Effect of pregnancy and stage of lactation on energy processes in isolated blood cells of dairy cows

1. Abuelo A., Hernandez J., Benedito J.L., Castello C.: A comparative study of the metabolic profile, insulin sensitivity and inflammatory response between organically and conventionally managed dairy cattle during the periparturient period. Animal 2014, 8, 1516–1525.10.1017/S1751731114001311Search in Google Scholar

2. Allen M.S., Bradford B.J., Oba M.: The hepatic oxidation theory of the control of feed intake and its application to ruminant. J Anim Sci 2009, 87, 3317–3334.10.2527/jas.2009-1779Search in Google Scholar

3. Bauman D.E., Elliot J.M.: Control of nutrient partitioning in lactating ruminant. In: Biochemistry of lactation, edited by T.B. Mephan, Elsevier Science Publisher, Amsterdam, 1983, pp. 437–468.Search in Google Scholar

4. Beck-Nielsen H., Kuhl C., Pedersen O., Bjerre Christensen C., Nielsen T.T., Klebe J.G.: Decreased insulin binding to monocytes from normal pregnant women. J Clin Endocrinol 1979, 49, 810–814.10.1210/jcem-49-6-810Search in Google Scholar

5. Bobe G., Young J.W., Beitz D.C.: Pathology, etiology, prevention, and treatment of fatty liver in dairy cows. J Dairy Sci 2004, 87, 3105–3124.10.3168/jds.S0022-0302(04)73446-3Search in Google Scholar

6. Calamari L., Soriani N., Panella G., Petrera F., Minuti A., Trevisi E.: Rumination time around calving: an early signal to detect cows at greater risk of disease. J Dairy Sci 2013, 97, 3635–3647.10.3168/jds.2013-7709Search in Google Scholar

7. Dębski B., Kuryl T., Gralak M.A., Pierzynowska J., Drywień M.: Effect of inulin and oligofructose of the diet on rats suffering thiamine deficiency. Anim Physiol Anim Nutr 2011, 95, 335–342.10.1111/j.1439-0396.2010.01059.xSearch in Google Scholar

8. Drackley J.K., Beitz D.C., Young J.W.: Regulation of in vitro palmitate oxidation in liver from dairy cows during early lactation. J Dairy Sci 1991, 74, 1884–1892.10.3168/jds.S0022-0302(91)78354-9Search in Google Scholar

9. Duffield T.F., Sandals D., Leslie K.E., Lissemore K., McBride B.W., Lumsden J.H., Dick P., Bagg R.: Efficacy of monensin for the prevention of subclinical ketosis in lactating dairy cows. J Dairy Sci 1998, 81, 2866–2873.10.3168/jds.S0022-0302(98)75846-1Search in Google Scholar

10. Hajjawi O.S.: Glucose transport in human red blood cells. Am J Biomed Life Sci 2013, 1, 44–52.10.11648/j.ajbls.20130103.12Search in Google Scholar

11. Herbein J.H., Aiello R.J., Eckler L.I., Pearson R.E., Akers R.M.: Glucagon, insulin, growth hormone, and glucose concentration in blood plasma of lactating dairy cows. J Dairy Sci 1985, 68, 320–325.10.3168/jds.S0022-0302(85)80828-6Search in Google Scholar

12. Jaakson H., Ling K., Samarutel J., Ilves A., Kaar T., Kart O.: Field trial on glucose-induced insulin and metabolite responses in Estonian Holstein and Estonian Red dairy cows in two herds. Acta Vet Scand 2010, 52, 1, 1–7.10.1186/1751-0147-52-4Search in Google Scholar

13. Kim H.D.: Cow red blood cells III. Postnatal adaptation of energy metabolism in the calf red blood cells. BBA 1979, 588, 44–54.10.1016/0304-4165(79)90369-6Search in Google Scholar

14. Knob R., Cernescu H.: Effects of negative energy balance on reproduction in dairy cows. Lucrari Stintifice Med Vet (Timisoara) 2009, 62, 198–205.Search in Google Scholar

15. Kuhla B., Nurnberg G., Albrecht D., Gors S., Hammon H.M., Metges C.C.: Involvement of skeletal muscle, glycogen, and fat metabolism in the adaptation on early lactation of dairy cows. J Proteome Res 2011, 10, 4252–4262.10.1021/pr200425hSearch in Google Scholar

16. Kuryl T., Adamowicz M., Dębski B., Bertrandt J., Martynik K.: Degradation of (9, 10)-³H-myristic acid by lymphocytes. Screening test of inherited disorders of activation, transport, and mitochondrial oxidation of fatty acids. Ateroskleroza 2001, 5, 23–27.Search in Google Scholar

17. Lee D.N., Yen H.T., Shen T.F., Chen B.J.: Chromium-induced glucose uptake, superoxide anion production and phagocytosis in cultured pulmonary alveolar macrophages of weaning pigs. Biol Trace Elem Res 2000, 77, 53–64.10.1385/BTER:77:1:53Search in Google Scholar

18. Manning N.J., Olpin S.E., Pollitt R.J., Webley J.: A comparison of (9,10-³H) palmitic and (9,10-³H)myristic acid for the detection of defects of fatty acid oxidation in intact cultured fibroblast. J Inherited Metab Dis 1990, 13, 58–68.10.1007/BF017993332109149Search in Google Scholar

19. Perdomo G., Commerford S.R., Richard A.M., Adams S.H., Corkey B.F., O’Doherty R.M., Brown N.F.: Increased β-oxidation in muscle cells enhanced insulin-stimulated glucose metabolism and protects against fatty acids-induced insulin resistance despite intramyocellular lipid accumulation. J Biol Chem 2004, 279, 27177–27186.10.1074/jbc.M40356620015105415Search in Google Scholar

20. Sano H., Nakai M., Kondo T., Terashima Y.: Insulin responsiveness to glucose and tissue responsiveness to insulin in lactating, pregnant, and nonpregnant, nonlactating beef cows. J Anim Sci 1990, 69, 1122–1127.10.2527/1991.6931122x2061244Search in Google Scholar

21. Schaff C., Borner S., Hacke S., Kautzsch U., Sauerwein H., Spachmann S.K., Schweigel-Rontgen M., Hammon H.M., Kuhla B.: Increased muscle fatty acids oxidation in dairy cows with intensive body fat mobilization during early lactation. J Dairy Sci 2013, 96, 6449–6460.10.3168/jds.2013-681223910553Search in Google Scholar

22. Seider M.J., Kim H.D.: Cow red blood cells. I. Effect of purines, pyrimidines, and nucleosides in bovine red cell glycolysis. Am J Physiol 1979, 236, 255–261.10.1152/ajpcell.1979.236.5.C255155991Search in Google Scholar

23. Studzinski T., Filar J., Czarnecki A., Madej E.: Hormonal and metabolic adaptations to parturient and early lactation periods in dairy cows. Med Weter 2003, 59, 811–816.Search in Google Scholar

24. Taylor V.J., Beever D.E., Watches D.C.: Physiological adaptations to milk production that affect fertility in high yielding dairy cows. Br Soc Anim Sci Occasional Publ 2003, vol. 29, Nottingham University Press, UK, pp. 37–71.10.1017/S0263967X00040040Search in Google Scholar

25. Terao H., Fujita M., Tsumagari A., Sugino T., Bungo T.: Insulin dynamics in transition dairy cows as revealed by intravenous tolerance testing. J Anim Vet Adv 2010, 9, 2333–2337.10.3923/javaa.2010.2333.2337Search in Google Scholar

26. Wensing T., Kruip T., Geelen M.J., Wentink G.H., van den Top A.M.: Postpartum fatty liver in high-producing dairy cows in practice and in animal studies. The connection with health, production and reproduction problems. Comp Haematol Int 1997, 7, 167–171.10.1007/BF02652596Search in Google Scholar