Hormonal control of IGF-binding protein (IGFBP)-5 and IGFBP-2 secretion during differentiation of the HC11 mouse mammary epithelial cell line.

The mouse mammary epithelial cell line HC11 upregulates the synthesis of beta-casein (a differentiation marker) following treatment with the lactogenic hormone mix dexamethasone, insulin and prolactin (DIP). We demonstrate that the basal levels of IGF-binding protein (IGFBP)-5 secreted by undifferentiated HC11 cells are upregulated 10-fold during DIP-induced cellular differentiation whereas the level of the other IGFBP species secreted by HC11 cells (IGFBP-2) is downregulated during this process. As previously reported, the combination of all three of these hormones is required for synthesis of the differentiation marker beta-casein, whereas basal IGFBP-5 secretion is evident in the absence of any hormonal treatment and, unlike beta-casein, secretion of this protein can be stimulated by binary combinations of the hormones (although maximal levels of IGFBP-5 are achieved in the presence of all three lactogenic hormones).

Interactions between normal mammary epithelial cells and mammary tumour cells in a model system.

Normal mammary epithelial (NME) cells and MCF-7 cells aggregate and grow as spheroids when cultured on extracellular matrix derived from Engelbreth/ Holmes/Swarth (EHS) tumour. NME cells stop dividing and differentiate but MCF-7 cells continue to proliferate, although growth is counterbalanced by cell death. In mixed cultures of NME cells and MCF-7 cells, the two cell types form mixed aggregates but then segregate to form well separated domains, often joined by only a narrow neck of cells.

Influence of microenvironment on mammary epithelial cell survival in primary culture.

Mammary epithelial cells cultured on Engelbreth-Holm-Swarm (EHS) matrix form multicellular structures termed mammospheres, in which cells and matrix become arranged around a central luminal space. In the presence of lactogenic hormones, cells within mammospheres become polarized, form tight intercellular junctions, and secrete milk proteins vectorially into the luminal space. This study examined the mechanism of lumen formation.

Programmed cell death during mammary tissue involution induced by weaning, litter removal, and milk stasis.

Programmed cell death in mammary tissue was studied during natural weaning in lactating mice and after litter removal or milk stasis. All treatments stimulated mammary apoptosis, indicating that this process is an integral part of the tissue's involution after lactation. Induction of apoptosis was slower in natural weaning than after litter removal but occurred earlier when mice were concurrently pregnant during natural weaning.

The role of prolactin and growth hormone in the regulation of casein gene expression and mammary cell survival: relationships to milk synthesis and secretion.

We have compared involution of the rat mammary gland, induced by litter removal, where milk accumulation occurs, with involution induced in the presence of the suckling young by combined PRL and GH deficiency. Both treatments induced involutionary processes involving apoptosis, as judged by DNA ladders and resulted in significant decreases in the DNA content of the gland. Surprisingly, the effects of hormone deprivation on protein output in milk were principally explained by the loss of secretory cells, as there were only modest decreases in casein messenger RNA (mRNA) expression and protein synthesis rates per U DNA in vitro.

Apoptosis in lactating and involuting mouse mammary tissue demonstrated by nick-end DNA labelling.

Mammary involution after cessation of milk removal is associated with extensive loss of secretory epithelial cells. Ultrastructural changes and the appearance of oligonucleosomal DNA laddering in ethidium bromide-stained gels indicates that cell loss during involution occurs by apoptosis. In this study, a technique for nick end-labelling of genomic DNA with radiolabelled deoxynucleotide has been used to monitor the induction of programmed cell death in mice after litter removal at peak lactation.

Does an IGF-binding protein (IGFBP) present in involuting rat mammary gland regulate apoptosis?

We examined the effects of GH and prolactin deficiency upon milk production, apoptosis and IGFBP production by the mammary gland. GH deficiency produced a 15% reduction in milk yield, prolactin a 50% reduction and combined prolactin- and GH-deficiency an 85% reduction in milk production. Litter removal led to complete inhibition of milk synthesis within 24 h owing in large part to milk accumulation.

Hypothalamic PGE2 and cAMP production and adrenocortical activation following intraperitoneal endotoxin injection: in vivo microdialysis studies in Lewis and Fischer rats.

Inflammatory disease-susceptible Lewis (LEW) rats exhibit reduced glucocorticoid release in response to inflammatory and neurotransmitter stimuli, compared to histocompatible Fischer (F/344) rats. This compromised hypothalamo-pituitary-adrenal (HPA) axis activity has been ascribed to a primary defect in hypothalamic corticotrophin-releasing factor-41 (CRF) secretion, possibly caused by abnormal signal transduction in the CRF neuron. In the present study, we have used in vivo microdialysis to asses the role of hypothalamic prostaglandin E2 (PGE2) and cyclic adenosine monophosphate (cAMP) in endotoxin-mediated HPA axis activation in adult hyporesponsive LEW and hyperresponsive F/344 rats.