Your search keyword '"Mendi A. Higgins"' showing total 1 results

1. Identification and Preclinical Pharmacology of the γ-Secretase Modulator BMS-869780

Author

Ramesh Padmanabha, Samuel Gerritz, Lorin A. Thompson, Joseph L. Cantone, Michele Agler, Dieter M. Drexler, Tracey Hall, David G. Harden, Rudy Krause, Charles F. Albright, Tatyana Zvyaga, Xiaoliang Zhuo, Victoria Wong, Jianliang Shi, Craig Polson, James E. Grace, Jeremy H. Toyn, Kim Esposito, Kimberly Snow, Valerie Guss, Maria Pierdomenico, John Morrison, Lawrence R. Marcin, Sam Varma, Jere E. Meredith, Cong Wei, Sethu Sankaranararyanan, John E. Macor, Mendi A. Higgins, Kimberley A. Lentz, Xu-Alan Lin, Joseph Raybon, Carol M. Krause, Michael K. Ahlijanian, Margaret M. Prack, Catherine R. Burton, Lawrence G. Iben, Richard E. Olson, Alan S. Robertson, Rex Denton, and Yingjie Zhu

Subjects

Aging, Article Subject, Cognitive Neuroscience, γ secretase modulator, Peptide, Pharmacology, lcsh:Geriatrics, lcsh:RC321-571, Behavioral Neuroscience, Cellular and Molecular Neuroscience, Pharmacokinetics, Medicine, Dementia, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, chemistry.chemical_classification, business.industry, Preclinical pharmacology, medicine.disease, Small molecule, lcsh:RC952-954.6, Enzyme, Neurology, chemistry, Pharmacodynamics, Neurology (clinical), business, Research Article

Abstract

Alzheimer’s disease is the most prevalent cause of dementia and is associated with accumulation of amyloid-βpeptide (Aβ), particularly the 42-amino acid Aβ1-42, in the brain. Aβ1-42 levels can be decreased byγ-secretase modulators (GSM), which are small molecules that modulateγ-secretase, an enzyme essential for Aβproduction. BMS-869780 is a potent GSM that decreased Aβ1-42 and Aβ1-40 and increased Aβ1-37 and Aβ1-38, without inhibiting overall levels of Aβpeptides or other APP processing intermediates. BMS-869780 also did not inhibit Notch processing byγ-secretase and lowered brain Aβ1-42 without evidence of Notch-related side effects in rats. Human pharmacokinetic (PK) parameters were predicted through allometric scaling of PK in rat, dog, and monkey and were combined with the rat pharmacodynamic (PD) parameters to predict the relationship between BMS-869780 dose, exposure and Aβ1-42 levels in human. Off-target and safety margins were then based on comparisons to the predicted exposure required for robust Aβ1-42 lowering. Because of insufficient safety predictions and the relatively high predicted human daily dose of 700 mg, further evaluation of BMS-869780 as a potential clinical candidate was discontinued. Nevertheless, BMS-869780 demonstrates the potential of the GSM approach for robust lowering of brain Aβ1-42 without Notch-related side effects.

Published

2014