Evaluation of EPAS1 variants for association with bovine congestive heart failure [version 1; peer review: 2 approved]

Background: Bovine congestive heart failure (BCHF) has become increasingly prevalent in feedlot cattle in the Western Great Plains of North America. BCHF is an untreatable complex condition involving pulmonary hypertension that culminates in right ventricular failure and death. A protein variant of hypoxia-inducible factor 2 alpha (HIF2α, encoded by the endothelial PAS domain-containing protein 1 gene, EPAS1) was previously reported to be associated with pulmonary hypertension at altitudes exceeding 2,000 m. Our aim was to evaluate EPAS1 haplotypes for association with BCHF in feedlot cattle raised at moderate altitudes (1,200 m). Methods: Paired samples of clinical cases and unaffected controls were collected at four feedlots in Nebraska and Wyoming. Each pair (n =102) was matched for source, pen, breed type, sex, arrival date, and management conditions. Cases were identified by animal caretakers, euthanized, and diagnosis was confirmed at necropsy. Cases were derived from 30 different ranch operations, with the largest source contributing 32. Animals were tested for eight EPAS1 haplotypes encoding 36 possible different diploid combinations. Results: The common, ancestral EPAS1 haplotype encoding HIF2α with alanine (A) at position 606 and glycine (G) at position 610 was equally frequent in cases and controls (0.67). The EPAS1 variant haplotype reported to be associated with disease (encoding threonine (T) at position 606 and serine (S) at position 610) was not enriched in cases compared with controls (0.21 and 0.25, respectively). Frequencies of other EPAS1 haplotypes (e.g., encoding Q270, L362, or G671) were each less than 0.05 overall. McNemar’s test with 45 discordant pairs showed the linked T606/S610 variant was not associated with BCHF (OR = 0.73, CI 0.38 -1.4, p-value = 0.37). Conclusions: HIF2α polypeptide variants were not significantly associated with BCHF in feedlot cattle at moderate altitudes. Thus, a wider search is needed to identify genetic risk factors underlying this disease

Effects of Genetic Risk Factors for Bovine Congestive Heart Failure on Carcass Performance, Feedlot Health, and Pulmonary Arterial Pressure in Beef Cattle

The rising rates of bovine congestive heart failure (BCHF) at low to moderate elevations has become a significant concern to North American cattle producers. The condition\u27s etiology remains largely unknown, but clinical signs are similar to those of high altitude disease, which historically only affected cattle at elevations above 2,000 meters. Studies have investigated potential risk factors associated with BCHF. Two genetic markers in the arrestin domain-containing protein 3 gene (ARRDC3) and the nuclear factor IA gene (NFIA) were recently discovered to be associated with BCHF in feedlot cattle in the Western Great Plains. In order for cattle producers to use this genetic information to select against BCHF risk in their herds, a custom assay was developed. Chapter two evaluates the accuracy and efficiency of this genotyping assay and testing platform. The adoption of new genetic selection practices is often met with cautionary resistance, due to the uncertainty of potential selection against beneficial production traits. Therefore, chapter three details a study on calves born in a western Nebraska herd during a three-year period to track ARRDC3 and NFIA genotypes and their associations with carcass performance and health outcomes. Additionally, the results of an association study between BCHF genetic risk factors and pulmonary arterial pressure (PAP) in seedstock bulls is presented in chapter four. The research presented in this dissertation addresses the need for reliable genetic tests and the effects that ARRDC3 and NFIA genotypes have on carcass performance, health outcomes, and PAP in cattle. Cattle producers, veterinarians, and scientists can use these results to further understand BCHF

Evaluation of EPAS1 variants for association with bovine congestive heart failure [version 1; peer review: 2 approved]

Background: Bovine congestive heart failure (BCHF) has become increasingly prevalent in feedlot cattle in the Western Great Plains of North America. BCHF is an untreatable complex condition involving pulmonary hypertension that culminates in right ventricular failure and death. A protein variant of hypoxia-inducible factor 2 alpha (HIF2α, encoded by the endothelial PAS domain-containing protein 1 gene, EPAS1) was previously reported to be associated with pulmonary hypertension at altitudes exceeding 2,000 m. Our aim was to evaluate EPAS1 haplotypes for association with BCHF in feedlot cattle raised at moderate altitudes (1,200 m). Methods: Paired samples of clinical cases and unaffected controls were collected at four feedlots in Nebraska and Wyoming. Each pair (n =102) was matched for source, pen, breed type, sex, arrival date, and management conditions. Cases were identified by animal caretakers, euthanized, and diagnosis was confirmed at necropsy. Cases were derived from 30 different ranch operations, with the largest source contributing 32. Animals were tested for eight EPAS1 haplotypes encoding 36 possible different diploid combinations. Results: The common, ancestral EPAS1 haplotype encoding HIF2α with alanine (A) at position 606 and glycine (G) at position 610 was equally frequent in cases and controls (0.67). The EPAS1 variant haplotype reported to be associated with disease (encoding threonine (T) at position 606 and serine (S) at position 610) was not enriched in cases compared with controls (0.21 and 0.25, respectively). Frequencies of other EPAS1 haplotypes (e.g., encoding Q270, L362, or G671) were each less than 0.05 overall. McNemar’s test with 45 discordant pairs showed the linked T606/S610 variant was not associated with BCHF (OR = 0.73, CI 0.38 -1.4, p-value = 0.37). Conclusions: HIF2α polypeptide variants were not significantly associated with BCHF in feedlot cattle at moderate altitudes. Thus, a wider search is needed to identify genetic risk factors underlying this disease