Activation of nuclear factor kappa B in mammary epithelium promotes milk loss during mammary development and infection

We investigated whether nuclear factor kappa B (NF‐κB), which exhibits a regulated pattern of activity during murine mammary gland development, plays an important role during lactation and involution, when milk production ceases and the gland undergoes apoptosis and re‐modeling. We generated a doxycycline inducible transgenic mouse model to activate NF‐κB specifically in the mammary epithelium through expression of a constitutively active form of IKK2, the upstream kinase in the classical NF‐κB signaling cascade. We found that activation of NF‐κB during involution resulted in a more rapid reduction in milk levels and increased cleavage of caspase‐3, an indicator of apoptosis. We also found that activation of NF‐κB during lactation with no additional involution signals had a similar effect. The observation that NF‐κB is a key regulator of milk production led us to investigate the role of NF‐κB during mastitis, an infection of the mammary gland in which milk loss is observed. Mammary gland injection of E. coli LPS resulted in activation of NF‐κB and milk loss during lactation. This milk loss was decreased by selective inhibition of NF‐κB in mammary epithelium. Together, our data reveal that activation of NF‐κB leads to milk clearance in the lactating mammary gland. Therefore, targeting of NF‐κB signaling may prove therapeutic during mastitis in humans and could be beneficial for the dairy industry, where such infections have a major economic impact. J. Cell. Physiol. 222:73–81, 2010. © 2009 Wiley‐Liss, Inc.     

Expression and localisation of GLUT1 and GLUT12 glucose transporters in the pregnant and lactating rat mammary gland

Glucose plays a major role in mammary gland function during lactation as it is used both as a fuel and as a precursor of milk components. In rats, previous studies have shown that the facilitative glucose transporter GLUT1 is expressed in mammary epithelial cells. We have used confocal immunofluorescence to localise GLUT1 and GLUT12, a recently identified member of the sugar transporter family, in pregnant and lactating rat mammary gland. GLUT12 staining was observed in the cytoplasm of mammary epithelial cells at day 20 of pregnancy, and at 1 and 6 days postpartum. Furthermore, GLUT12 staining was present at the apical plasma membrane of epithelial cells during lactation. In contrast, GLUT1 protein localised to the cytoplasm and basolateral surface of mammary epithelial cells. Forced weaning resulted in decreased cytoplasmic GLUT1 staining intensity, but no change in GLUT12 staining. The results suggest a possible role for GLUT12 in the metabolism of mammary epithelial cells during pregnancy and lactation.