Exploring the genetics underpinning dynamic laryngeal collapse associated with poll flexion in Norwegian-Swedish Coldblooded Trotter racehorses.

BACKGROUND Dynamic laryngeal collapse associated with poll flexion (DLC) is the most common disorder of the upper respiratory tract in the Norwegian-Swedish Coldblooded Trotter (NSCT). The disorder, which has also been diagnosed in other breeds of trotters and gaited horses, appears to be related to anatomic phenotypes and only occurs during poll flexion when the horse is exercised "on the bit". OBJECTIVES Identify genomic regions associated with DLC in the NSCT by combining a rigorous phenotyping protocol with genomic data from a high density equine genotyping array. STUDY DESIGN Prospective case/control study. METHODS High-speed treadmill endoscopy was used to phenotype horses (n = 61) for DLC, distinguishing between cases and controls. Genome-wide association analysis of DLC status was then performed using a principal components approach with haplotype analyses subsequently performed for regions containing single nucleotide polymorphisms (SNPs) above the suggestive genome-wide significance threshold (P < 1.0 x 10-5 ). RESULTS One region containing 10 SNPs (Equus caballus chromosome [ECA] 7: 89601935-94647192) was above the suggestive genome-wide significance threshold. Two inferred haplotypes in this region demonstrated significant differences (p<0.001) between cases and controls, with the most frequent haplotype resulting in a significantly increased risk of DLC. MAIN LIMITATIONS Small sample size as a result of stringent phenotyping protocols. CONCLUSIONS The current study highlights a candidate genomic region on ECA7 as potentially important with regard to the manifestation of DLC. Further exploration of this region and the genes included within it will bring veterinarians and researchers closer to fully understanding the biological mechanisms underlying DLC in horses. This article is protected by copyright. All rights reserved.

[1]  S. Brooks,et al.  Identification of loci affecting sexually dimorphic patterns for height and recurrent laryngeal neuropathy risk in American Belgian Draft Horses. , 2018, Physiological genomics.

[2]  N. Romero,et al.  Hyperckemia and myalgia are common presentations of anoctamin‐5‐related myopathy in French patients , 2017, Muscle & nerve.

[3]  Astrid Gall,et al.  Ensembl 2018 , 2017, Nucleic Acids Res..

[4]  L. Andersson,et al.  To pace or not to pace: a pilot study of four- and five-gaited Icelandic horses homozygous for the DMRT3 'Gait Keeper' mutation. , 2017, Animal Genetics.

[5]  L. Andersson,et al.  Lack of significant associations with early career performance suggest no link between the DMRT3 “Gait Keeper” mutation and precocity in Coldblooded trotters , 2017, PloS one.

[6]  M. Collins,et al.  Three novel ANO5 missense mutations in Caucasian and Chinese families and sporadic cases with gnathodiaphyseal dysplasia , 2017, Scientific Reports.

[7]  Anushya Muruganujan,et al.  PANTHER version 10: expanded protein families and functions, and analysis tools , 2015, Nucleic Acids Res..

[8]  R. Piercy,et al.  Histopathological assessment of intrinsic laryngeal musculature in horses with dynamic laryngeal collapse. , 2015, Equine veterinary journal.

[9]  L. Andersson,et al.  Different DMRT3 Genotypes Are Best Adapted for Harness Racing and Riding in Finnhorses. , 2015, The Journal of heredity.

[10]  T. McCarrel,et al.  Update on laryngeal disorders and treatment. , 2015, The Veterinary clinics of North America. Equine practice.

[11]  Kyle C. Oliveira,et al.  Genomic analysis establishes correlation between growth and laryngeal neuropathy in Thoroughbreds , 2014, BMC Genomics.

[12]  E. G. Cothran,et al.  Worldwide frequency distribution of the 'Gait keeper' mutation in the DMRT3 gene. , 2014, Animal genetics.

[13]  S. Holcombe,et al.  Results of upper airway radiography and ultrasonography predict dynamic laryngeal collapse in affected horses. , 2013, Equine veterinary journal.

[14]  S. Schneider,et al.  Mutations in ANO3 cause dominant craniocervical dystonia: ion channel implicated in pathogenesis. , 2012, American journal of human genetics.

[15]  E. Skjerve,et al.  Complex dynamic upper airway collapse: associations between abnormalities in 99 harness racehorses with one or more dynamic disorders. , 2012, Equine veterinary journal.

[16]  C. Fjordbakk,et al.  Relative prevalence of upper respiratory tract obstructive disorders in two breeds of harness racehorses (185 cases: 1998-2006). , 2012, Equine veterinary journal.

[17]  K. Kullander,et al.  Mutations in DMRT3 affect locomotion in horses and spinal circuit function in mice , 2012, Nature.

[18]  John P A Ioannidis,et al.  What Should the Genome-wide Significance Threshold Be? Empirical Replication of Borderline Genetic Associations Yfor a Full List of Investigators Offering Data and Clarifications See Acknowledgments , 2022 .

[19]  M. Georges,et al.  Results of a haplotype-based GWAS for recurrent laryngeal neuropathy in the horse , 2011, Mammalian Genome.

[20]  K. Ting,et al.  The Role of NELL-1, a Growth Factor Associated with Craniosynostosis, in Promoting Bone Regeneration , 2010, Journal of dental research.

[21]  E. Strand,et al.  Dynamic bilateral arytenoid and vocal fold collapse associated with head flexion in 5 Norwegian Coldblooded Trotter racehorses , 2010 .

[22]  C. Fjordbakk,et al.  Surgical and conservative management of bilateral dynamic laryngeal collapse associated with poll flexion in harness race horses. , 2008, Veterinary surgery : VS.

[23]  Mahlon D. Johnson,et al.  Nell1-deficient mice have reduced expression of extracellular matrix proteins causing cranial and vertebral defects. , 2006, Human molecular genetics.

[24]  Mark Daly,et al.  Haploview: analysis and visualization of LD and haplotype maps , 2005, Bioinform..

[25]  M. Campbell,et al.  PANTHER: a library of protein families and subfamilies indexed by function. , 2003, Genome research.

[26]  N. Laird,et al.  Estimation and Tests of Haplotype-Environment Interaction when Linkage Phase Is Ambiguous , 2003, Human Heredity.

[27]  D. Schaid,et al.  Score tests for association between traits and haplotypes when linkage phase is ambiguous. , 2002, American journal of human genetics.

[28]  Siv Hanche-Olsen,et al.  Bilateraler dynamischer Kehlkopfkollaps in Zusammenhang mit der Kopf-Halshaltung im Tölt bei einem Islandpferd , 2010 .

[29]  S. Holcombe,et al.  Effect of poll flexion and dynamic laryngeal collapse on tracheal pressure in Norwegian Coldblooded Trotter racehorses. , 2009, Equine veterinary journal.