PetCaseFinder

Peer-reviewed veterinary case report

Genetic variant linked to retinal degeneration in Miniature Schnauzers

By Leonardo Murgiano et al.·Published in G3: Genes, Genomes, Genetics·2019·View original on DOAJ

PetCaseFinder translated the abstract of this peer-reviewed paper into plain English so pet owners can read it. We do not publish original research — every detail traces back to the citation above. How we work →

Original publication title: Complex Structural PPT1 Variant Associated with Non-syndromic Canine Retinal Degeneration

Species:
dog
Canine GlaucomaBrain & nervesDogs

Plain-English summary

A group of Miniature Schnauzers diagnosed with progressive retinal atrophy (PRA) were found to have a genetic variant linked to their vision loss. This condition typically leads to gradual blindness, and the affected dogs were diagnosed around 4 years old. Researchers identified a specific genetic change in the PPT1 gene that seems to cause this form of PRA, which does not appear to affect other aspects of health. While some dogs with this variant showed no signs of neurological issues, the study suggests that the genetic change can lead to vision problems in some dogs but not all.

People also search for: Miniature Schnauzer PRA symptoms · dog retinal degeneration treatment · genetic testing for dog vision loss

Abstract

Rod and cone photoreceptors are specialized retinal neurons that have a fundamental role in visual perception, capturing light and transducing it into a neuronal signal. Aberrant functioning of rod and/or cone photoreceptors can ultimately lead to progressive degeneration and eventually blindness. In man, many rod and rod-cone degenerative diseases are classified as forms of retinitis pigmentosa (RP). Dogs also have a comparable disease grouping termed progressive retinal atrophy (PRA). These diseases are generally due to single gene defects and follow Mendelian inheritance.We collected 51 DNA samples from Miniature Schnauzers affected by PRA (average age of diagnosis ∼3.9 ±1 years), as well as from 56 clinically normal controls of the same breed (average age ∼6.6 ±2.8 years). Pedigree analysis suggested monogenic autosomal recessive inheritance of PRA. GWAS and homozygosity mapping defined a critical interval in the first 4,796,806 bp of CFA15. Whole genome sequencing of two affected cases, a carrier and a control identified two candidate variants within the critical interval. One was an intronic SNV in HIVEP3, and the other was a complex structural variant consisting of the duplication of exon 5 of the PPT1 gene along with a conversion and insertion (named PPT1dci). PPT1dci was confirmed homozygous in a cohort of 22 cases, and 12 more cases were homozygous for the CFA15 haplotype. Additionally, the variant was found homozygous in 6 non-affected dogs of age higher than the average age of onset. The HIVEP3 variant was found heterozygous (n = 4) and homozygous wild-type (n = 1) in cases either homozygous for PPT1dci or for the mapped CFA15 haplotype. We detected the wildtype and three aberrant PPT1 transcripts in isolated white blood cell mRNA extracted from a PRA case homozygous for PPT1dci, and the aberrant transcripts involved inclusion of the duplicated exon 5 and novel exons following the activation of cryptic splice sites. No neurological signs were detected among the dogs homozygous for the PPT1dci variant. Therefore, we propose PPT1dci as causative for a non-syndromic form of PRA (PRAPPT1) that shows incomplete penetrance in Miniature Schnauzers, potentially related to the presence of the wild-type transcript. To our knowledge, this is the first case of isolated retinal degeneration associated with a PPT1 variant.

Find similar cases for your pet

PetCaseFinder finds other peer-reviewed reports of pets with the same symptoms, plus a plain-English summary of what was tried across them.

Search related cases →

Original publication on DOAJ: https://doi.org/10.1534/g3.118.200859