| Literature DB >> 25066137 |
Matthew F Calabrese1, Francis Rajamohan1, Melissa S Harris1, Nicole L Caspers1, Rachelle Magyar1, Jane M Withka1, Hong Wang1, Kris A Borzilleri1, Parag V Sahasrabudhe1, Lise R Hoth1, Kieran F Geoghegan1, Seungil Han1, Janice Brown1, Timothy A Subashi1, Allan R Reyes2, Richard K Frisbie1, Jessica Ward2, Russell A Miller2, James A Landro2, Allyn T Londregan1, Philip A Carpino2, Shawn Cabral1, Aaron C Smith1, Edward L Conn1, Kimberly O Cameron2, Xiayang Qiu1, Ravi G Kurumbail3.
Abstract
AMP-activated protein kinase (AMPK) is a principal metabolic regulator affecting growth and response to cellular stress. Comprised of catalytic and regulatory subunits, each present in multiple forms, AMPK is best described as a family of related enzymes. In recent years, AMPK has emerged as a desirable target for modulation of numerous diseases, yet clinical therapies remain elusive. Challenges result, in part, from an incomplete understanding of the structure and function of full-length heterotrimeric complexes. In this work, we provide the full-length structure of the widely expressed α1β1γ1 isoform of mammalian AMPK, along with detailed kinetic and biophysical characterization. We characterize binding of the broadly studied synthetic activator A769662 and its analogs. Our studies follow on the heels of the recent disclosure of the α2β1γ1 structure and provide insight into the distinct molecular mechanisms of AMPK regulation by AMP and A769662.Entities:
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Year: 2014 PMID: 25066137 DOI: 10.1016/j.str.2014.06.009
Source DB: PubMed Journal: Structure ISSN: 0969-2126 Impact factor: 5.006