Your search keyword '"Mack, David L."' showing total 5 results

1. The mammary microenvironment alters the differentiation repertoire of neural stem cells.

Author

Booth, Brian W., Mack, David L., AndroutseIIis-Theotokis, Andreas, McKay, Ronald D. G., Boulanger, Corinne A., and Smith, Gilbert H.

Subjects

*STEM cells, *MATERIAL plasticity, *EPITHELIAL cells, *REGENERATION (Biology), *ECOLOGICAL niche, *MAMMARY glands, *TRANSPLANTATION of cell nuclei

Abstract

A fundamental issue in stem cell biology is whether adult somatic stem cells are capable of accessing alternate tissue sites and continue functioning as stem cells in the new microenvironment. To address this issue relative to neurogenic stem cells in the mouse mammary gland microenvironment, we mixed wild-type mam- mary epithelial cells (MECs) with bona fide neural stem cells (NSCs) isolated from WAP-Cre/Rosa26R mice and inoculated them into cleared fat pads of immunocompromised females. Hosts were bred 6-8 weeks later and examined postinvolution. This allowed for mammary tissue growth, transient activation of the WAP-Cre gene, recombination, and constitutive expression of LacZ. The NSCs and their progeny contributed to mammary epithelial growth during ductal morphogenesis, and the Rosa26-LacZ reporter gene was activated by WAP-Cre expression during pregnancy. Some NSC- derived LacZ[sup+] cells expressed mammary-specific functions, includ- ing milk protein synthesis, whereas others adopted myoepithelial cell fates. Thus, NSC5 and their progeny enter mammary epithelium- specific niches and adopt the function of similarly endowed mam- mary cells. This result supports the conclusion that tissue-specific signals emanating from the stroma and from the differentiated somatic cells of the mouse mammary gland can redirect the NSCs to produce cellular progeny committed to MEC fates. [ABSTRACT FROM AUTHOR]

Published

2008

2. Interaction with the mammary microenvironment redirects spermatogenic cell fate in vivo.

Author

Boulanger, Corinne A., Mack, David L., Booth, Brian W., and Smith, Gilbert H.

Subjects

*EPITHELIAL cells, *CELL proliferation, *TRANSPLANTATION of cell nuclei, *MAMMARY glands, *CELL determination, *PREGNANCY

Abstract

Previously, we characterized a parity-induced mammary epithelial cell population that possessed the properties of pluripotency and self-renewal upon transplantation. These cells were lineally marked by the expression of β-galactosidase (LacZ) as a result of mammary-specific activation of a reporter gene through Cre-lox recombination during pregnancy. We used this experimental model to determine whether testicular cells would alter their cell fate upon interaction with the mammary gland microenvironment during pregnancy, lactation, and involution. Adult testicular cells, isolated from seminiferous tubules, were mixed with limiting dilutions of dispersed mammary epithelial cells and injected into epithelium-divested mammary fat pads. The host mice were bred 6-8 weeks later and examined 20-30 days postinvolution. This approach allowed for the growth of mammary tissue from the injected cells and transient activation of the whey acidic protein promoter-Cre gene during pregnancy and lactation, leading to Cre-lox recombination and constitutive expression of LacZ from its promoter. Here we show that cells from adult seminiferous tubules interact with mammary epithelial cells during regeneration of the gland. They adopt mammary epithelial progenitor cell properties, including self-renewal and the production of cell progeny, which differentiate into functional mammary epithelial cells. Our results provide evidence for the ascendancy of the tissue microenvironment over the intrinsic nature of cells from an alternative adult tissue. [ABSTRACT FROM AUTHOR]

Published

2007

3. Embryonic Stem Cells Are Redirected to Non-Tumorigenic Epithelial Cell Fate by Interaction with the Mammary Microenvironment.

Author

Boulanger, Corinne A., Bruno, Robert D., Mack, David L., Gonzales, Monica, Castro, Nadia P., Salomon, David S., and Smith, Gilbert H.

Subjects

*CANCER research, *EPITHELIAL cells, *MAMMARY glands, *EMBRYONIC stem cell research, *CANCER prevention, *CARCINOGENESIS, *DEVELOPMENTAL biology, *CELL differentiation, *LABORATORY mice

Abstract

Experiments were conducted to redirect mouse Embryonic Stem (ES) cells from a tumorigenic phenotype to a normal mammary epithelial phenotype in vivo. Mixing LacZ-labeled ES cells with normal mouse mammary epithelial cells at ratios of 1∶5 and 1∶50 in phosphate buffered saline and immediately inoculating them into epithelium-divested mammary fat pads of immune-compromised mice accomplished this. Our results indicate that tumorigenesis occurs only when normal mammary ductal growth is not achieved in the inoculated fat pads. When normal mammary gland growth occurs, we find ES cells (LacZ+) progeny interspersed with normal mammary cell progeny in the mammary epithelial structures. We demonstrate that these progeny, marked by LacZ expression, differentiate into multiple epithelial subtypes including steroid receptor positive luminal cells and myoepithelial cells indicating that the ES cells are capable of epithelial multipotency in this context but do not form teratomas. In addition, in secondary transplants, ES cell progeny proliferate, contribute apparently normal mammary progeny, maintain their multipotency and do not produce teratomas. [ABSTRACT FROM AUTHOR]

Published

2013

4. Aneuploidy, oncogene amplification and epithelial to mesenchymal transition define spontaneous transformation of murine epithelial cells.

Author

Padilla-Nash, Hesed M., McNeil, Nicole E., Yi, Ming, Nguyen, Quang-Tri, Hu, Yue, Wangsa, Danny, Mack, David L., Hummon, Amanda B., Case, Chanelle, Cardin, Eric, Stephens, Robert, Difilippantonio, Michael J., and Ried, Thomas

Subjects

*ANEUPLOIDY, *ONCOGENES, *GENE amplification, *EPITHELIAL cells, *CELL transformation, *CANCER relapse, *STIMULUS & response (Biology)

Abstract

Human epithelial cancers are defined by a recurrent distribution of specific chromosomal aneuploidies, a trait less typical for murine cancer models induced by an oncogenic stimulus. After prolonged culture, mouse epithelial cells spontaneously immortalize, transform and become tumorigenic. We assessed genome and transcriptome alterations in cultures derived from bladder and kidney utilizing spectral karyotyping, array CGH, FISH and gene expression profiling. The results show widespread aneuploidy, yet a recurrent and tissue-specific distribution of genomic imbalances, just as in human cancers. Losses of chromosome 4 and gains of chromosome 15 are common and occur early during the transformation process. Global gene expression profiling revealed early and significant transcriptional deregulation. Chromosomal aneuploidy resulted in expression changes of resident genes and consequently in a massive deregulation of the cellular transcriptome. Pathway interrogation of expression changes during the sequential steps of transformation revealed enrichment of genes associated with DNA repair, centrosome regulation, stem cell characteristics and aneuploidy. Genes that modulate the epithelial to mesenchymal transition and genes that define the chromosomal instability phenotype played a dominant role and were changed in a directionality consistent with loss of cell adhesion, invasiveness and proliferation. Comparison with gene expression changes during human bladder and kidney tumorigenesis revealed remarkable overlap with changes observed in the spontaneously transformed murine cultures. Therefore, our novel mouse models faithfully recapitulate the sequence of genomic and transcriptomic events that define human tumorigenesis, hence validating them for both basic and preclinical research. [ABSTRACT FROM AUTHOR]

Published

2013

5. Netrin-1 can affect morphogenesis and differentiation of the mouse mammary gland.

Author

Strizzi, Luigi, Mancino, Mario, Bianco, Caterina, Raafat, Ahmed, Gonzales, Monica, Booth, Brian W., Watanabe, Kazuhide, Nagaoka, Tadahiro, Mack, David L., Howard, Beatrice, Callahan, Robert, Smith, Gilbert H., and Salomon, David S.

Subjects

*MAMMARY glands, *LABORATORY mice, *LACTATION, *WESTERN immunoblotting, *EPITHELIUM, *EPITHELIAL cells

Abstract

Netrin-1 has been shown to regulate the function of the EGF-like protein Cripto-1 (Cr-1) and affect mammary gland development. Since Cr-1 is a target gene of Nanog and Oct4, we investigated the relationship between Netrin-1 and Cr-1, Nanog and Oct4 during different stages of development in the mouse mammary gland. Results from histological analysis show that exogenous Netrin-1 was able to induce formation of alveolar-like structures within the mammary gland terminal end buds of virgin transgenic Cripto-1 mice and enhance mammary gland alveologenesis in early pregnant FVB/N mice. Results from immunostaining and Western blot analysis show that Netrin-1, Nanog and Oct4 are expressed in the mouse embryonic mammary anlage epithelium while Cripto-1 is predominantly expressed outside this structure in the surrounding mesenchyme. We find that in lactating mammary glands of postnatal FVB/N mice, Netrin-1 expression is highest while Cripto-1 and Nanog levels are lowest indicating that Netrin-1 may perform a role in the mammary gland during lactation. HC-11 mouse mammary epithelial cells stimulated with lactogenic hormones and exogenous soluble Netrin-1 showed increased beta-casein expression as compared to control thus supporting the potential role for Netrin-1 during functional differentiation of mouse mammary epithelial cells. Finally, mouse ES cells treated with exogenous soluble Netrin-1 showed reduced levels of Nanog and Cripto-1 and higher levels of beta-III tubulin during differentiation. These results suggest that Netrin-1 may facilitate functional differentiation of mammary epithelial cells and possibly affect the expression of Nanog and/or Cripto-1 in multipotent cells that may reside in the mammary gland. J. Cell. Physiol. 216: 824–834, 2008, © 2008 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2008