The crystal structure of human p38 mitogen-activated protein (MAP) kinase in complex with a potent and highly specific pyridinyl-imidazole inhibitor has been determined at 2.0 A resolution. The structure of the kinase, which is in its unphosphorylated state, is similar to that of the closely-related ERK2. The inhibitor molecule is bound in the ATP pocket. A hydrogen bond is made between the pyridyl nitrogen of the inhibitor and the main chain amido nitrogen of residue 109, analogous to the interaction from the N1 atom of ATP. The crystal structure provides possible explanations for the specificity of this class of inhibitors. Other protein kinase inhibitors may achieve their specificity through a similar mechanism. The structure also reveals a possible second binding site for this inhibitor, with currently unknown function.
Accumulation of lipofuscin in the
retina is associated with pathogenesis
of atrophic age-related macular degeneration and Stargardt disease.
Lipofuscin bisretinoids (exemplified by N-retinylidene-N-retinylethanolamine) seem to mediate lipofuscin toxicity.
Synthesis of lipofuscin bisretinoids depends on the influx of retinol
from serum to the retina. Compounds antagonizing the retinol-dependent
interaction of retinol-binding protein 4 (RBP4) with transthyretin
in the serum would reduce serum RBP4 and retinol and inhibit bisretinoid
formation. We recently showed that A1120 (3), a potent
carboxylic acid based RBP4 antagonist, can significantly reduce lipofuscin
bisretinoid formation in the retinas of Abca4–/– mice. As part of the NIH
Blueprint Neurotherapeutics Network project we undertook the in vitro exploration to identify novel conformationally flexible and constrained
RBP4 antagonists with improved potency and metabolic stability. We
also demonstrate that upon acute and chronic dosing in rats, 43, a potent cyclopentyl fused pyrrolidine antagonist, reduced
circulating plasma RBP4 protein levels by approximately 60%.
The specificity of the immune response relies on processing of foreign proteins and presentation of antigenic peptides at the cell surface. Inhibition of antigen presentation, and the subsequent activation of T-cells, should, in theory, modulate the immune response. The cysteine protease Cathepsin S performs a fundamental step in antigen presentation and therefore represents an attractive target for inhibition. Herein, we report a series of potent and reversible Cathepsin S inhibitors based on dipeptide nitriles. These inhibitors show nanomolar inhibition of the target enzyme as well as cellular potency in a human B cell line. The first X-ray crystal structure of a reversible inhibitor cocrystallized with Cathepsin S is also reported.
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