Despite a wealth of knowledge about the significance of individual signal transducers and activators of transcription (STATs), essential functions of their upstream Janus kinases (JAKs) during postnatal development are less well defined. Using a novel mammary gland-specific JAK1 knockout model, we demonstrate here that this tyrosine kinase is essential for the activation of STAT1, STAT3, and STAT6 in the mammary epithelium. The loss of JAK1 uncouples interleukin-6-class ligands from their downstream effector, STAT3, which leads to the decreased expression of STAT3 target genes that are associated with the acutephase response, inflammation, and wound healing. Consequently, JAK1-deficient mice exhibit impaired apoptosis and a significant delay in mammary gland remodeling. Using RNA sequencing, we identified several new JAK1 target genes that are upregulated during involution. These include Bmf and Bim, which are known regulators of programmed cell death. Using a BMF/BIMdouble-knockout epithelial transplant model, we further validated that the synergistic action of these proapoptotic JAK1 targets is obligatory for the remodeling of the mammary epithelium. The collective results of this study suggest that JAK1 has nonredundant roles in the activation of particular STAT proteins and this tyrosine kinase is essential for coupling inflammatory cytokine signals to the cell death machinery in the differentiated mammary epithelium.T he postnatal growth, functional differentiation, and postlactational remodeling of the epithelial compartment of the mammary gland are controlled by hormones and locally synthesized cytokines (1). While estrogen is primarily required for the elongation of mammary ducts after the onset of puberty (2, 3), progesterone and prolactin orchestrate the specification, proliferation, and differentiation of secretory alveolar cells during pregnancy (4-6). Following lactation and the weaning of the young, circulating levels of prolactin (PRL) decline and milk stasis induces the local production of interleukin-6 (IL-6)-class cytokines, in particular, IL-6, leukemia inhibitory factor (LIF), and oncostatin M (OSM). These IL-6-class cytokines trigger a cascade of intracellular events that orchestrate a process known as mammary gland remodeling, which entails the death and selective removal of terminally differentiated alveolar cells (7-9).PRL and IL-6-class cytokines signal through their corresponding receptors and utilize Janus kinases (JAKs) to activate downstream signal transducers and activators of transcription (STATs) that subsequently alter the transcriptional profile, growth, and homeostasis of mammary epithelial cells. Five of the seven STAT proteins that are known in mammals (i.e., STAT1, STAT3, STAT5a, STAT5b, and STAT6) have been found to be sequentially activated at defined stages of mammary gland development (10, 11). The levels of phosphorylated STAT1 have been reported to be elevated in nulliparous females, but this particular transcription factor seems to be largely dispensable for normal ma...
