4.7 Article

Mechanism underlying the modulation of milk production by incomplete milking

Journal

JOURNAL OF DAIRY SCIENCE
Volume 106, Issue 1, Pages 783-791

Publisher

ELSEVIER SCIENCE INC
DOI: 10.3168/jds.2022-22164

Keywords

mammary gland; apoptosis; involution; prolactin

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This study investigated the effect of incomplete milking on mammary gland activity and responsiveness to prolactin. The results showed that incomplete milking reduced milk yield, decreased mammary epithelial cell activity and number, and impaired the response to blood prolactin.
Mammary gland secretory activity is modulated by systemic and local factors; however, the relation-ship between these factors is unknown. The aim of this study was to determine how a local factor, such as incomplete milking, affects mammary epithelial cell activity, number, and responsiveness to blood prolactin (PRL). Eight cows in mid-lactation were differentially milked (i.e., their right quarters were milked incom-pletely at approximately 70%, and their left quarters were milked completely, twice daily for 4 wk). Through-out the experiment, milk yield was measured at the quarter level. Milk samples were collected from each quarter once a week to assess the milk components, and epithelial cell concentrations, as well as to isolate milk fat globule RNA. In the weeks before and after the experiment, mammary gland functional capacity was evaluated by measuring the volume of milk harvested after complete filling of the gland. At the end of the last experimental week, mammary gland biopsies were performed on each rear quarter. The milk production of quarters milked completely remained stable during the treatment period, whereas, as expected, the milk pro-duction of quarters milked incompletely was only 53% of completely milked quarters at the end of the period. Accordingly, the expression of genes related to milk synthesis (CSN2, LALBA, and ACACA) in milk fat was lower in the quarters that were milked incompletely. Incomplete milking decreased the milk lactose content, indicating a loss of integrity of tight junctions. The total yield of epithelial cells in milk was not affected, but their concentration in milk, the BAX:BCL2 gene expression ratio, and the loss of mammary functional capacity were greater in the quarters milked incom-pletely, suggesting an acceleration of involution in those quarters. The expression of the short isoform of the PRL receptor gene (PRLR) tended to be lower, and the expression of STAT5A and STAT5B tended to decline in the quarters milked incompletely. In mammary gland biopsy samples, the number of both short and long isoforms of the PRLR were not affected, nor were the amount and activation of STAT3 and STAT5. However, the ratio of PRLR short isoform to PRLR long isoform was lower in the quarters milked incompletely. The decrease in milk yield induced by incomplete milking is rapid and associated with a decrease in mammary epithelial cell activity and a decrease in the number of secretory epithelial cells. The results of this experiment provide only limited support for the hypothesis that modulation of the mammary gland's responsiveness to PRL is part of the mechanism by which local factors, such as incomplete milking, modulate milk synthesis.

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