Stephen Coleman scite author profile

Laminitis associated with equine metabolic syndrome causes significant economic losses in the equine industry. Diets high in non‐structural carbohydrates (NSC) have been linked to insulin resistance and laminitis in horses. Nutrigenomic studies analyzing the interaction of diets high in NSCs and gene expression regulating endogenous microRNAs (miRNA) are rare. This study's objectives were to determine whether miRNAs from dietary corn can be detected in equine serum and muscle and its impacts on endogenous miRNA. Twelve mares were blocked by age, body condition score, and weight and assigned to a control (mixed legume grass hay diet) and a mixed legume hay diet supplemented with corn. Muscle biopsies and serum were collected on Days 0 and 28. Transcript abundances were analyzed using qRT‐PCR for three plant‐specific and 277 endogenous equine miRNAs. Plant miRNAs were found in serum and skeletal muscle samples with a treatment effect (p < .05) with corn‐specific miRNA being higher than control in serum after feeding. Endogenous miRNAs showed 12 different (p < .05) miRNAs in equine serum after corn supplementation, six (eca‐mir16, ‐4863p, ‐4865p, ‐126‐3p, ‐296, and ‐192) previously linked to obesity or metabolic disease. The results of our study indicate that dietary plant miRNAs can appear in circulation and tissues and may regulate endogenous genes.

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Evaluation of a simple and cost effective filter paper-based shipping and storage medium for environmental sampling of F-RNA coliphages

Pérez-Méndez

Chandler

Bisha

et al. 2013

Journal of Virological Methods

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Comparison of an Antioxidant Source and Antioxidant Plus Bcaa on Athletic Performance and Post Exercise Recovery of Horses

Kent

Coleman

Bruemmer³

et al. 2022

SSRN Journal

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Comparison of an Antioxidant Source and Antioxidant Plus BCAA on Athletic Performance and Post Exercise Recovery of Horses

Kent

Coleman

Bruemmer

et al. 2023

Journal of Equine Veterinary Science

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PSVII-13 Effects of corn supplementation on muscle microRNA profiles within horses

Carver

Hess

Bruemmer

et al. 2019

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The objective of this study was to determine the effect of corn supplementation on muscle microRNA (miRNA) profiles. Twelve mares were blocked by weight and BCS and assigned to one of two treatments (6 hd/treatment): 1) control, (basal diet: 9 Kg/hd/d of chopped mixed grass hay and ad libitum mixed grass hay), 2) basal diet supplemented with 454 g/d steam flaked corn individually using feed bags. All mares were placed on the basal diet and in the same pen 14 days prior to the beginning of corn supplementation. Mares were weighed and BCS on d -7 and 28. Muscle biopsies of the gluteus medius were taken from all horses on d0 and d26. Muscle samples were analyzed using real time RT-qPCR for 277 endogenous miRNAs. Raw CT values were normalized with the geometric mean of three consistently appearing endogenous miRNAs. Sixteen miRNAs that consistently appeared in at least 8 horses including 3 relating to metabolic disorders appearing at d0, d26, or both were analyzed. Differential abundances of miRNAs using log transformed fold change and differences between BW and BCS of treatment groups were determined by ANOVA and LS means analysis. There was no difference between BW (P < .05) and BCS (P < .05) between the two treatment groups. Feeding corn lead to higher quantities (P < .05) of mir 133a, 1515p, 6155p, 770, and 99b within muscle compared to control group. Lower quantities of mir 382 and 433 were found within muscle of horses fed corn compared to the control group (P < .05). Based upon the results of this study corn supplementation appears to influence endogenous miRNA expression profiles within muscle of horses.

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Stephen Coleman

Effects of corn supplementation on serum and muscle microRNA profiles in horses

Evaluation of a simple and cost effective filter paper-based shipping and storage medium for environmental sampling of F-RNA coliphages

Comparison of an Antioxidant Source and Antioxidant Plus Bcaa on Athletic Performance and Post Exercise Recovery of Horses

Comparison of an Antioxidant Source and Antioxidant Plus BCAA on Athletic Performance and Post Exercise Recovery of Horses

PSVII-13 Effects of corn supplementation on muscle microRNA profiles within horses

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