Abstract

The effects of amino acid supply and insulin infusion on skin protein kinetics (fractional synthesis rate (FSR), fractional breakdown rate (FBR), and net balance (NB)) in pigs were investigated. Four-month-old pigs were divided into four groups as follows: control, insulin (INS), amino acid (AA), and INS + AA groups based on the nutritional and hormonal conditions. l-[ring-(13)C6]Phenylalanine was infused. FBR was estimated from the enrichment ratio of arterial phenylalanine to intracellular free phenylalanine. Plasma INS was increased (p < 0.05) in the INS and INS + AA groups. Plasma glucose was maintained by infusion of glucose in the groups receiving INS. The interventions did not change the NB of skin protein. However, the interventions affected the FSR and FBR differently. An infusion of INS significantly increased both FSR and FBR, although AA infusion did not. When an AA infusion was added to the infusion of insulin (INS + AA group), FSR and FBR were both lower when compared with the INS group. Our data demonstrate that in anesthetized pigs INS infusion did not exert an anabolic effect, but rather it increased AA cycling into and out of skin protein. Because co-infusion of AAs with INS ameliorated this effect, it is likely that the increased AA cycling during INS infusion was related to AA supply. Although protein kinetics were affected by both INS and AAs, none of the interventions affected the skin protein deposition. Thus, skin protein content is closely regulated under normal circumstances and is not subject to transient changes in AAs or hormonal concentrations.

Highlights

  • Insulin is known as an anabolic agent; its effect on skin protein metabolism is not well understood

  • The main finding of this study is that the availability of amino acid (AA) modulated the effect of hyperinsulinemia on skin protein metabolism

  • The data demonstrate the complexity of the effect of AA and INS on skin protein metabolism in pigs and suggest that evaluation of both the synthesis and breakdown rates of skin protein is needed to understand the effect of interventions on skin protein metabolism

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Summary

Introduction

Insulin is known as an anabolic agent; its effect on skin protein metabolism is not well understood. Conclusion: Hyperinsulinemia itself was not anabolic but rather affected skin amino acid cycling. The effects of amino acid supply and insulin infusion on skin protein kinetics (fractional synthesis rate (FSR), fractional breakdown rate (FBR), and net balance (NB)) in pigs were investigated. An infusion of INS significantly increased both FSR and FBR, AA infusion did not. When an AA infusion was added to the infusion of insulin (INS ؉ AA group), FSR and FBR were both lower when compared with the INS group. Our data demonstrate that in anesthetized pigs INS infusion did not exert an anabolic effect, but rather it increased AA cycling into and out of skin protein. Because co-infusion of AAs with INS ameliorated this effect, it is likely that the increased AA cycling during INS infusion was related to AA supply. Skin protein content is closely regulated under normal circumstances and is not subject to transient changes in AAs or hormonal concentrations

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