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  • Title: Effects of age and nutrition on expression of CD25, CD44, and L-selectin (CD62L) on T-cells from neonatal calves.
    Author: Foote MR, Nonnecke BJ, Fowler MA, Miller BL, Beitz DC, Waters WR.
    Journal: J Dairy Sci; 2005 Aug; 88(8):2718-29. PubMed ID: 16027185.
    Abstract:
    Effects of the plane of nutrition and age on the proliferation and activation of lymphocyte subsets from milk replacer-fed calves were investigated in vitro. Holstein calves were fed a standard (0.45 kg/d of a 20% crude protein, 20% fat milk replacer, n = 4) or intensified (1.14 kg/d of a 28% crude protein, 20% fat milk replacer, n = 4) diet from 1 to 8 wk of age. Average daily weight gain of intensified-diet (0.66 kg/d) calves was greater than that of standard-diet (0.27 kg/d) calves. Relative to the pokeweed mitogen-induced responses of CD4(+) cells from steers (5 to 6 mo of age), CD4(+) cells from 1-wk-old calves showed decreased proliferative activity, delayed increase in CD25 expression, and no demonstrable increase in CD44 expression or decrease in CD62L expression. Calf CD8(+) and gammadeltaT-cell receptor(+) cells, unlike T-cells from the older animals, did not demonstrate decreased expression of CD62L after stimulation with mitogen. The increased expression of CD44 by mitogen-stimulated gammadeltaT-cell receptor(+) cells from older animals was not seen in gammadeltaT-cell receptor(+) cells from 1-wk-old calves. At wk 8 of age, mitogen-induced proliferation and expression of activation antigens by T-cells from standard-fed calves were similar to responses of T-cells from steers indicating rapid maturation of T-cell function during the neonatal period. Feeding calves an intensified milk replacer was associated with decreased proliferation of mitogen-stimulated CD4(+), CD8(+), and gammadeltaT-cell receptor(+) cells; decreased CD25 expression by mitogen-stimulated CD4(+) and CD8(+) cells; and decreased CD44 expression by mitogen-stimulated CD8(+) cells. These results indicate that the functional capacity of the calf's T-cell population becomes more adult-like during the first weeks of life and suggest that nutrition modulates T-cell function during this period of immune maturation.
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