Digital lamellar inflammatory signaling in an experimental model of equine preferential weight bearing

Abstract

AbstractBackgroundSupporting limb laminitis (SLL) is a complication of severe orthopedic disease in horses and is often life‐limiting, yet the pathophysiology remains obscure.Hypothesis/ObjectivesTo investigate the role of digital lamellar inflammatory signaling in the pathophysiology of SLL using a model of unilateral weight bearing, hypothesizing that there would be evidence of lamellar inflammation in limbs subjected to the model.AnimalsThirteen healthy adult Standardbred horses were used for this study (11 geldings, 2 mares; mean age 6.5 ± 2.5 years; mean body weight 458.3 ± 32.8 kg).MethodsRandomized controlled experimental study. A steel shoe with a custom insert was applied to a randomly selected front foot of 7 horses; 6 horses were unshod and served as controls. After 92 hours, all horses were humanely euthanized, and digital lamellar samples were collected. Lamellar protein and mRNA were isolated and used to perform western blot and PCR.ResultsLamellar concentrations of IL‐6 mRNA were higher in SL tissue than IL HIND tissue (median [25%‐75%] normalized copy number 191 [111‐3060] and 48 [25‐74], respectively; P=.003), and lamellar concentrations of COX‐2 mRNA were higher in SL tissue than CON tissue (normalized copy number 400 [168‐634] and 125 [74‐178], respectively; P=.007). Lamellar concentrations of IL‐1B, IL‐10, and COX‐1 mRNA were not significantly different between groups. The concentrations of phosphorylated (activated) STAT1 and STAT3 proteins were higher in SL (0.5 [0.35‐0.87] and 1.35 [1.1‐1.7], respectively) compared to CON (0.24 [0.09‐0.37] and 0.31 [0.16‐037]) and UL HIND (0.27 [0.19‐0.37] and 0.38 [0.24‐0.5]); P=0.01 and P<0.001.Conclusions and Clinical ImportanceLamellar inflammatory signaling was higher in tissue from horses subjected to prolonged unilateral weight‐bearing, suggesting that these pathways could be relevant to the pathophysiology of SLL.