effects of early weaning on innate immune responses of Holstein calves

The objectives of this study were to compare innate immune responses of calves weaned early (EW; n = 23; weaned at 23.7 ± 2.3 d of age) with those of conventionally weaned calves (CW; n = 22; weaned at 44.7 ± 2.3 d of age). All calves were fed 3.8 L of colostrum within 12 h of birth and were subsequ...

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Bibliographic Details
Published in:Journal of dairy science 2011-05, Vol.94 (5), p.2545-2556
Main Authors: Hulbert, L.E, Cobb, C.J, Carroll, J.A, Ballou, M.A
Format: Article
Language:English
Subjects:
animal age
animal nutrition
Animal productions
Animals
Animals, Newborn - immunology
Animals, Newborn - metabolism
Biological and medical sciences
calf feeding
calves
Cattle - immunology
Cattle - metabolism
colostrum
early weaning
endotoxins
Feeding. Feeding behavior
Fundamental and applied biological sciences. Psychology
hematocrit
Holstein
immunity
Immunity, Innate
integrins
L-Selectin - metabolism
milk replacer
neutrophils
Neutrophils - metabolism
Species Specificity
starter diets
Terrestrial animal productions
Time Factors
Tumor Necrosis Factor-alpha - metabolism
Vertebrates
Vertebrates: anatomy and physiology, studies on body, several organs or systems
Weaning
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Summary:The objectives of this study were to compare innate immune responses of calves weaned early (EW; n = 23; weaned at 23.7 ± 2.3 d of age) with those of conventionally weaned calves (CW; n = 22; weaned at 44.7 ± 2.3 d of age). All calves were fed 3.8 L of colostrum within 12 h of birth and were subsequently fed milk replacer twice daily. The weaning process began by withdrawal of the afternoon milk-replacer feeding. Milk was fully withdrawn, and the calf was considered completely weaned when it consumed 900 g of calf starter as-fed for 2 consecutive days. Blood samples were collected from all calves at 24, 27, 31, 45, 48, 52, and 66 ± 2.3 d of age. Early weaned calves took a variable amount of time to completely wean from milk replacer; therefore, data were also analyzed by comparing calves grouped by latency to completely weaned (fast = 1 to 5 d; intermediate = 6 to 8 d; slow = 15 to 17 d). Slow-EW calves weighed less than either the fast- or intermediate-EW calves before initiating weaning. At 27 d of age, circulating neutrophils were greater among EW calves than CW calves. Moreover, fast-EW calves had lower neutrophil:mononuclear cell ratios at 45 d of age than other EW calves. Slow-EW calves had lower TNF-α concentrations from whole blood stimulated with endotoxin at 27 and 31 d of age compared with fast- and intermediate-EW calves. All EW calves had decreased neutrophil L-selectin at d 27 and increased neutrophil L-selectin at 31 d of age. At 31 d of age, neutrophil β2-integrin was the greatest among the fast-EW calves. All EW calves had decreased neutrophil oxidative burst at 27 and 31 d of age. Three days after CW calves were weaned they had higher neutrophils, hematocrit percentages, and circulating cortisol than EW calves. In addition, 3 d after CW calves were weaned they had decreased neutrophil oxidative burst responses to Escherichia coli. Weaning, irrespective of age, suppressed many innate immune responses. In addition, early weaning transiently suppressed L-selectin expression on neutrophils; however, the immunological significance in the context of the resistance to disease is unknown because EW calves likely had greater protection from passively derived immunoglobulins when they were weaned. Finally, calves with lower BW around 24 d of age may not be suitable for early weaning programs as evident in the suppressed secretion of TNF-α from whole blood cultures during the week following the initiation of weaning.
ISSN:1525-3198
0022-0302
1525-3198
DOI:10.3168/jds.2010-3983