Local signals induce CCAAT/enhancer binding protein-δ (C/EBP-δ) and C/EBP-β mRNA expression in the involuting mouse mammary gland

Abstract

The repeated lactation cycles in the mammary gland offer a unique environment for the study of cell growth, differentiation, and death. The CCAAT/enhancer binding proteins (C/EBPs) are a family of transcription factors important in growth control and differentiation in many tissues. Our laboratory and others have shown that C/EBP-δ and C/EBP-β mRNA expression is closely associated with normal mouse mammary gland involution. To examine the relative influence of local versus systemic factors in C/EBP expression and tissue remodeling, a gland sealing mouse model was used. Mice with unilateral sealing continue to lactate and nurse pups via nonsealed glands, while sealed glands initiate involution. The expression of C/EBP-α, β and δ mRNA was investigated in sealed and nonsealed nursing glands. In situ apoptosis was documented and glandular morphology was also examined. C/EBP-δ mRNA levels are low in nonsealed glands, but are rapidly and transiently induced in sealed glands by 24 h. C/EBP-β mRNA expression is also relatively low in nonsealed glands, but is induced in sealed glands within 72 h. Expression of the apoptosis-associated mRNAs encoding bax and TRPM-2 is also induced in sealed glands by 24–48 h. Apoptosis and a moderate degree of tissue remodeling occur within the sealed glands in spite of systemic hormone levels capable of sustaining lactation. These data demonstrate that local factors are sufficient to induce C/EBP-β and C/EBP-δ in the mouse mammary gland. In addition, mammary epithelial apoptosis and glandular remodeling occur in sealed glands, confirming a critical role for local factors in mammary involution.