Your search keyword '"Shawn S. Donkin"' showing total 20 results

1. Circadian disruption decreases gluconeogenic flux in late-gestation, nonlactating dairy cows

Author

Linda M. Beckett, Shawn S. Donkin, and Theresa Casey

Subjects

General Earth and Planetary Sciences, General Environmental Science

Published

2023

2. Effect of protein level and methionine supplementation on dairy cows during the transition period

Author

Shawn S. Donkin, Josiane P. Santos, F.F. Cardoso, Marcos Neves Pereira, Marina de Arruda Camargo Danés, Ana Paula Peconick, Vitória R. Caproni, Rayana B. Silva, Claudia Parys, and R.A.N. Pereira

Subjects

Rumen, Low protein, medicine.medical_treatment, Soybean meal, Ice calving, 03 medical and health sciences, chemistry.chemical_compound, Methionine, Animal science, Pregnancy, Lactation, Genetics, medicine, Animals, Lactose, 030304 developmental biology, 0303 health sciences, Chemistry, Insulin, Postpartum Period, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Milk Proteins, Total dissolved solids, 040201 dairy & animal science, Diet, Milk, medicine.anatomical_structure, Dietary Supplements, Cattle, Female, Animal Science and Zoology, Food Science

Abstract

Cows experience a significant negative protein balance during the first 30 d of lactation. Given the functional effects of AA on health, especially in challenging periods such as calving, higher levels of protein and specific AA in the diet may act to improve health and feed intake. The response of dairy cows to 3 protein supplementation strategies during the transition period and through the first 45 d in milk was evaluated. The final data set had 39 Holstein cows blocked based on parity (primiparous vs. multiparous) and expected calving and randomly assigned within each block to one of 3 dietary treatments: low protein (LP), high protein (HP), or high protein plus rumen-protected methionine (HPM). Treatments were offered from d -18 ± 5 to 45 d relative to parturition. Pre- and postpartum diets were formulated for high metabolizable protein (MP) supply from soybean meal, and HP and HPM provided higher MP balance than LP. Preplanned contrasts were LP versus HP+HPM and HP versus HPM. Significance was declared at P ≤ 0.05 and trends at 0.05

Published

2021

3. Postruminal protein supply upregulates hepatic lysine oxidation and ornithine transcarbamoylase in lactating dairy cattle

Author

Shawn S. Donkin, Mark D. Hanigan, H. A. Tucker, and V. M. R. Malacco

Subjects

Ornithine, Rumen, Argininosuccinate synthase, Lysine, 03 medical and health sciences, chemistry.chemical_compound, Animal science, Lactation, Genetics, medicine, Animals, Lactose, 030304 developmental biology, 0303 health sciences, biology, Chemistry, Catabolism, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Metabolism, Milk Proteins, 040201 dairy & animal science, Diet, medicine.anatomical_structure, Liver, biology.protein, Urea, Cysteine sulfinic acid, Cattle, Female, Animal Science and Zoology, Food Science

Abstract

Metabolizable protein supply is a limiting factor for milk production in dairy cows, and the availability of AA is a function of the quantity of the metabolizable protein available and of hepatic AA catabolism. This study aimed to evaluate the effect of postruminal protein infusion on key genes for ureagenesis and AA catabolism. Six multiparous Holstein cows in early lactation were used in a replicated crossover design. Cows were fed a TMR and infused postruminally with either 0 or 600 g/d of milk protein isolate. Periods were 21 d long, consisting of 14 d of adjustment to surroundings, followed by 7 d of protein infusion. On the last day of each infusion, liver samples were collected for mRNA analysis and explant culture, milk samples were collected for mRNA analysis, and blood samples were collected for plasma metabolite analysis. Postruminal infusion of protein increased milk yield by 10.5%, milk fat yield by 12.5%, milk protein yield by 20%, milk lactose yield by 11%, and total solids yield by 15.5%. Postruminal infusion of protein increased milk urea N by 23.5%, blood urea N by 18.6%, and the abundance of hepatic ornithine transcarbamoylase mRNA by 52.8%. Postruminal infusion of protein did not alter the mRNA abundance of hepatic argininosuccinate synthase, α-aminoadipate semialdehyde synthase, cysteine sulfinic acid decarboxylase, or cystathionase. The abundance of RNA for milk proteins was unchanged with postruminal protein infusion. Metabolism of l -[U 14C] Lys to CO2 was increased by 127% (0.143 vs. 0.063 ± 0.04 nmol product·mg tissue−1·h−1), and the metabolism of l -[U 14C] Ala to CO2 increased by 40.5% (0.52 vs. 0.37 ± 0.06 nmol product·mg tissue−1·h−1) with postruminal protein infusion. The rate of l -[1-14C] Met oxidation did not differ. These data indicate increased ureagenesis matched by upregulation of nonessential AA catabolism and a disproportional increase in Lys oxidation in response to increased postruminal protein infusion.

Published

2021

4. Bovine pyruvate carboxylase gene proximal promoter activity is regulated by saturated and unsaturated fatty acids in Madin-Darby bovine kidney cells

Author

K.E. Boesche and Shawn S. Donkin

Subjects

Kidney, Cell Line, Structure-Activity Relationship, 03 medical and health sciences, Genetics, Animals, PPAR alpha, Luciferase, Binding site, Promoter Regions, Genetic, Unsaturated fatty acid, Pyruvate Carboxylase, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Messenger RNA, Chemistry, Fatty Acids, 0402 animal and dairy science, food and beverages, Fatty acid, Epithelial Cells, 04 agricultural and veterinary sciences, Peroxisome, 040201 dairy & animal science, Molecular biology, Sterol regulatory element-binding protein, Pyruvate carboxylase, Gene Expression Regulation, Fatty Acids, Unsaturated, Cattle, lipids (amino acids, peptides, and proteins), Animal Science and Zoology, Food Science

Abstract

An increase in bovine pyruvate carboxylase (PC; EC 6.4.1.1) at calving and during feed restriction corresponds with increased circulating nonesterified fatty acids as a consequence of negative energy balance. Regulation of PC mRNA and effect of specific combinations of saturated and unsaturated fatty acid profiles has yet to be explored. Our objective was to determine the effects of chain length, degree of saturation, and copresence of saturated and unsaturated fatty acids on activity of bovine PC promoter 1 (PCP1). For these experiments, Madin-Darby bovine kidney cells were transfected with a full-length bovine PCP1 construct from -1002 to +3 bp relative to the bovine PC gene transcription start site (bovine PCP1(-1002_+3)) ligated to a Firefly luciferase reporter, or with one of a series of nested 5' serial truncations (bovine PCP1(-773_+3), bovine PCP1(-494_+3), or bovine PCP1(-222_+3)). Cells were exposed for 23 h to either individual fatty acids (C16:0, C18:0, or C18:3n-3 cis) bound to BSA or to fatty acid mixtures in ratios of 90:10, 75:25, 50:50, or 25:75, corresponding to combinations of C16:0: C18:3n-3 cis or C18:0: C18:3n-3 cis. Total fatty acid concentration was 1.00 mM. Exposure to either C16:0 or C18:3n-3 cis alone elicited a significant increase in capacity to drive bovine PCP1(-1002_+3) activity compared with 1% BSA in Dulbecco's Modified Eagle's Medium control treatment (2.29, 2.89, and 1.00 ± 0.26 fold of promoter induction for C16:0, C18:3n-3 cis, and control, respectively). Treatment with C18:3n-3 cis alone caused a greater increase in promoter activity compared with C16:0 alone, indicating a lesser response to C16:0 alone for bovine PCP1(-1002_+3). Interestingly, inclusion of C18:3n-3 cis, at any level of fatty acid ratios examined, in combination with C16:0 increased promoter activity of bovine PCP1(-773_+3) or bovine PCP1(-222_+3) compared with treatment with C16:0 alone or control. Data from the bovine PCP1 truncation and fatty acid copresence experiments reveal the potential for response elements of unsaturated fatty acids or fatty acid ligands in several bovine PCP1 promoter regions. In silico analysis of bovine PCP1 identified putative peroxisome proliferator-activated receptor α and sterol regulatory element binding protein binding sites which may be implicated in fatty acid signaling to alter bovine PCP1 activity. Pyruvate carboxylase promoter 1 activity that is mediated by unsaturated fatty acids acting through elements within -1002 and -222 bp of bovine PCPI may determine PC response during periods of negative energy balance in dairy cows.

Published

2021

5. Pretreatment with saturated and unsaturated fatty acids regulates fatty acid oxidation in Madin-Darby bovine kidney cells

Author

Shawn S. Donkin and K.E. Boesche

Subjects

Gene Expression, Kidney, Madin Darby Canine Kidney Cells, 03 medical and health sciences, chemistry.chemical_compound, Dogs, Ketogenesis, Genetics, Animals, Beta oxidation, Unsaturated fatty acid, Pyruvate Carboxylase, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Fatty acid metabolism, Fatty Acids, Gluconeogenesis, 0402 animal and dairy science, food and beverages, Fatty acid, Epithelial Cells, 04 agricultural and veterinary sciences, Metabolism, Lipid Metabolism, 040201 dairy & animal science, Pyruvate carboxylase, chemistry, Biochemistry, Fatty Acids, Unsaturated, Cattle, lipids (amino acids, peptides, and proteins), Animal Science and Zoology, Oxidation-Reduction, Phosphoenolpyruvate Carboxykinase (ATP), Food Science

Abstract

Metabolic fates of fatty acids in tissue may be influenced by extracellular concentration and profile of fatty acids. Previous work has demonstrated the ability of C18:3n-3 cis to ameliorate the effects of C16:0- or C18:0-induced depression of pyruvate carboxylase (PC) mRNA expression. Pyruvate carboxylase catalyzes oxaloacetate synthesis and connects gluconeogenesis from lactate and fatty acid metabolism. Our objective was to determine the effects of co-presence of saturated and unsaturated fatty acids on cellular partitioning of [1-14C]C16:0 metabolism to CO2 or acid-soluble products (ASP) in Madin-Darby bovine kidney cells and the role of PC in this relationship. We hypothesized that the ratio of saturated to unsaturated fatty acid pretreatments regulates [1-14C]C16:0 partitioning to CO2 or ASP. Cells were exposed for 21 h to either individual fatty acids, C16:0, C18:0, C18:1n-9 cis, or C18:3n-3 cis, or to fatty acid combinations in 10:90, 25:75, 50:50, 75:25, or 90:10 ratios for 3 combinations: C16:0/C18:3n-3 cis, C18:0/C18:3n-3 cis, or C18:1n-9 cis/C18:3n-3 cis. Total fatty acid concentration was 1.0 mM during the 21-h pretreatment phase. Following the 21-h incubation phase with fatty acid combinations, cells were incubated in the presence of 1.0 mM [1-14C]C16:0 for 3 h to determine the rate of metabolism to CO2 and ASP collection (per µg DNA-1·h-1). Pretreatment with either C16:0 or C18:0 alone significantly depressed subsequent oxidation of [1-14C]C16:0 to ASP by 62.7 and 41.2%, respectively, compared with C18:3n-3 cis pretreatment. Similar patterns were observed for [1-14C]C16:0 oxidation to CO2. Expression of PC mRNA was significantly decreased with exposure to either C16:0 or C18:0 compared with expression after exposure to either C18:3n-3 cis or control 1% BSA in Dulbecco's modified Eagle's medium. Expression of cytosolic phosphoenolpyruvate carboxykinase (PCK1) mRNA followed a similar pattern. Fatty acid treatments containing C18:1n-9 cis did not alter PC or PCK1 expression from control or C18:3n-3 cis results. Pearson coefficient correlations were determined for PC mRNA expression and rate of [1-14C]C16:0 metabolism to CO2 or ASP, including ketones, and for PCK1 mRNA expression and rate of [1-14C]C16:0 metabolism to CO2 or ASP. Production of CO2 from [1-14C]C16:0 was positively correlated (r = 0.63) with PC expression, whereas ASP production from [1-14C]C16:0 only tended to positively correlate (r = 0.51) with PC mRNA expression. Production of CO2 or ASP from [1-14C]C16:0 were both positively correlated (r = 0.80 and r = 0.69, respectively) with PCK1 expression. Results show a regulation of ketone production by Madin-Darby bovine kidney cells in response to saturated and unsaturated fatty acid pretreatments.

Published

2020

6. Hepatic expression of aminoadipate semialdehyde synthase is unchanged by postruminal lysine supply in lactating dairy cows

Author

Shawn S. Donkin, Jeffery Escobar, Perry H. Doane, Mark D. Hanigan, and H.A. Tucker

Subjects

0301 basic medicine, medicine.medical_specialty, Rumen, Argininosuccinate synthase, Lysine, 03 medical and health sciences, chemistry.chemical_compound, Internal medicine, Genetics, medicine, Animals, Lactation, chemistry.chemical_classification, biology, Catabolism, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Metabolism, Ornithine, Milk Proteins, 040201 dairy & animal science, Diet, Amino acid, Glycogen Synthase, Milk, 030104 developmental biology, Endocrinology, Enzyme, chemistry, Biochemistry, biology.protein, Urea, Cattle, Female, Animal Science and Zoology, Food Science

Abstract

Lysine supply is potentially limiting for milk production in dairy cows. The availability of Lys to the mammary gland and other tissues is a function of the quantity of metabolizable Lys supplied and Lys catabolism by the liver. Likewise, Lys catabolism may be influenced by Lys supply. This study evaluated the effect of increased postruminal Lys supply on the expression of aminoadipate semialdehyde synthase (AASS, a committing step in Lys catabolism in the liver) and ornithine transcarbamoylase and argininosuccinate synthase (key urea cycle enzymes that are responsive to protein supply). Eight multiparous peak Holstein cows were used in a replicated 4 × 4 Latin square. Cows were fed a Lys-limiting ration and infused postruminally with 0, 9, 27, or 63 g/d of Lys. The study consisted of 10 d of pretreatment followed by 10 d of Lys infusion. On the last day of each period, liver and milk samples were collected for mRNA analysis, and blood samples were collected for analysis of amino acids and Lys metabolites. Milk protein percent increased by 5.9%, plasma Lys increased by 74%, and α-aminoadipic acid increased by 51% with postruminal infusion of 63 g/d Lys compared with 0 g/d. Expression of AASS, ornithine transcarbamoylase, and argininosuccinate synthase mRNA in liver did not differ with postruminal infusion of Lys. Milk fat globule mRNA for major milk proteins and AASS were not affected by Lys infusion. Postruminal infusion of Lys resulted in an 86% greater increase in AASS mRNA in the liver compared with mammary mRNA. These changes suggest that hepatic Lys metabolism is not responsive to Lys supply at the transcription level, and that the availability of Lys to extrahepatic tissue may be determined by hepatic Lys metabolism.

Published

2017

7. Propionate induces the bovine cytosolic phosphoenolpyruvate carboxykinase promoter activity

Author

Shawn S. Donkin, S.L. Koser, and Qian Zhang

Subjects

0301 basic medicine, Transcription, Genetic, Biology, Phosphoenolpyruvate, 03 medical and health sciences, PCK1, Genetics, Animals, Luciferase, Promoter Regions, Genetic, Transcription factor, chemistry.chemical_classification, Base Sequence, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Metabolism, 040201 dairy & animal science, Molecular biology, Citric acid cycle, 030104 developmental biology, chemistry, Gluconeogenesis, Propionate, Cattle, Phosphoenolpyruvate Carboxykinase (GTP), Animal Science and Zoology, Propionates, Phosphoenolpyruvate carboxykinase, Food Science

Abstract

Cytosolic phosphoenolpyruvate carboxykinase (PCK1) is a critical enzyme within the metabolic networks for gluconeogenesis, hepatic energy metabolism, and tricarboxylic acid cycle function, and is controlled by several transcription factors including hepatic nuclear factor 4α (HNF4α). The primary objective of the present study was to determine whether propionate regulates bovine PCK1 transcription. The second objective was to determine the action of cyclic AMP (cAMP), glucocorticoids, and insulin, hormonal cues known to modulate glucose metabolism, on bovine PCK1 transcriptional activity. The proximal promoter of the bovine PCK1 gene was ligated to a Firefly luciferase reporter and transfected into H4IIE hepatoma cells. Cells were exposed to treatments for 23 h and luciferase activity was determined in cell lysates. Activity of the PCK1 promoter was linearly induced by propionate, and maximally increased 7-fold with 2.5 mM propionate, which was not muted by 100 nM insulin. Activity of the PCK1 promoter was increased 1-fold by either 1.0 mM cAMP or 5.0µM dexamethasone, and 2.2-fold by their combination. Induction by cAMP and dexamethasone was repressed 50% by 100 nM insulin. Propionate, cAMP, and dexamethasone acted synergistically to induce the PCK1 promoter activity. Propionate-responsive regions, identified by 5' deletion analysis, were located between -1,238 and -409 bp and between -85 and +221 bp. Deletions of the core sequences of the 2 putative HNF4α sites decreased the responsiveness to propionate by approximately 40%. These data indicate that propionate regulates its own metabolism through transcriptional stimulation of the bovine PCK1 gene. This induction is mediated, in part, by the 2 putative HNF4α binding sites in the bovine PCK1 promoter.

Published

2016

8. Short communication: Regulation of hepatic gluconeogenic enzymes by dietary glycerol in transition dairy cows

Author

A.C. Slabaugh, L.M. Pezzanite, S.L. Koser, E.R. Carvalho, Shawn S. Donkin, Heather M. White, N.S. Schmelz-Roberts, and Perry H. Doane

Subjects

Glycerol, 0301 basic medicine, medicine.medical_specialty, Rumen, Cottonseed Oil, Zea mays, 03 medical and health sciences, chemistry.chemical_compound, Internal medicine, Gene expression, Genetics, medicine, Animals, Micronutrients, RNA, Messenger, Pyruvate Carboxylase, chemistry.chemical_classification, biology, Gluconeogenesis, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Animal Feed, 040201 dairy & animal science, Diet, 030104 developmental biology, Endocrinology, Gene Expression Regulation, Liver, Biochemistry, chemistry, Glucose-6-Phosphatase, biology.protein, Propionate, Cattle, Female, Animal Science and Zoology, Phosphoenolpyruvate carboxykinase, Energy source, Phosphoenolpyruvate Carboxykinase (ATP), Glucose 6-phosphatase, Medicago sativa, Food Science

Abstract

Nutritional status and glucose precursors are known regulators of gluconeogenic gene expression. Glycerol can replace corn in diets fed to dairy cows and use of glycerol is linked to increased rumen propionate production. The effect of dietary glycerol on the regulation of gluconeogenic enzymes is unknown. The objective of this study was to examine the effect of glycerol on expression of pyruvate carboxylase (PC), cytosolic and mitochondrial phosphoenolpyruvate carboxykinase (PEPCK-C and PEPCK-M), and glucose-6-phosphatase. Twenty-six multiparous Holstein cows were fed either a control diet or a diet where high-moisture corn was replaced by glycerol from -28 through +56 d relative to calving (DRTC). Liver tissue was collected via percutaneous liver biopsy at -28, -14, +1, +14, +28, and +56 DRTC for RNA analysis. Expression of PC mRNA increased 6-fold at +1 and 4-fold at +14 DRTC relative to precalving levels. Dietary glycerol did not alter expression of PC mRNA expression. Expression of PEPCK-C increased 2.5-fold at +14 and 3-fold at +28 DRTC compared with +1 DRTC. Overall, dietary glycerol increased PEPCK-C expression compared with that of cows fed control diets. The ratio of PC to PEPCK-C was increased 6.3-fold at +1 DRTC compared with precalving and tended to be decreased in cows fed glycerol. We detected no effect of diet or DRTC on PEPCK-M or glucose-6-phosphatase mRNA, and there were no interactions of dietary treatment and DRTC for any transcript measured. Substituting corn with glycerol increased the expression of PEPCK-C mRNA during transition to lactation and suggests that dietary energy source alters hepatic expression. The observed increase in PEPCK-C expression with glycerol feeding may indicate regulation of hepatic gene expression by changes in rumen propionate production.

Published

2016

9. Effect of propionate on mRNA expression of key genes for gluconeogenesis in liver of dairy cattle

Author

Shawn S. Donkin, Brian J. Bequette, Qian Zhang, and S.L. Koser

Subjects

medicine.medical_specialty, medicine.medical_treatment, Gene Expression, Biology, Glucagon, PCK1, Internal medicine, Genetics, medicine, Animals, Lactation, RNA, Messenger, Dairy cattle, Pyruvate Carboxylase, chemistry.chemical_classification, Insulin, Gluconeogenesis, Intracellular Signaling Peptides and Proteins, Metabolism, Glucose, Milk, Endocrinology, Liver, chemistry, Glucose-6-Phosphatase, Propionate, Cattle, Female, Phosphoenolpyruvate Carboxykinase (GTP), Animal Science and Zoology, Propionates, Phosphoenolpyruvate carboxykinase, Phosphoenolpyruvate Carboxykinase (ATP), Food Science

Abstract

Elevated needs for glucose in lactating dairy cows are met through a combination of increased capacity for gluconeogenesis and increased supply of gluconeogenic precursors, primarily propionate. This study evaluated the effects of propionate on mRNA expression of cytosolic phosphoenolpyruvate carboxykinase (PCK1), mitochondrial phosphoenolpyruvate carboxykinase (PCK2), pyruvate carboxylase (PC), and glucose-6-phosphatase (G6PC), key gluconeogenic enzymes, and capacity for glucose synthesis in liver of dairy cattle. In experiment 1, six multiparous mid-lactation Holstein cows were used in a replicated 3×3 Latin square design consisting of a 6-d acclimation or washout phase followed by 8h of postruminal infusion of either propionate (1.68mol), glucose (0.84mol), or an equal volume (10mL/min) of water. In experiment 2, twelve male Holstein calves [39±4 kg initial body weight (BW)] were blocked by birth date and assigned to receive, at 7d of age, either propionate [2mmol·h(-1)·(BW(0.75))(-1)], acetate [3.5mmol·h(-1)·(BW(.75))(-1)], or an equal volume (4mL/min) of saline. In both experiments, blood samples were collected at 0, 2, 4, 6, and 8h relative to the start of infusion and liver biopsy samples were collected at the end of the infusion for mRNA analysis. Liver explants from experiment 1 were used to measure tricarboxylic acid cycle flux and gluconeogenesis using (13)C mass isotopomer distribution analysis from (13)C3 propionate. Dry matter intake and milk yield were not altered by infusions in cows. Serum insulin concentration in cows receiving propionate was elevated than cows receiving water, but was not different from cows receiving glucose. Hepatic expression of PCK1 and G6PC mRNA and glucose production in cows receiving propionate were not different from cows receiving water, but tended to be higher compared with cows receiving glucose. Hepatic expression of PCK2 and PC mRNA was not altered by propionate infusion in cows. Blood glucose, insulin, and glucagon in calves receiving propionate were not different than controls. Calves receiving propionate had increased PCK1 mRNA, tended to have increased G6PC mRNA, and had similar PC mRNA compared with saline controls. These data indicate a tendency for in vivo effects of propionate to alter hepatic gene expression in mid-lactation cows and neonatal calves, which are consistent with a feed-forward effect of propionate to regulate its own metabolism toward gluconeogenesis through changes in hepatic PCK1 mRNA.

Published

2015

10. The effects of supplementation with a blend of cinnamaldehyde and eugenol on feed intake and milk production of dairy cows

Author

Perry H. Doane, David Bravo, Shawn S. Donkin, and Emma H. Wall

Subjects

Feed additive, Feed conversion ratio, Cinnamaldehyde, chemistry.chemical_compound, Eugenol, Genetics, Animals, Lactation, Dry matter, Food science, Acrolein, Dose-Response Relationship, Drug, food and beverages, Milk production, Animal Feed, Diet, Milk, chemistry, Dietary Supplements, Cattle, Female, Animal Science and Zoology, Composition (visual arts), Somatic cell count, Food Science

Abstract

Plant extracts (PE) are naturally occurring chemicals in plants, and many of these molecules have been reported to influence production efficiency of dairy and beef animals. Two experiments were conducted to determine the effect of a PE additive (CE; an encapsulated blend of cinnamaldehyde and eugenol) on the milk production performance of lactating dairy cows across a range of doses. In experiment 1, 32 Holstein multiand primiparous dairy cows in mid-lactation were assigned to no additive or supplementation with CE (350 mg/d; n = 16 cows/treatment) for 6 wk. In experiment 2, 48 Holstein multi- and primiparous dairy cows were assigned to no additive or supplementation with CE (200, 400, or 600 mg/d; n = 12 animals/treatment) for 8 wk. A 1-wk covariate period was included in both experiments. In both experiments, individual dry matter intake (DMI), milk production, milk composition, and somatic cell count were recorded daily. In experiment 1, CE was associated with an increase in DMI in both parity groups but an increase in milk production of multiparous cows only. In experiment 2, milk yield of multiparous cows was decreased at the 2 highest doses, whereas milk yield of primiparous cows was increased at the low and high doses of CE. These responses were accompanied by similar changes in DMI; therefore, CE did not affect feed efficiency. We observed no effect of CE on SCC or milk composition; however, treatment by parity interactions were detected for each of these variables that have not been described previously. Based on the results of these experiments, we conclude that a blend of cinnamaldehyde and eugenol can increase DMI and milk production in lactating dairy cows. In addition, environmental factors appear to influence the response to CE, including dose and parity, and these should be explored further.

Published

2014

11. Immune and production responses of dairy cows to postruminal supplementation with phytonutrients

Author

Scot E. Dowd, David Bravo, T.W. Cassidy, Joonpyo Oh, Joy L. Pate, Koji Toyokawa, Ryan J. Elias, Shawn S. Donkin, K.S. Heyler, Edyta Brzezicka, Sadhat S. Walusimbi, Chanhee Lee, Alexander N. Hristov, Gabriella A. Varga, and Jacob Werner

Subjects

Curcumin, Rumen, Biology, Feed conversion ratio, Abomasum, Excretion, Feces, Animal science, Latin square, Blood plasma, Genetics, Animals, Lactation, Dry matter, Garlic, food and beverages, Animal Feed, Diet, Milk, Biochemistry, Blood chemistry, Dietary Supplements, Fermentation, Animal Nutritional Physiological Phenomena, Cattle, Female, Animal Science and Zoology, Capsicum, Food Science

Abstract

This study investigated the effect of phytonutrients (PN) supplied postruminally on nutrient utilization, gut microbial ecology, immune response, and productivity of lactating dairy cows. Eight ruminally cannulated Holstein cows were used in a replicated 4×4 Latin square. Experimental periods lasted 23d, including 14-d washout and 9-d treatment periods. Treatments were control (no PN) and daily doses of 2g/cow of either curcuma oleoresin (curcumin), garlic extract (garlic), or capsicum oleoresin (capsicum). Phytonutrients were pulse-dosed into the abomasum of the cows, through the rumen cannula, 2h after feeding during the last 9d of each experimental period. Dry matter intake was not affected by PN, although it tended to be lower for the garlic treatment compared with the control. Milk yield was decreased (2.2kg/d) by capsicum treatment compared with the control. Feed efficiency, milk composition, milk fat and protein yields, milk N efficiency, and 4.0% fat-corrected milk yield were not affected by treatment. Rumen fermentation variables, apparent total-tract digestibility of nutrients, N excretion with feces and urine, and diversity of fecal bacteria were also not affected by treatment. Phytonutrients had no effect on blood chemistry, but the relative proportion of lymphocytes was increased by the capsicum treatment compared with the control. All PN increased the proportion of total CD4 + cells and total CD4 + cells that co-expressed the activation status signal and CD25 in blood. The percentage of peripheral blood mononuclear cells (PBMC) that proliferated in response to concanavalin A and viability of PBMC were not affected by treatment. Cytokine production by PBMC was not different between control and PN. Expression of mRNA in liver for key enzymes in gluconeogenesis, fatty acid oxidation, and response to reactive oxygen species were not affected by treatment. No difference was observed due to treatment in the oxygen radical absorbance capacity of blood plasma but, compared with the control, garlic treatment increased 8-isoprostane levels. Overall, the PN used in this study had subtle or no effects on blood cells and blood chemistry, nutrient digestibility, and fecal bacterial diversity, but appeared to have an immune-stimulatory effect by activating and inducing the expansion of CD4 cells in dairy cows. Capsicum treatment decreased milk yield, but this and other effects observed in this study should be interpreted with caution because of the short duration of treatment.

Published

2013

12. Feeding behaviors of transition dairy cows fed glycerol as a replacement for corn

Author

C.S. Wilcox, Heather M. White, Susan D. Eicher, Shawn S. Donkin, E.R. Carvalho, and N.S. Schmelz-Roberts

Subjects

Glycerol, Feed consumption, Ice calving, Feeding Behavior, Total mixed ration, Biology, Animal Feed, Feed conversion ratio, Diet, Eating, chemistry.chemical_compound, Feeding behavior, chemistry, Genetics, Animals, Cattle, Female, Animal Science and Zoology, Dry matter, Food science, Once daily, Food Science

Abstract

Feed sorting is a natural behavior of dairy cows that can result in inconsistencies in the nutritive value of a total mixed ration (TMR). The objective of this study was to determine the effects of replacing high-moisture corn with glycerol on feed sorting and the feed intake pattern of transition dairy cows. Multiparous Holstein cows (n=26) were paired by expected calving date, housed in individual tie stalls, and fed diets containing either glycerol or high-moisture corn once daily from d -28 to +56 relative to calving. Glycerol was included at 11.5 and 10.8% of the ration dry matter for the pre- and postpartum diets, respectively. The feed consumption pattern was determined by measuring TMR disappearance during the intervals from 0 to 4 h, 4 to 8 h, 8 to 12 h, and 12 to 24 h relative to feed delivery. Feed sorting was determined on d -16, -9, 9, 16, and 51 relative to calving at 4, 8, 12 and 24 h after feeding. The TMR particle size profile was determined at feed delivery and at 4, 8, 12, and 24 after feed delivery by using the Penn State Particle Separator (Nasco, Fort Atkinson, WI) to yield long (19 mm), medium (19 mm,8 mm), short (8 mm,1.18 mm), and fine (1.18 mm) particles. Overall feed intake did not differ between diets and was 14.7±0.4 and 20.2±0.5 kg/d for the pre- and postpartum intervals, respectively. During the prepartum period, glycerol decreased the amount of feed consumed during the first 4h after feed delivery (7.22 vs. 5.59±0.35 kg; control vs. glycerol, respectively) but increased feed consumed from 12 through 24 h after feed delivery (2.22 vs. 3.82±0.35 kg; control vs. glycerol, respectively). Similar effects on the feed consumption pattern were observed after calving. During the prepartum period, cows fed the control diet sorted against long particles, whereas cows fed glycerol did not sort against long particles (77.2 vs. 101.5±3.50% of expected intake for control vs. glycerol; significant treatment effect). The data indicate that addition of glycerol to the TMR alters the feed consumption pattern to increase feed consumption late in the day at the expense of feed consumed immediately after feeding, and it reduces sorting behavior against long particles. Together, these may reduce diurnal variations in the rumen environment to promote greater rumen health in transition cows.

Published

2012

13. Gluconeogenic enzymes are differentially regulated by fatty acid cocktails in Madin-Darby bovine kidney cells

Author

S.L. Koser, Heather M. White, and Shawn S. Donkin

Subjects

Untranslated region, medicine.medical_specialty, Biology, Kidney, Real-Time Polymerase Chain Reaction, NEFA, Internal medicine, Genetics, medicine, Animals, Cells, Cultured, Pyruvate Carboxylase, chemistry.chemical_classification, Messenger RNA, Fatty Acids, Fatty liver, Fatty acid, medicine.disease, Molecular biology, Pyruvate carboxylase, Endocrinology, Gene Expression Regulation, chemistry, Gluconeogenesis, Glucose-6-Phosphatase, Cattle, Animal Science and Zoology, Phosphoenolpyruvate carboxykinase, Phosphoenolpyruvate Carboxykinase (ATP), Food Science

Abstract

Expression of mRNA for pyruvate carboxylase (PC) is elevated at calving and during other physiological states when plasma NEFA concentrations are increased. The objective of this study was to determine the direct effects of fatty acids on expression of PC, cytosolic phosphoenolpyruvate carboxykinase (PEPCK-C), mitochondrial PEPCK (PEPCK-M), and glucose-6-phosphatase (G6Pase) mRNA in Madin-Darby bovine kidney (MDBK) cells. Combinations of C14:0, C16:0, C18:0, C18:1n-6 cis , C18:2n-6 cis , and C18:3n-3 cis were created to mimic the profiles and concentrations in serum from far-off dry cows and late postcalving intervals (PRPT), the profile at calving (CALV), and the profile observed in cows induced to express fatty liver at calving (IFL). The MDBK cells were exposed to fatty acid mixtures for 24h at the following concentrations: 0.25 and 0.5m M for PRPT; 0.25, 0.5, and 1.0m M for CALV; and 0.5 and 1.0m M for IFL. Cells exposed to PRPT had greater PEPCK-C and tended to have greater G6Pase mRNA than control cells. Exposure of cells to 0.25m M PRPT increased expression of PEPCK-C compared with cells exposed to 0.5m M PRPT. Expression of PC and PEPCK-M did not differ with exposure to PRPT. Expression of PEPCK-C was decreased and that of PEPCK-M and G6Pase mRNA increased linearly in response to CALV. The ratio of PC:PEPCK-C mRNA was increased by the IFL mixture and in response to increasing amounts of the CALV fatty acid mixture. Treatment of cells with CALV or IFL increased the sum of PC 5′ untranslated region (UTR) variants A, B, C, and F but did not alter PC 5′ UTR D and E expression. The changes in PEPCK-C, G6Pase, and PC mRNA and the ratio of PC:PEPCK-C observed in MDBK cells in response to fatty acids suggests a role for fatty acid concentration and profile in mediating the expression of key gluconeogenic enzymes.

Published

2012

14. Feeding value of glycerol as a replacement for corn grain in rations fed to lactating dairy cows

Author

Shawn S. Donkin, Heather M. White, S.L. Koser, Perry H. Doane, and Michael J. Cecava

Subjects

Dietary Fiber, Glycerol, Corn ethanol, Nitrogen, Silage, Biology, Weight Gain, Zea mays, Eating, chemistry.chemical_compound, Lactation, Genetics, medicine, Animals, Dry matter, Food science, Dairy cattle, food and beverages, Diet, Milk, medicine.anatomical_structure, chemistry, Purines, Creatinine, Cattle, Digestion, Female, Animal Science and Zoology, medicine.symptom, Weight gain, Food Science

Abstract

Growth of the corn ethanol industry has created a need for alternatives to corn for lactating dairy cows. Concurrent expansion in soydiesel production is expected to increase availability and promote favorable pricing for glycerol, a primary co-product material. The objective of this study was to determine the feeding value of glycerol as a replacement for corn in diets fed to lactating dairy cattle. Sixty lactating Holstein cows housed in individual tie stalls were fed a base diet consisting of corn silage, legume forages, corn grain, soyhulls, roasted soybeans, and protein supplements. After a 2-wk acclimation period, cows were fed diets containing 0, 5, 10, or 15% refined glycerol for 56 d. Cows were milked twice daily and weekly milk samples were collected. Milk production was 36.3, 37.2, 37.9, and 36.2 +/- 1.6 kg/d and feed intake was 23.8, 24.6, 24.8, and 24.0 +/- 0.7 kg/d for 0, 5, 10, and 15% glycerol treatments, respectively, and did not differ except for a modest reduction in feed intake during the first 7 d of the trial for 15% glycerol (treatment x time effect). Milk composition was not altered by glycerol feeding except that milk urea nitrogen was decreased from 12.5 +/- 0.4 to 10.2 +/- 0.4 mg/dL with glycerol addition. Cows fed diets containing 10 and 15% glycerol gained more weight than those fed rations containing 0 or 5% glycerol but body condition scores did not differ with glycerol feeding. The data indicate that glycerol is a suitable replacement for corn grain in diets for lactating dairy cattle and that it may be included in rations to a level of at least 15% of dry matter without adverse effects on milk production or milk composition.

Published

2009

15. Short Communication: Effect of Temporary Glycosuria on Molasses Consumption in Holstein Calves

Author

Shawn S. Donkin, C.S. Wilcox, Susan D. Eicher, Michael M Schutz, and Donald C. Lay

Subjects

Male, Glycosuria, Veterinary medicine, Time Factors, Phlorizin, Urinary system, Cattle Diseases, Dairy industry, Sodium Chloride, Eating, chemistry.chemical_compound, Animal science, Genetics, medicine, Animals, Molasses, Urinary output, Chemistry, digestive, oral, and skin physiology, Phlorhizin, Cattle, Animal Science and Zoology, medicine.symptom, After treatment, Food Science

Abstract

This study was conducted to determine the effect of experimentally increased glucose demand on voluntary consumption of molasses by dairy calves. Three-week-old calves received 0.365 g of phlorizin by s.c. injection. Urinary output and molasses consumption were measured hourly, and urinary glucose concentration was screened. Molasses consumption for the 24 h after treatment was (mean +/- SE) 72.0 g (+/-7) for the control group and 142 g (+/-1) for the phlorizin-treated group. Urinary output for the 8-h test period was 1.13 kg for the control group and 1.67 kg for the phlorizin-treated calves. Mean urinary glucose peaked at 10 g/L by 4 h after treatment for calves given phlorizin, whereas the concentration for the control group remained close to 0 g/L. Phlorizin treatment increased voluntary consumption of molasses in 3-wk-old Holstein calves.

Published

2008

16. Cloning the Genomic Sequence and Identification of Promoter Regions of Bovine Pyruvate Carboxylase

Author

D.M. Spurlock, S. R. Hazelton, Shawn S. Donkin, and Christopher A. Bidwell

Subjects

Untranslated region, Molecular Sequence Data, Biology, Transfection, Polymerase Chain Reaction, Exon, Genes, Reporter, Cell Line, Tumor, Genetics, Animals, Coding region, Fluorometry, Luciferase, Cloning, Molecular, Luciferases, Promoter Regions, Genetic, Gene, Pyruvate Carboxylase, Bacterial artificial chromosome, Base Sequence, Intron, Promoter, DNA, Molecular biology, Rats, Cattle, Animal Science and Zoology, 5' Untranslated Regions, Food Science

Abstract

Pyruvate carboxylase (PC) catalyzes a pivotal reaction in gluconeogenesis and lipid metabolism in liver. In bovine the PC gene is expressed as six 5' untranslated region (UTR) mRNA variants. The objectives for this study were to clone and sequence the bovine PC gene, determine the intron and exon organization and identify PC promoter region(s). Oligonucleotide sequences that corresponded to the 5' UTR mRNA variants and coding sequence of bovine PC were used to isolate 2 clones from the RPCI-42 bovine bacterial artificial chromosome (BAC) library. Sequencing data confirmed the presence of regions for the 5' UTR for bovine PC mRNA. The exon arrangement from 5' to 3' is 48 (exon I), 41 (exon II), 178 (exon IIIA and IIIB), and 185 (exon IV) bp. Three promoter regions, P3, P2, and P1, adjacent to exon I, II, and IIIA, respectively, were identified based on computer analysis of sequence data. Putative promoters were cloned into a firefly luciferase vector and transiently transfected into H4IIE rat hepatoma cells. All PC promoters demonstrated luciferase activity comparable with the minimal promoter luciferase vector and higher than the promoterless luciferase vector. In addition, PC promoter 1 exhibited greater luciferase activity compared with PC promoter 2 or 3. These data provide information about the arrangement of the 4 bovine PC 5' UTR exons, the identity of the promoter regions for the bovine PC gene, and indicate differences in relative basal activity of the promoter regions.

Published

2008

17. Prepartum Milking of Heifers Influences Future Production and Health

Author

Michael M Schutz, Shawn S. Donkin, Edmond A. Pajor, K.J. Daniels, and Susan D. Eicher

Subjects

Time Factors, animal structures, animal diseases, Cattle Diseases, Ice calving, Biology, Body weight, Milking, Fats, Eating, Mammary Glands, Animal, fluids and secretions, Animal science, Pregnancy, Lactation, Genetics, medicine, Animals, Dry matter, Udder, Beneficial effects, Bacteria, Haptoglobins, Reproduction, Body Weight, Postpartum Period, food and beverages, Bacterial Infections, Milk Proteins, medicine.disease, Mastitis, Dairying, Milk, medicine.anatomical_structure, Cattle, Female, Animal Science and Zoology, Food Science

Abstract

Transition heifers face multiple stressors during the periparturient period, including first exposure to milking, that may adversely impact dry matter intake (DMI), reduce milk production, compromise immune function, and increase susceptibility to disease. It was hypothesized that reducing the combined stressors experienced at calving would improve the periparturient performance, health, and well-being of heifers. The objective of this study was to determine the effect of initiating the milking procedure 3 wk before expected calving on production, DMI, body weight, energy balance, udder health, calving traits, and health status, as indicated by plasma acute phase protein concentrations. Twenty-two primigravid heifers, blocked by expected calving date, were assigned randomly either to a prepartum milking (PM) group or control group. The PM heifers were milked twice daily beginning at 21 d before expected calving, and control heifers were not milked until after calving. All heifers had access to the same precalving and post-calving diets. Results indicated that PM heifers produced more milk during the first 2 wk after calving and had greater DMI as a percentage of body weight during the first month after calving than did control heifers, although energy balance was more negative for PM heifers. The PM heifers had reduced somatic cell counts through the first month after calving and lower average somatic cell scores during lactation despite having more quarters with mastitis infection at calving. The PM heifers had less udder edema at the third milking postcalving, and had reduced concentrations of haptoglobin in blood sooner than did control heifers. These results indicate that prepartum milking is an alternative management practice that has beneficial effects on the production, health, and well-being of first-lactation cows.

Published

2007

18. Major Advances in Fundamental Dairy Cattle Nutrition

Author

Shawn S. Donkin, Christopher K. Reynolds, and James K. Drackley

Subjects

Adipose tissue, Biology, Proteomics, Absorption, Mammary Glands, Animal, Metabolomics, Pregnancy, Genetics, Animals, Lactation, Splanchnic Circulation, Dairy cattle, business.industry, Nutritional Requirements, Assimilation (biology), Metabolism, Biotechnology, Dairying, Viscera, Adipose Tissue, Liver, Animal Nutritional Physiological Phenomena, Cattle, Female, Animal Science and Zoology, Energy Metabolism, business, Functional genomics, Food Science

Abstract

Fundamental nutrition seeks to describe the complex biochemical reactions involved in assimilation and processing of nutrients by various tissues and organs, and to quantify nutrient movement (flux) through those processes. Over the last 25 yr, considerable progress has been made in increasing our understanding of metabolism in dairy cattle. Major advances have been made at all levels of biological organization, including the whole animal, organ systems, tissues, cells, and molecules. At the whole-animal level, progress has been made in delineating metabolism during late pregnancy and the transition to lactation, as well as in whole-body use of energy-yielding substrates and amino acids for growth in young calves. An explosion of research using multicatheterization techniques has led to better quantitative descriptions of nutrient use by tissues of the portal-drained viscera (digestive tract, pancreas, and associated adipose tissues) and liver. Isolated tissue preparations have provided important information on the interrelationships among glucose, fatty acid, and amino acid metabolism in liver, adipose tissue, and mammary gland, as well as the regulation of these pathways during different physiological states. Finally, the last 25 yr has witnessed the birth of "molecular biology" approaches to understanding fundamental nutrition. Although measurements of mRNA abundance for proteins of interest already have provided new insights into regulation of metabolism, the next 25 yr will likely see remarkable advances as these techniques continue to be applied to problems of dairy cattle biology. Integration of the "omics" technologies (functional genomics, proteomics, and metabolomics) with measurements of tissue metabolism obtained by other methods is a particularly exciting prospect for the future. The result should be improved animal health and well being, more efficient dairy production, and better models to predict nutritional requirements and provide rations to meet those requirements.

Published

2006

19. Bovine Somatotropin Increases Hepatic Phosphoenolpyruvate Carboxykinase mRNA in Lactating Dairy Cows

Author

Shawn S. Donkin and J.C. Velez

Subjects

Blood Glucose, medicine.medical_specialty, Argininosuccinate synthase, Ornithine transcarbamylase, Gene Expression, Fatty Acids, Nonesterified, Biology, Internal medicine, Genetics, medicine, Animals, Lactation, Bovine somatotropin, RNA, Messenger, Northern blot, Insulin-Like Growth Factor I, Cell Nucleus, Gluconeogenesis, Blotting, Northern, Glucagon, Pyruvate carboxylase, Endocrinology, Liver, Growth Hormone, Urea cycle, biology.protein, Cattle, Female, Phosphoenolpyruvate Carboxykinase (GTP), Animal Science and Zoology, Phosphoenolpyruvate carboxykinase, Food Science

Abstract

Somatotropin (ST) increases milk production and through coordinated changes in hepatic glucose synthesis and amino acid metabolism in dairy cows. The objective of this study was to determine the effects of ST on hepatic mRNA expression for phosphoenolpyruvate carboxykinase (PEPCK) and pyruvate carboxylase (PC), enzymes that are critical to the synthesis of glucose in liver and hepatic mRNA expression for carbamylphosphate synthetase I (CPS-I), argininosuccinate synthetase (AS), and ornithine transcarbamylase (OTC), critical enzymes of the urea cycle. Eighteen cows were randomly allocated to 2 treatment groups and received either recombinant bovine ST (Posilac; Monsanto, St. Louis, MO) or saline injections at 14-d intervals during a 42-d period. Expression of mRNA was determined using Northern blot analysis. Nuclei, isolated from liver biopsy samples, were used to determine effects of ST on transcription rate of PEPCK. Milk production was increased with ST (37.3 vs. 35.1±0.6 kg/d). Plasma NEFA was increased with ST (299 vs. 156±34 μM ). There were no differences in the expression of CPS-I, AS, and OTC mRNA with ST. Expression of PEPCK and IGF-I mRNA were increased with ST but PC mRNA was unchanged. The data indicate increased PEPCK mRNA in cows given ST and indicates a greater capacity for gluconeogenesis from gluconeogenic precursors that form oxaloacetate. The effects of ST to elevate PEPCK mRNA expression require chronic administration and involve increased transcription of the PEPCK gene.

Published

2004

20. Effects of Energy Balance on Hepatic Capacity for Oleate and Propionate Metabolism and Triglyceride Secretion

Author

Ric R. Grummer, S.J. Bertics, L.E. Armentano, Shawn S. Donkin, and Todd C. Skaar

Subjects

medicine.medical_specialty, Linoleic acid, Coenzyme A, Oleic Acids, chemistry.chemical_compound, Internal medicine, Genetics, medicine, Animals, Lactation, Cells, Cultured, Triglycerides, chemistry.chemical_classification, Isovalerate, Triglyceride, Fatty acid metabolism, Chemistry, Goats, Metabolism, Endocrinology, Liver, Propionate, Female, Animal Science and Zoology, Propionates, Energy Metabolism, Niacin, Food Science

Abstract

The purpose of this study was to identify conditions that could decrease accumulation of triglyceride in liver, preferably by increasing hepatic secretion of triglyceride-rich lipoproteins. Hepatocytes isolated from lactating goats were incubated in vitro, and the fate of [1-14C]oleate was measured to determine hepatic capacity for various routes of long-chain fatty acid metabolism. The effect of in vivo energy balance and modifications of the nutrients present in the culture media were tested. Addition of linoleic acid, isovalerate, niacin, propionate, or propylene glycol did not affect triglyceride accumulation or secretion. Pyruvate decreased intracellular triglyceride accumulation. Changes in oxidation of oleate through manipulation of carnitine acyl transferase activity did not influence oleate esterification rate. Livers and hepatocytes isolated from goats in negative energy balance contained more lipid and triglyceride. Liver cells from goats in negative energy balance had decreased capacity for converting propionate to glucose with no change in ketogenic capacity as judged by acid soluble product formation from oleate. Hepatocytes from goats in negative energy balance retained less oleate as cell triglyceride with no change in triglyceride export, indicating a decreased net rate of esterification. Lactating goats, either in negative or positive energy balance, demonstrated the same low capacity for export of newly synthesized triglyceride as previously reported for fed wethers.

Published

1991