p.Arg36Glufs*18), disrupting >90% of the receptor. The variant was unique and homozygous in this patient and absent in the sibling and approximately 400 other cats for which whole-genome and whole-exome data were available. Conclusions and relevance A unique, heritable form of rickets was diagnosed in a domestic longhair cat. WES identified a novel frameshift mutation affecting the gene coding for the vitamin D3 receptor, determining the likely causal genetic variant. Precision medicine techniques, including whole-exome and whole-genome sequencing, can be a standard of care in cats to identify disease etiologies, and to target therapeutics and personalize treatment.

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Original publication on DOAJ: https://doi.org/10.1177/1098612X231165630