Frances C. Buonomo scite author profile

Six Holstein cows were used in a complete block design to examine effects of period of lactation and somatotropin (bST) administration on concentrations of insulin, insulin-like growth factors (IGF-I, IGF-II), and IGF-binding protein 2 (IGFBP-2). During late lactation, the dry period and the subsequent early lactation, cows received injections of NaHCO3 buffer for 5 d and bST for 7 d. Cows were in positive energy and protein balances during late lactation and the dry period and in slight negative balances during early lactation. Basal insulin concentrations were highest in late lactation (170 pmol/L), whereas bST concentrations were higher in early lactation (0.6 micrograms/L). Insulin was increased by bST in the dry period (255 pmol/L) and late lactation (149 pmol/L) but not in early lactation (14 pmol/L), probably because of greater availability of glucose during positive nutrient balance. Basal IGF-I was lowest in early lactation (63.6 micrograms/L) but was increased by bST during all periods. The IGF-I response to bST administration was lower during early lactation (74.1 micrograms/L) compared with late lactation (123.6 micrograms/L) and dry period (146.0 micrograms/L). The IGF-II concentrations were not affected by period of lactation of bST administration but IGF-II tended to be higher during bST administration when cows were dry. Concentration of IGFBP-2 was higher during early lactation when cows were in negative nutrient balance (479.5 micrograms/L) than during the dry period (289.2 micrograms/L) and was decreased with bST. These data support a role of insulin and IGF in regulation of milk production. Availability of nutrients may be involved in regulating these hormones, particularly during bST treatment.

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Periparturient Changes in Secretion and Mammary Uptake of Insulin and in Concentrations of Insulin and Insulin-Like Growth Factors in Milk of Dairy Cows

Malven

Head

Collier

et al. 1987

Journal of Dairy Science

117

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Mammary uptake of insulin from blood was quantified near parturition in nine dairy cows, some of which were milked prepartum to induce prepartum lactogenesis. Milk samples were immunoassayed for concentrations of insulin, insulin-like growth factor I, and insulin-like growth factor II. Cows milked prepartum, but in which prepartum lactogenesis did not occur (denoted as unsuccessful group), had higher arterial concentrations and greater mammary uptake of insulin during several days immediately preceding parturition than did those with prepartum lactogenesis. Although mammary uptake of insulin was measurable before parturition, estimated uptake on postpartum d 4 through 6 was negligible. Colostrum and milk contained very substantial quantities of insulin, insulin-like growth factor I, and insulin-like growth factor II. Cows in which prepartum lactogenesis was induced (denoted as successful group) had lower concentrations of both forms of insulin-like growth factor in prepartum samples of milk. Cows of the successful group also had a decreasing prepartum profile of milk insulin, but the unsuccessful group had an increasing trend until parturition. Milk concentrations of insulin and both forms of insulin-like growth factor declined rapidly after parturition and completion of lactogenesis.

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Influence of nutritional deprivation on insulin-like growth factor I, somatotropin, and metabolic hormones in swine.

Buonomo

Baile

1991

101

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Although growth hormone (GH) is a primary stimulus for the synthesis of insulin-like growth factor I (IGF-I), other factors such as nutritional status, insulin, and thyroid hormones are important modulators of circulating IGF-I levels. Thus, the effects of feed restriction and subsequent refeeding on plasma levels of IGF-I, GH, insulin, and thyroid hormones were studied in swine. Despite an elevation in plasma GH levels after 48 h of feed restriction, circulating IGF-I levels were decreased by 53% (P less than .05). Plasma triiodothyronine (T3) and insulin were lower (P less than .05) within 24 h after the feed restriction began, whereas thyroxine (T4) did not decrease until 48 h after removal of feed. Blood glucose levels remained unchanged throughout the experiment. Refeeding after the 48-h fast was associated with a decline (P less than .05) in circulating GH levels within 2 h, concomitant with an elevation (P less than .05) in plasma insulin and T3. Refeeding fasted pigs was associated with an increase (P less than .05) in plasma IGF-I; however, levels still had not returned to prefast concentrations within 24 h after refeeding. These data indicate that the GH-IGF-I axis becomes uncoupled during nutritional restriction in swine and that inadequate nutrient supply may limit the expression of the anabolic effects of GH.

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Fertility of Transgenic Female Mice Expressing Bovine Growth Hormone or Human Growth Hormone Variant Genes1

Naar

Bartke

Majumdar

et al. 1991

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Although growth hormone (GH) exerts various direct and indirect stimulatory effects on gonadal development and function, excessive levels of GH in acromegalic patients and in transgenic animals are often associated with reproductive disorders. We have examined reproductive performance of transgenic female mice expressing the following hybrid genes: mouse metallothionein-1 (MT)/human placental GH variant (hGH.V), MT/bovine GH(bGH), and phosphoenolpyruvate carboxykinase (PEPCK)/bGH. This allowed us to evaluate the effects of chronic GH excess in three animal models and to obtain some information on the significance of the lactogenic activity of the foreign GH (hGH.V vs. bGH) and on the developmental stage of transgene expression (MT vs. PEPCK). Transgenic animals from each line had elevated plasma insulin-like growth factor-I levels and greatly increased adult body weight. Plasma bGH levels were significantly higher in PEPCK/bGH than in MT/bGH transgenic mice. Approximately 20% of transgenic MT/hGH.V and MT/bGH females and over 60% of transgenic PEPCK/bGH females were infertile. Transgenic females that did reproduce ovulated either a normal or increased number of eggs but exhibited a variety of reproductive disorders including increased interval between pairing with a male and conception, increased interval between litters, reduced number of litters, reduced fetal growth, increased pre- and postnatal mortality, and alterations in sex ratio. Among adult offspring of these females, the proportion of transgenic animals was significantly less than the expected 50%. While some characteristics (e.g., fetal crown-rump length and weight on Day 14 of pregnancy) were affected to a comparable extent in transgenic females from all three lines, MT/hGH.V and PEPCK/bGH females were, in general, more severely affected than the MT/bGH animals. Sterility of PEPCK/bGH females appeared to be due to luteal failure since treatment with progesterone led to pregnancy. Greatly increased intervals between successive litters appeared to be due to failure to mate during postpartum estrus and to sterile matings during this period. Reduced fetal size and weight may have been due to chronic glucocorticoid excess because comparable changes could be induced in normal females by injections of dexamethasone during pregnancy, and plasma corticosterone levels were previously shown to be elevated in transgenic mice from each of these lines. Comparison of these results with data obtained from matings of normal female mice to transgenic males from the same lines suggests that reduced fetal growth is due primarily to maternal genotype, while reduced "transmission" of the hybrid genes is not, and presumably reflects increased mortality of transgenic progeny at various stages of development.(ABSTRACT TRUNCATED AT 400 WORDS)

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Effects of acute thermal stress and amount of feed intake on concentrations of somatotropin, insulin-like growth factor (IGF)-I and IGF-II, and thyroid hormones in plasma of lactating Holstein cows2

McGuire

Beede

Collier

et al. 1991

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Our objective was to evaluate effects of acute thermal stress, independent of reduced feed intake caused by elevated temperatures, and of reduced feed intake in thermal comfort on plasma concentrations of somatotropin, insulin-like growth factors I and II, thyroxine, and triiodothyronine. Six Holstein cows (averaging 475 +/- 18 kg BW, 2.3 +/- .3 parities, and 96 +/- 12 d in lactation) surgically fitted with catheters in the hepatic portal vein, mesenteric vein, and intercostalis posterior artery were exposed to treatments of thermal comfort environments with ad libitum or restricted (75% of ad libitum) DM intake and a thermal stress environment with ad libitum intake in two balanced 3 x 3 Latin squares. Thermal stress increased rectal temperatures and respiration rates. Dry matter intake of the thermal-stressed cows offered feed ad libitum (11.1 +/- .7 kg/d) was similar to the experimentally imposed reduction in DM intake of the thermal comfort restricted group (11.5 +/- .7 kg/d). Dry matter intake of cows in thermal comfort was 15.1 +/- .7 kg/d. Plasma somatotropin concentrations tended (P less than .08) to decrease during thermal stress but were unchanged by amount of feed intake in thermal comfort environments. Concentrations of IGF-I were not affected by treatments. Concentrations of IGF-II tended (P less than .14) to increase with thermal stress compared with thermal comfort treatments. Thyroxine concentrations tended (P less than .15) to increase in the thermal stress treatment compared with the thermal comfort restricted intake treatment. Triiodothyronine tended (P less than .11) to decrease with restriction in feed intake in the thermal comfort environment.(ABSTRACT TRUNCATED AT 250 WORDS)

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