Abstract
In mammals, including sheep and mice, lactation attenuates the hypothalamo-pituitary-adrenal axis and plasma cortisol concentration. Oxytocin, one neuropeptide present in the blood during lactation, may contribute to such stress attenuation. Providing oxytocin intra-nasally increases plasma oxytocin concentration in cattle and can be used in non-lactating cows to mirror plasma oxytocin concentration of lactating cows. Therefore, our hypothesis was that there would be no difference in plasma cortisol between non-lactating beef cows intra-nasally administered oxytocin and lactating beef cows intra-nasally treated with saline. Twenty Bos taurus cows were randomly allocated by lactational status to one of four treatments, in a 2×2 factorial arrangement: 1) Non-lactating, saline (NL-S; n = 5); 2) Non-lactating, oxytocin (NL-OXT; n = 5); 3) Lactating, saline (L-S; n = 5); and 4) Lactating, oxytocin (L-OXT; n = 5). Two hours pre-treatment, cows were catheterized, moved to their appropriate chute and baseline blood samples were collected at -60, -45, -30, and 0 minutes before treatments were administered. Directly following the 0-minute sample, cows were administered their intra-nasal treatment via a mucosal atomization device. Subsequently, blood was collected at 2, 4, 6, 8, 10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 110, and 120 minutes. Non-lactating cows had greater (P = 0.02) plasma cortisol concentration compared with lactating cows. There was no lactation by treatment interactions for either plasma cortisol (P = 0.55) or oxytocin (P = 0.89) concentration. Although a treatment by time interaction was identified for oxytocin (P < 0.0001), there was no main effect of lactation on plasma oxytocin concentration (P = 0.34). Similar oxytocin and dissimilar cortisol concentration in lactating and non-lactating cows indicate that oxytocin alone cannot be responsible for reduced plasma cortisol in lactating ruminants. Further investigations are needed to elucidate alternative mechanisms that may be involved in the stress hypo-responsive condition of lactating mammals.
Highlights
In mammals, including sheep and mice, lactation attenuates the hypothalamo-pituitary-adrenal (HPA) axis and plasma cortisol concentration [1, 2]
The consequence of oxytocin treatment is highly dependent upon species [8], stressor [1, 4], physiological state [12], and route of administration [4, 13]
The present study confirms that lactating beef cows with access to their calf have a reduced plasma cortisol concentration compared with non-lactating cows without a calf; and this discrepancy between cows in different physiological states is not solely a result of plasma oxytocin concentration
Summary
In mammals, including sheep and mice, lactation attenuates the hypothalamo-pituitary-adrenal (HPA) axis and plasma cortisol concentration [1, 2]. Intra-nasal oxytocin treatment results in widespread dispersal of oxytocin within the brain in rodents and non-human primates [9, 10] and has attenuated increases in adrenocorticotropin hormone (another effector within the HPA axis) in non-human primates [11]. Given these results, supplementing oxytocin intra-nasally may benefit production cattle undergoing routine, yet stressful, husbandry procedures (e.g. transportation) via stress reduction and subsequent improvements to both production and welfare outcomes. The consequence of oxytocin treatment is highly dependent upon species [8], stressor [1, 4], physiological state [12], and route of administration [4, 13]
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