ABSTRACT
The expression of apoptosis-related proteins: TGF-beta1 (auto/paracrine inducer) and its receptor (TGF-betaRIII), Bax (promoter), Bcl-2 (inhibitor) and CPP-32 (executor of apoptosis) as well as the apoptotic cell number in mammary glands of 11 Polish White Improved goats in the course of the lactation cycle (peak of lactation: days 40-70, late lactation: days 208-256, drying off: days 267-340) was investigated. The immunohistochemical study demonstrated a significant increase in TGF-beta1 and TGF-betaRIII expression in the lobuloalveolar tissue from the early lactation to the dry period. Our recent study on HC11 mouse mammary epithelial cells [Cell. Mol. Biol. 46 (2000) 175] has revealed an inhibitory effect of prolactin on TGF-beta1 transcription, which may explain the low TGF-beta1 synthesis during lactogenesis and galactopoiesis and the increase in TGF-beta1 and TGF-betaIIIR expression in late lactation and dry period. Bax expression was the lowest in the peak of lactation, significantly increased in late lactation and remained elevated during drying off. Bcl-2 content was lower than Bax in all examined periods, but it increased significantly at the end of lactation, which suggests the survival of cells with the highest resistance to apoptogenic stimuli. The increase in Bcl-2 level in remnant lobuloalveolar tissue is probably the molecular mechanism that limits the rate of secretory tissue involution. The induction of CPP-32 (caspase 3) from the peak of lactation to dry period was accompanied by a progressive loss of mammary epithelial cells and the increase in apoptotic cell numbers but only in the dry period. The increase in the expression of examined proteins in the late lactation and the dry period indicates their involvement in the induction (TGF-beta1 and TGF-betaRIII), regulation (Bax and Bcl-2) and execution (CPP-32) of programmed cell death in the course of mammary gland involution. The lack of an increase in apoptotic cell number in late lactation, in spite of the evident decrease in total cell number, suggests milk as an alternative route (apart from phagocytosis) of apoptotic cells elimination from the mammary gland. The presented results provide new insights into the molecular mechanism of mammary cell apoptosis in goat and for this reason may have practical implications for control and regulation of mammary gland remodelling, which is a prerequisite for subsequent successful lactation.
ABSTRACT
The concentration and secretion of putrescine (PTR), spermidine (SPD), and spermine (SPM) was examined in colostrum and milk of 60 dairy goats (Polish White and German Brown) during 90 days of lactation. It has been found that milk polyamine pattern is related to breed, age, offspring number, lactation period, milking time, and individual goat-to-goat variations. The mean level of PTR and SPD was significantly higher, whereas SPM level was significantly lower in German Brown than Polish White goats. These differences were maintained during whole observation period (90 days after parturition). Elder goats, bearing two and three kids, secreted colostrum with a higher concentration of PTR and a lower concentration of SPD than young goats having one kid. There was a highly significant positive relationship between the age or litter total weight and PTR concentration in colostrum of Polish White goats. In contrast to PTR, the SPD level was negatively correlated with the age or litter total weight. The daily secretion of PTR, SPD, and SPM progressively increased from the 1st to 90th day of lactation. It was dependent on the increase of milk secretion rate, which could be illustrated by the highly significant correlation between daily milk yield and secretion of SPD in milk of German Brown and Polish White goats. The concentration of SPD in milk sampled in the evening was usually higher than in that from morning milking, however, significant only in the case of German Brown goats. In general, goat's colostrum and milk are rich in polyamines, which the total concentration is the highest when compared to milk of other mammals examined so far (e.g., human, rat, sow, and cow).
