how mammary glands control overall energy balance and fat metabolism

The study was published today inNature. The research team was led by Prashant Rajbhandari, PhD, Assistant Professor of Medicine (Endocrinology, Diabetes and Bone Disease), and a member of the Diabetes, Obesity, and Metabolism Institute at Icahn Mount Sinai.

The researchers discovered a new family of locally secreted and locally acting molecules in the breast called "mammokines" that contribute not only to normal mammary biology, but to overall fat cell physiology and energy balance control.

Mammary adipose tissue has long been recognized for its essential role in breast biology. It consists of many different cell types, including fat cells (adipocytes), immune cells, sympathetic nerve fibers, and mammary epithelial cells forming a milk-producing ductal system. Mammary adipocytes play important roles in organizing mammary ducts, and the reverse is true as well.

The new studiesreveal an unexpected role for nerve-activated ductal cells in mammary adipocyte metabolism and heat generation. These mammary duct-secreted mammokines play an important role in controlling mammary gland fat abundance and could potentially orchestrate critical processes involved in breast development, lactation, and overall whole-body metabolic regulation. The findings thus have important implications for breast cancer, lactation-related disorders, newborn health, and metabolic syndromes linked to mammary adipose dysfunction.

“mammokines是一个重大的发现stone in our quest to comprehend the complex interplay between mammary adipose tissue and breast biology," says Dr. Rajbhandari "This breakthrough opens up new avenues for developing targeted interventions to improve breast health and combat related metabolic disorders."

The research team is currently focused on working to further identify new mammokines and characterize each of them. Their primary aim is to decipher the precise roles of these mammokines and determine whether they regulate systemic glucose and insulin homeostasis through communication with the brain, liver, and pancreas. Additionally, the team is exploring potential therapeutic applications for diseases related to the breast and metabolism.

"This work holds enormous promise for future advancements in women's health and metabolic research and the development of personalized treatment strategies based on mammokine profiling," said Andrew Stewart, MD, Director of the Diabetes, Obesity, and Metabolism Institute at Icahn Mount Sinai.

This discovery is the result of the collaborative efforts of a large team of researchers with diverse areas of expertise in the United States and Europe. Research contributors include Sanil Patel, MS; Njeri Z.R. Sparman, BS; Alexandra Alvarsson, PhD; Luís C. Santos, PhD; Samuel J. Duesman, PhD; Chung Hwan Cho, PhD; Ephraim Hathaway, BS; Abha K. Rajbhandari, PhD; Peng Wang, PhD; Leigh Goedeke, PhD; Sarah A. Stanley, PhD, and Prashant Rajbhandari, PhD, Icahn Mount Sinai, along with Douglas Arneson, PhD; In Sook Ahn, PhD; Graciel Diamante, PhD; Ingrid Cely, BS; Xia Yang, PhD, and Aldons J. Lusis, PhD, University of California, Los Angeles; Alessia Centonze, PhD, and Cédric Blanpain, PhD, Université Libre de Bruxelles; Noble Kumar Talari, PhD, and Karthickeyan Chella Krishnan, PhD, University of Cincinnati College of Medicine, plus Atul J. Butte, PhD, University of California, San Francisco.

Dr. Rajbhandari is supported by The Icahn School of Medicine at Mount Sinai Seed Fund, DK114571, NIDDK-supported Einstein-Sinai Diabetes Research Center (DRC) Pilot & Feasibility Award, and Diabetes Action Research and Education Foundation (DREF) Grant #501. The funders had no role in study design, data collection and interpretation, or the decision to submit the work for publication.

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