Nicotinic acid (niacin) can suppress lipolysis, but responses to dietary niacin have been inconsistent in cattle. Our aim was to determine if 24 g/d of encapsulated niacin (EN; providing 9.6g/d of bioavailable nicotinic acid) alters lipid metabolism and productivity of transition cows. Beginning 21 d before expected calving, primiparous (n = 9) and multiparous (n = 13) cows (body condition score of 3.63 ± 0.08) were sequentially assigned within parity to EN (12 g provided with ration twice daily) or control through 21 d postpartum. Liver biopsies were collected on d -21, -4, 1, 7, and 21 relative to parturition. Blood samples were collected on d -21, -14, -7, -4, 1, 4, 7, 14, and 21 relative to parturition. On d 7 postpartum, a caffeine clearance test was performed to assess liver function, and on d 21 to 23 postpartum, blood samples were collected every 8h to monitor posttreatment nonesterified fatty acid (NEFA) responses. Data were analyzed using mixed models with repeated measures over time. A treatment × time × parity effect was observed on prepartum dry matter intake (DMI), which was caused by a 4 kg/d decrease in DMI of EN-treated multiparous cows compared with control multiparous cows during the final 4 d prepartum. A significant increase in plasma nicotinamide concentration occurred in EN-treated cows on d -7 and 21 relative to parturition. Prepartum glucose concentration decreased in treated animals, with no difference in plasma insulin concentration. Treatment × time × parity effects were detected for NEFA and β-hydroxybutyrate concentrations during the postpartum period. Plasma NEFA peaked at 1,467 ± 160 μM for control animals compared with 835 ± 154 μM for EN-treated animals. After treatments ended on d 21, no evidence was found for a plasma NEFA rebound in either parity group. A treatment × parity × time interaction was detected for liver triglyceride content, indicating a tendency for less liver triglyceride in EN-treated primiparous cows, but caffeine clearance rates were not affected by treatment. No treatment effects were observed for body condition score, body weight, energy balance, or milk or milk component production. A high dose of EN can decrease postpartum plasma NEFA concentration, but may also decrease prepartum DMI.
Retinol-binding protein (RBP) is the main transport system for retinol in circulation, is a relatively small protein with one binding site for retinol in the all-trans form, and is bound to transthyretin. The objectives of this study were to characterize the temporal pattern of bovine hepatic mRNA expression of RBP during the periparturient period and to determine if a relationship exists between the expression of RBP and that of tumor necrosis factor (TNF)-α in dairy cows. In experiment 1, we assessed hepatic mRNA expression of RBP during the periparturient period. Liver tissues were sampled from periparturient dairy cows (n=9) at -21, -4, +1, +7, and +21 relative to parturition and frozen in liquid N(2). Total RNA was extracted from each tissue sample and cDNA was generated. Gene expressions of RBP and β-actin (as a housekeeping gene) were measured as relative quantity using reverse transcription-PCR. Data were analyzed using cycle threshold values, adjusted to β-actin, and significance was determined at P<0.05. Serum samples (-21, -4, +1, +7, and +21 relative to parturition) were analyzed for retinol concentration using a standard HPLC-based method. Cows had variable expression of hepatic RBP and serum retinol over the transition period, with a decline near parturition and a rebound toward prepartum levels later in lactation. In experiment 2, liver and visceral (intestinal) adipose tissues were sampled from dairy cows (n=28) at slaughter. Expression of RBP and TNF-α was detected in all samples and variations among cows were highly significant for both genes. Across tissues, expression of RBP was positively correlated with that of TNF-α (r=0.60). Within adipose tissue, expression of RBP and TNF-α was weakly correlated (r=0.23), whereas in hepatic tissue, expression was strongly correlated (r=0.62). In experiment 3, late-lactation dairy Holstein cows were blocked by parity and feed intake, and randomly assigned to control, recombinant bovine (rb)TNF challenge, or pair-fed control treatment (n=5/treatment). Cows were injected with either rbTNF (subcutaneous injection of 2 µg/kg of body weight in saline) or sterile saline (control and pair-fed control animals) once daily for 7d. Liver biopsy was performed on d 7 and samples were processed for expression of RBP and TNF-α. Although TNF challenge caused an upregulation of hepatic TNF-α expression, as expected, it did not alter hepatic RBP expression. Overall, the temporal pattern of hepatic RBP gene expression during the periparturient period followed, to a great extent, that of plasma retinol. Although a strong positive correlation was previously detected between bovine hepatic RBP and TNF-α transcripts, rbTNF challenge did not cause alter RBP expression. These observations collectively imply that regulation of RBP at the transcription level is influenced by physiological state but may be independent from that of transthyretin, which is altered by proinflammatory stimuli (such as TNF-α) via induction of transcription factor nuclear factor-interleukin 6.
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