Inactivation of Stat5 in Mouse Mammary Epithelium during Pregnancy Reveals Distinct Functions in Cell Proliferation, Survival, and Differentiation
This study explored the functions of the signal transducers and activators of transcription 5a and 5b (referred to as Stat5 here) during different stages of mouse mammary gland development by using conditional gene inactivation. Mammary gland morphogenesis includes cell specification, proliferation and differentiation during pregnancy, cell survival and maintenance of differentiation throughout lactation, and cell death during involution. Stat5 is activated by prolactin, and its presence is mandatory for the proliferation and differentiation of mammary epithelium during pregnancy. To address the question of whether Stat5 is also necessary for the maintenance and survival of the differentiated epithelium, the two genes were deleted at different time points. The 110-kb Stat5 locus in the mouse was bracketed with loxP sites, and its deletion was accomplished by using two Cre-expressing transgenic lines. Loss of Stat5 prior to pregnancy prevented epithelial proliferation and differentiation. Deletion of Stat5 during pregnancy, after mammary epithelium had entered Stat5-mediated differentiation, resulted in premature cell death, indicating that at this stage epithelial cell proliferation, differentiation, and survival require Stat5.The signal transducer and activator of transcription (STAT) family of transcription factors conveys cytokine signals from the respective membrane receptors to the nucleus, where they activate diverse genetic programs (11, 12). The two highly conserved Stat5 proteins (Stat5a and Stat5b) are activated by many cytokines, including interleukins, erythropoietin, and prolactin, as well as growth hormone. Mice in which either one or both Stat5 genes were inactivated have revealed unique and redundant roles of the two Stat5 isoforms. Stat5a deficiency results in the loss of prolactin-dependent mammary gland development (15) but does not affect body growth. In contrast, inactivation of Stat5b does not adversely affect mammary development and function but leads to severe growth retardation (34). Mice lacking Stat5a and -5b show defects in multiple organs (33). T-cell proliferation is severely compromised in the absence of Stat5 (22,33), and mammary alveolar epithelium fails to develop during pregnancy (20). Moreover, the multilineage reconstitution potential of hematopoietic stem cells is highly dependent on Stat5 (2).Expansion and differentiation of the mouse mammary alveolar compartment during pregnancy are controlled through the prolactin receptor (23), Jak2 (29), and Stat5 (15,20). Inactivation of the Stat5 locus by using conventional gene targeting resulted in the complete lack of mammary alveolar epithelium, suggesting that the progenitor cells were unable to proliferate. However, those studies could not address the potential roles of Stat5 in the physiology of the epithelial cell beyond its initial proliferation, i.e., whether Stat5 is required for epithelial proliferation, differentiation, and survival throughout pregnancy and for maintenance of epithelial function during lactation. These qu...
Functional development of mammary epithelium during pregnancy depends on prolactin signaling. However, the underlying molecular and cellular events are not fully understood. We examined the specific contributions of the prolactin receptor (PrlR) and the signal transducers and activators of transcription 5a and 5b (referred to as Stat5) in the formation and differentiation of mammary alveolar epithelium. PrlR- and Stat5-null mammary epithelia were transplanted into wild-type hosts, and pregnancy-mediated development was investigated at a histological and molecular level. Stat5-null mammary epithelium developed ducts but failed to form alveoli, and no milk protein gene expression was observed. In contrast, PrlR-null epithelium formed alveoli-like structures with small open lumina. Electron microscopy revealed undifferentiated features of organelles and a perturbation of cell–cell contacts in PrlR- and Stat5-null epithelia. Expression of NKCC1, an Na-K-Cl cotransporter characteristic for ductal epithelia, and ZO-1, a protein associated with tight junction, were maintained in the alveoli-like structures of PrlR- and Stat5-null epithelia. In contrast, the Na-Pi cotransporter Npt2b, and the gap junction component connexin 32, usually expressed in secretory epithelia, were undetectable in PrlR- and Stat5-null mice. These data demonstrate that signaling via the PrlR and Stat5 is critical for the proliferation and differentiation of mammary alveoli during pregnancy.
Selective Removal of the Selenocysteine tRNA[Ser]Sec Gene (Trsp) in Mouse Mammary Epithelium
Mice homozygous for an allele encoding the selenocysteine (Sec) tRNA [Ser]Sec gene (Trsp) flanked by loxP sites were generated. Cre recombinase-dependent removal of Trsp in these mice was lethal to embryos. To investigate the role of Trsp in mouse mammary epithelium, we deleted this gene by using transgenic mice carrying the Cre recombinase gene under control of the mouse mammary tumor virus (MMTV) long terminal repeat or the whey acidic protein promoter. While both promoters target Cre gene expression to mammary epithelium, MMTV-Cre is also expressed in spleen and skin. Sec tRNA[Ser]Sec amounts were reduced by more than 70% in mammary tissue with either transgene, while in skin and spleen, levels were reduced only with MMTV-Cre. The selenoprotein population was selectively affected with MMTV-Cre in breast and skin but not in the control tissue, kidney. Moreover, within affected tissues, expression of specific selenoproteins was regulated differently and often in a contrasting manner, with levels of Sep15 and the glutathione peroxidases GPx1 and GPx4 being substantially reduced. Expression of the tumor suppressor genes BRCA1 and p53 was also altered in a contrasting manner in MMTV-Cre mice, suggesting greater susceptibility to cancer and/or increased cell apoptosis. Thus, the conditional Trsp knockout mouse allows tissue-specific manipulation of Sec tRNA and selenoprotein expression, suggesting that this approach will provide a useful tool for studying the role of selenoproteins in health.Selenium is an essential micronutrient in the diet of mammals and numerous other life forms (see reference 26 for a review). Many health benefits have been attributed to this element, including a role in the prevention of cancer (10) and heart disease and other cardiovascular and muscle disorders (11), in delaying the aging process (33) and the onset of AIDS in human immunodeficiency virus-positive patients (1), in male reproduction (17), in mammalian development (5), in immune function (33), and as an antiviral agent (2). Selenium is incorporated into protein in the form of selenocysteine (Sec), and Sec has its own tRNA (designated Sec tRNA[Ser]Sec ) and its own code word, UGA (26). Sec is indeed the 21st naturally occurring amino acid in the genetic code. Most certainly, the health benefits of selenium are due in large part to its presence in protein (26).Sec tRNA [Ser]Sec is the only known tRNA that governs the expression of an entire class of proteins, the selenoproteins (26). This provides a unique opportunity to study the expression of selenoproteins by manipulating the levels and characteristics of Sec tRNA [Ser]Sec . For example, the levels of numerous selenoproteins were reduced in a protein-and tissue-specific manner in transgenic mice carrying mutant Sec tRNA [Ser]Sec transgenes lacking the highly modified base isopentenyladenosine in its anticodon (37). Glutathione peroxidase 1 (GPx1) and thioredoxin reductases 1 (TR1) and 3 (TR3) were the most and least affected selenoproteins, respectively, and selenoprotein expre...
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