Effects of lasalocid on circulating concentrations of leptin and insulin-like growth factor-I and reproductive performance of postpartum Brahman cows.

Objectives were to determine effects of lasalocid on reproductive performance and serum concentrations of leptin and IGF-I, and to correlate concentrations of leptin and IGF-I with reproductive performance of beef cows. Forty-one purebred, multiparous Brahman cows were blocked to control (C; n = 20) or lasalocid (L; n = 21) treatments by BW, BCS, and predicted calving date. Treatment began 21 d before expected calving. Cows were each fed 1.4 kg daily of an 11:1 corn:soybean meal supplement, with the L group receiving 200 mg of lasalocid/cow daily. Cows and calves were weighed, and cow BCS was assessed at calving and at 28-d intervals thereafter. Blood samples were collected weekly precalving, at parturition, and twice weekly thereafter. Sterile marker bulls were maintained with cows for estrous detection. Six days after estrus, ovaries were evaluated for corpus luteum formation, and blood samples from d 6, 7, and 8 after estrus were collected. Serum samples were assayed for progesterone (P4), IGF-I, and leptin concentration. Progesterone concentrations > 1 ng/mL were considered indicative of a functional corpus luteum. Treatment ended after completion of a normal estrous cycle, and cows removed from treatment were placed with a fertile bull equipped with a chinball marker. There were no treatment differences in calving date, calf sex, cow BW, BCS, calf BW, calf ADG, or in serum concentrations of P4, IGF-I, or leptin. Prepartum cow ADG was increased (P < 0.01) in L cows and tended (P < 0.011) to be increased from calving to d 56 after calving in L cows. Postpartum interval (PPI) was not affected by treatment; however, a greater percentage (P < 0.05) of L cows conceived by 90 d after calving (43% L vs. 15% C). First-service conception rate tended (P < 0.08) to be greater in L vs. C cows (68 vs. 40%), but pregnancy rate was not different (P < 0.12; 86% for L vs. 65% for C). There were no treatment differences (P > 0.18) for serum IGF-I concentrations. At calving, leptin was positively correlated with IGF-I (P < 0.04; r = 0.32), BCS (P < 0.06; r = 0.29), and cow BW (P < 0.02; r = 0.36), and was negatively correlated with PPI (P < 0.06; r = -0.29). These results provide evidence that feeding an ionophore before calving and during the postpartum period may increase the number of cows that rebreed to maintain a yearly calving interval. Cows with higher concentrations of leptin postpartum may exhibit shorter PPI.

[1]  R. Randel,et al.  Effects of dietary rice bran, lasalocid, and sex of calf on postpartum reproduction in Brahman cows. , 2001, Journal of animal science.

[2]  P. Ferré,et al.  Molecular and cellular mechanisms of adipose secretion: Comparison of leptin and angiotensinogen , 2001, Journal of cellular biochemistry.

[3]  J. Levy,et al.  Printed in U.S.A. Copyright © 2001 by The Endocrine Society The Effects of Insulin, Glucose, and Pyruvate on the Kinetics of Leptin Secretion , 2022 .

[4]  G. L. Williams,et al.  Leptin Gene Expression, Circulating Leptin, and Luteinizing Hormone Pulsatility Are Acutely Responsive to Short-Term Fasting in Prepubertal Heifers: Relationships to Circulating Insulin and Insulin-Like Growth Factor I1 , 2000, Biology of reproduction.

[5]  D. Keisler,et al.  Plasma leptin determination in ruminants: effect of nutritional status and body fatness on plasma leptin concentration assessed by a specific RIA in sheep. , 2000, The Journal of endocrinology.

[6]  C. Murphy,et al.  Plasma GH, IGF-I, and conception rate in cattle treated with low doses of recombinant bovine GH. , 1999, Theriogenology.

[7]  G. Kolios,et al.  Effect of monensin and progesterone priming on ram-induced reproductive performance of boutsiko mountain breed ewes. , 1999, Theriogenology.

[8]  P. L. Senger Pathways to Pregnancy and Parturition , 1997 .

[9]  R. Considine,et al.  Response of leptin to short-term and prolonged overfeeding in humans. , 1996, The Journal of clinical endocrinology and metabolism.

[10]  W. Kohrt,et al.  Serum leptin levels are reduced in response to exercise training, but not hormone replacement therapy, in older women. , 1996, The Journal of clinical endocrinology and metabolism.

[11]  Hongping,et al.  Leptin is a metabolic signal to the reproductive system. , 1996, Endocrinology.

[12]  A. Mikhail,et al.  Novel B219/OB receptor isoforms: Possible role of leptin in hematopoiesis and reproduction , 1996, Nature Medicine.

[13]  J. Higgins,et al.  Effects of energy and lasalocid on productivity of first-calf heifers. , 1989, Journal of animal science.

[14]  G. L. Williams Modulation of luteal activity in postpartum beef cows through changes in dietary lipid. , 1989, Journal of animal science.

[15]  R. Randel,et al.  Effect of alfaprostol, lasalocid, and once-daily suckling on postpartum interval in Brahman and Brahman crossbred cattle. , 1988, Theriogenology.

[16]  J. R. Beverly,et al.  Effects of ionophores on cow herd production: a review. , 1988, Journal of animal science.

[17]  E. Grings,et al.  Performance, blood and ruminal characteristics of cows receiving monensin and a magnesium supplement. , 1988, Journal of animal science.

[18]  R. Randel,et al.  Influence of Cow Weight Change on Cow Reproductive Performance and Calf Peformance , 1988 .

[19]  T. Avery,et al.  Influence of lasalocid level on forage intake, digestibility, ruminal fermentation, liquid flow and performance of beef cattle grazing winter range. , 1987, Journal of animal science.

[20]  D. W. Weber,et al.  Effect of lasalocid on fall-calving beef cows. , 1986, Journal of animal science.

[21]  D. Johnson,et al.  Effect of sodium bicarbonate and sodium bentonite on digestion, solid and liquid flow, and ruminal fermentation characteristics of forage sorghum silage-based diets fed to steers. , 1986, Journal of animal science.

[22]  R. Randel,et al.  Effect of monensin on postpartum interval to first estrus and serum LH response to 0, 1, 2 or 4 mg estradiol-17β at 21 days postpartum , 1983 .

[23]  R. Randel,et al.  Effect of monensin and suckling on the GnRH induced luteinizing hormone surge and the effect of monensin on the postpartum interval in Brangus cows , 1983 .

[24]  G. Fahey,et al.  Effects of creep feeding and monensin on reproductive performance and lactation of beef heifers. , 1982, Journal of animal science.

[25]  G. Fahey,et al.  Effects of energy level and monensin on reproductive performance and lactation of beef cows. , 1982, Theriogenology.

[26]  M. E. England,et al.  Effect of Monensin on Efficiency of Production in Beef Cows , 1981 .

[27]  M. Thonney,et al.  Growth, Feed Efficiency and Metabolite Concentrations of Cattle Fed High Forage Diets with Lasalocid or Monensin Supplements1 , 1981 .

[28]  R. Muntifering,et al.  Effect of monensin on nitrogen utilization and digestibility of concentrate diets by steers. , 1980, Journal of animal science.

[29]  F. Owens,et al.  Monensin and Extruded Urea-Grain for Range Beef Cows , 1978 .

[30]  F. Owens,et al.  Monensin, Forage Intake and Lactation of Range Beef Cows1,2,3 , 1978 .