Nthabisheng Segoale scite author profile

After parturition, increased growth hormone (GH) secretion is important to preserve the metabolic homeostasis of energy-deficient dairy cows. Elevated plasma GH promotes lipid mobilization from adipose tissue, but paradoxically, is associated with depressed concentration of insulin-like growth factor-I (IGF-I), a growth factor produced in a GH-dependent fashion in liver. Primary factors regulating GH responses of liver and adipose tissue are poorly understood in periparturient dairy cows. Consistent with insulin being such a factor, its plasma concentration declined concomitantly with net energy balance (EB) and with plasma IGF-I in a group of 9 periparturient dairy cows. To test the role of insulin in regulating cellular determinants of GH responsiveness, hyperinsulinemic-euglycemic clamps were performed on 6 dairy cows in late pregnancy (28 d prepartum) before the reductions in EB, insulin, and IGF-I were initiated, and when they were completed in early lactation (10 d postpartum). Infusion of insulin nearly doubled the plasma concentration of IGF-I (P < 0.001) and hepatic levels of IGF-I mRNA during both states (P < 0.05). In liver, these responses were associated with increased abundance of the GH receptor protein (GHR; P < 0.05), whereas the abundance of intracellular mediators of GH actions (JAK2, STAT5, or STAT3) remained unaffected. Insulin also doubled GHR abundance in adipose tissue (P < 0.01), indicating that this effect is not liver specific. These results raise the possibility that insulin regulates the efficiency of GH signaling in liver and adipose tissue of dairy cows by acting as a rheostat of GHR synthesis.

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Effect of insulin and growth hormone on plasma leptin in periparturient dairy cows

Leury¹,

Baumgard²,

Block³

et al. 2003

American Journal of Physiology-Regulatory, Integrative and Comp

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After parturition, dairy cows suffer from an intense energy deficit caused by the onset of copious milk secretion and an inadequate increase in voluntary food intake. We previously showed that this energy deficit contributes to a decline in plasma leptin. This decline mirrors that of plasma insulin but is reciprocal to the profile of plasma growth hormone (GH), suggesting that both hormones may regulate plasma leptin in periparturient dairy cows. To study the role of insulin, hyperinsulinemic-euglycemic clamps were performed on six dairy cows in late pregnancy (LP, 31 days prepartum) and early lactation (EL, 7 days postpartum). Infusion of insulin (1 microg.kg body wt-1.h-1) caused a progressive rise in the plasma concentration of leptin that reached maximum levels at 24 h during both physiological states. At steady states, the absolute increase in plasma leptin was greater in LP than in EL cows (2.4 vs. 0.4 ng/ml). Insulin infusion increased leptin mRNA in adipose tissue during LP but not during EL. During lactation, mammary epithelial cells expressed leptin mRNA but insulin did not increase milk leptin output. In contrast, a 3-day period of GH administration had no effect on plasma leptin during LP or EL. Therefore, insulin increases plasma leptin in LP by stimulating adipose tissue synthesis but has only marginal effects in EL, when cows are in negative energy balance. Other factors, such as increased response of adipose tissue to beta-adrenergic signals, probably contribute to the reduction of plasma leptin in early lactating dairy cows.

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Isolation of the cDNA encoding the acid labile subunit (ALS) of the 150 kDa IGF-binding protein complex in cattle and ALS regulation during the transition from pregnancy to lactation

Kim¹,

Rhoads²,

Segoale³

et al. 2006

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During the transition from pregnancy to lactation, dairy cows experience a 70% reduction in plasma IGF-I. This reduction has been attributed to decreased hepatic IGF-I production. IGF-I circulates predominantly in multiprotein complexes consisting of one molecule each of IGF-I, IGF binding protein-3 and the acid labile subunit (ALS). Recent studies in the mouse have shown that absence of ALS results in accelerated turnover and severely depressed concentration of plasma IGF-I. These observations suggest that reduced plasma ALS could be a second factor contributing to the fall of plasma IGF-I in periparturient cows. This possibility has not been studied due to the lack of bovine ALS reagents. To address this, we isolated the bovine ALS cDNA and used its sequence to develop a ribonuclease protection assay (RPA) and a bovine ALS antiserum. Using the RPA, ALS mRNA abundance was approximately fivefold higher in liver than in lung, small intestine, adipose tissue, kidney and heart, but was absent in muscle and brain. The antiserum detected the highest ALS levels in plasma followed by ovarian follicular fluid, lymph and colostrum. A portion of colostrum and follicular fluid ALS appears to be synthesized locally as ALS mRNA was found in mammary epithelial cells and ovarian follicular cells. Finally, we measured plasma ALS in dairy cows during the periparturient period (days 35 and +56 relative to parturition on day 0). Plasma ALS dropped by 50% between late pregnancy and the first day of lactation and returned to prepartum levels by day +56. To determine whether this reflected a change in hepatic expression, ALS mRNA was measured in liver biopsies collected on days 35, +3 and +56. ALS mRNA expression was significantly lower on day +3 than on day 35, but recovered completely by day +56. Finally, we examined the ability of GH to increase plasma ALS abundance at selected times before and after parturition (weeks 5, 2, +1 and +5). GH increased plasma ALS at weeks 5, 2 and +5, but not at week +1. Identical effects of GH were seen when the response considered was plasma IGF-I. We conclude that the decline in plasma ALS after parturition is a consequence of hepatic GH resistance and contributes to the associated reduction of plasma IGF-I.

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