Your search keyword '"Eastham-Anderson, Jeff"' showing total 2 results

1. Glucagon Couples Hepatic Amino Acid Catabolism to mTOR-Dependent Regulation of α-Cell Mass.

Author

Solloway MJ, Madjidi A, Gu C, Eastham-Anderson J, Clarke HJ, Kljavin N, Zavala-Solorio J, Kates L, Friedman B, Brauer M, Wang J, Fiehn O, Kolumam G, Stern H, Lowe JB, Peterson AS, and Allan BB

Subjects

Animals, Cell Proliferation, Metabolism, Mice, Signal Transduction, Amino Acids metabolism, Glucagon metabolism, Liver cytology, Liver metabolism, TOR Serine-Threonine Kinases metabolism

Abstract

Understanding the regulation of islet cell mass has important implications for the discovery of regenerative therapies for diabetes. The liver plays a central role in metabolism and the regulation of endocrine cell number, but liver-derived factors that regulate α-cell and β-cell mass remain unidentified. We propose a nutrient-sensing circuit between liver and pancreas in which glucagon-dependent control of hepatic amino acid metabolism regulates α-cell mass. We found that glucagon receptor inhibition reduced hepatic amino acid catabolism, increased serum amino acids, and induced α-cell proliferation in an mTOR-dependent manner. In addition, mTOR inhibition blocked amino-acid-dependent α-cell replication ex vivo and enabled conversion of α-cells into β-like cells in vivo. Serum amino acids and α-cell proliferation were increased in neonatal mice but fell throughout postnatal development in a glucagon-dependent manner. These data reveal that amino acids act as sensors of glucagon signaling and can function as growth factors that increase α-cell proliferation., (Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2015

2. Castration-resistant Lgr5(+) cells are long-lived stem cells required for prostatic regeneration.

Author

Wang BE, Wang X, Long JE, Eastham-Anderson J, Firestein R, and Junttila MR

Subjects

Androgens pharmacology, Animals, Cell Lineage, Cells, Cultured, Immunohistochemistry, Male, Mice, Mice, Nude, Orchiectomy, Prostate cytology, Prostate pathology, Rats, Rats, Sprague-Dawley, Regeneration drug effects, Stem Cells cytology, Testosterone pharmacology, Prostate metabolism, Receptors, G-Protein-Coupled metabolism, Stem Cells metabolism

Abstract

The adult prostate possesses a significant regenerative capacity that is of great interest for understanding adult stem cell biology. We demonstrate that leucine-rich repeat-containing G protein-coupled receptor 5 (Lgr5) is expressed in a rare population of prostate epithelial progenitor cells, and a castration-resistant Lgr5(+) population exists in regressed prostate tissue. Genetic lineage tracing revealed that Lgr5(+) cells and their progeny are primarily luminal. Lgr5(+) castration-resistant cells are long lived and upon regeneration, both luminal Lgr5(+) cells and basal Lgr5(+) cells expand. Moreover, single Lgr5(+) cells can generate multilineage prostatic structures in renal transplantation assays. Additionally, Lgr5(+) cell depletion revealed that the regenerative potential of the castrated adult prostate depends on Lgr5(+) cells. Together, these data reveal insights into the cellular hierarchy of castration-resistant Lgr5+ cells, indicate a requirement for Lgr5(+) cells during prostatic regeneration, and identify an Lgr5(+) adult stem cell population in the prostate., (Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2015