Immune cell provides cradle for mammary stem cells

May 17, 2018

A new study finds that one of the toughest characters in the immune system, the macrophage, has a nurturing side, at least when it comes to guarding the developing breast.

The study published online this week in the journal Science found that macrophages play an important role in maintaining the mammary gland's stem cell niche, a sort of nursery for the precursors of milk-producing cells in the breast.

"Learning more about the factors that keep mammary stem cells alive and healthy may provide insights into the development of breast cancer when such regulation goes awry," said Yibin Kang, the Warner-Lambert/Parke-Davis Professor of Molecular Biology at Princeton University and an associate director of the Rutgers Cancer Institute of New Jersey, who led the international team that made the discovery. "Our study establishes macrophages as important components of the mammary stem cell niche," he said.

Stem cells are cells that have the potential to mature, or differentiate, into several different types of cells. Mammary stem cells shepherd breast development during puberty and are active during pregnancy and lactation.

The team found that the macrophage, a type of white blood cell whose name translates to "big eater" because it fights infection by engulfing foreign invaders, helps create a special environment, known as a stem-cell niche, that keeps stem cells in their premature state and able to duplicate and differentiate into mature cells when needed.

Stem cells come in various types, from ones that are already committed to develop into certain organs as in the mammary glands, to ones that can form nearly any cell in the body. These cells may also become cancerous, leading to tumors and eventually to the spread of cancer to other organs.

To better understand how mammary stem cells regulate breast development -- and how they might turn cancerous -- the researchers studied how macrophages interact with mammary stem cells via molecular signaling mechanisms.

These signaling mechanisms involve a protein called Notch, which acts as a receptor for a signaling molecule called Dll1. Previous research in the Kang lab found that mammary stem cells make a lot of Dll1. In the current study, researchers knocked out the Dll1 gene in mice and found that there is a significant delay in breast development during puberty as well as delayed breast expansion during pregnancy and lactation. Furthermore, the number of mammary stem cells was reduced both during mammary gland development and during pregnancy. Meanwhile, mice with the Dll1 gene intact contained mammary glands with a greater ability to regenerate and to differentiate into mature mammary cells compared to the Dll1-knockout mice.

The mice lacking Dll1 also had fewer macrophage cells in their mammary glands. The researchers found that the binding of Dll1 to Notch2 and Notch3 receptors is important for keeping the number of macrophages high in the mammary stem cell niche, and important for keeping the mammary cells in their stem-cell state.

The researchers also found that the presence of Dll1 is linked to the expression of genes for another signaling pathway involving a molecule called Wnt. The expression of Dll1 caused the macrophages to express genes for Wnt3, 10 and 16, which further enhanced the stem-cell behavior of the mammary stem cells. When the researchers used genetic or chemical methods to inactivate the macrophages in the mammary glands of mice, the mammary stem cell activity decreased.

"We conclude that the signaling molecule Dll1, which is produced by the mammary stem cells, activates the signal in macrophages to sustain the mammary stem cells," Kang said. "The survival and function of these mammary stem cells and the macrophages are dependent on each other and they communicate through these cellular messaging systems."

The first author and co-corresponding author on the study was Rumela Chakrabarti, who was a postdoctoral research associate at Princeton and is now an assistant professor of biomedical sciences at the University of Pennsylvania School of Veterinary Medicine.

"The 'Notch-Wnt crosstalk' that occurs at the mammary stem cell niche is crucial for the development of the mammary gland," Chakrabarti said, "and this crosstalk may have implications in breast cancer as both these signaling pathways are aberrantly increased in breast cancer."

Jeffrey Rosen, who is the C.C. Bell Professor, Vice-Chair of Molecular and Cellular Biology, and Distinguished Service Professor at Baylor College of Medicine, and who was not directly involved in the study, said, "The study by Yibin Kang and colleagues helps expand our knowledge about the role of macrophages in mammary gland development first demonstrated by other research groups almost two decades ago and more recently by researchers who found that macrophages influence stem-cell activity in the mammary gland.

"The study also raises several questions about the specific roles of multiple Wnt molecules expressed in mammary cells and surrounding cells as well as in tissue-resident macrophages in mammary stem cells," he said. "These studies on normal mammary gland development may provide important clues about the roles of macrophages in breast cancer progression."
Additional team members in Princeton's Department of Molecular Biology included: Toni Celià-Terrassa, a former postdoctoral research associate at Princeton who is now at Hospital del Mar Research Institute in Spain; Xiang Hang, a research specialist; Yong Wei, an associate professional specialist; Abrar Choudhury, Class of 2016; Julie Hwang, Class of 2013; Jia Peng, a former postdoctoral research associate; John Grady, a former research specialist at Princeton; Christina DeCoste, director of the flow cytometry facility; and Yibin Kang of Princeton and the Rutgers Cancer Institute of New Jersey. Team members also included: Sushil Kumar of the University of Pennsylvania; Briana Nixon and Ming Li of Memorial Sloan Kettering Cancer Center; Jie Gao and Iannis Aifantis of NYU Langone Medical Center; and Johan van Es of the Hubrecht Institute and University Medical Center in the Netherlands.

The study, "Notch ligand Dll1 mediates crosstalk between mammary stem cells and the macrophageal niche," by Rumela Chakrabarti, Toni Celià-Terrassa, Sushil Kumar, Xiang Hang, Yong Wei, Abrar Choudhury, Julie Hwang, Jia Peng, Briana Nixon, John J. Grady, Christina DeCoste, Jie Gao, Johan van Es, Ming O. Li, Iannis Aifantis, Hans Clevers, and Yibin Kang, was published online by the journal Science on May 17, 2018.

This work was supported by a US Department of Defense Postdoctoral Fellowship (BC103740) and a National Cancer Institute (NCI-K22) grant (K22CA193661), a Susan G. Komen Fellowship (PDF15332075), and grants from the Brewster Foundation, the Breast Cancer Research Foundation, the US Department of Defense (BC123187), and the National Institutes of Health (R01CA141062, R01CA198280-01, and P30CA008748). The research was also supported by the Genomic Editing and Flow Cytometry Shared Resources of the Cancer Institute of New Jersey (P30CA072720).

Princeton University

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