Selected Non-steroidal Anti-inflammatory Drugs and Their Derivatives Target γ-Secretase at a Novel Site

Beher, Dirk; Clarke, Earl E.; Wrigley, Jonathan D.J.; Martin, Agnés C. L.; Nadin, Alan; Churcher, Ian; Shearman, Mark S.

doi:10.1074/jbc.m404937200

Cited by 185 publications

(184 citation statements)

References 48 publications

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“…NSAIDs modulate the cleavage site positions of SPP and ␥-secretase on their substrates without inhibiting enzyme activity, and it therefore seems likely that they affect the active site indirectly, if at all. Consistent with this, it was reported that displacement of [ 3 H]L-685,458 by NSAIDs from ␥-secretase is noncompetitive (18,37). We showed that noncompetitive displacement of [ 3 H]L-685,458 by sulindac sulfide also occurred for SPP (Fig.…”

Section: Discussionsupporting

confidence: 90%

“…If so, the presence of SPP might account for the incomplete displacement of [ 3 H]L-685,458 observed for selective ␥-secretase inhibitors (18), thus calling into question the conclusion that the catalytic active site and the allosteric binding site are present in a 2:1 molar ratio (18). Furthermore, it seems likely that earlier studies of this radioligand in whole cell extracts may have detected predominantly SPP binding rather than ␥-secretase binding (17,37 From the drug discovery perspective, similar pharmacology between ␥-secretase and SPP suggests the potential for off-target liabilities. Additional studies would be needed to understand to what extent inhibitor binding affects enzyme function in vivo and to determine what consequences, if any, would arise from dosing a nonselective drug.…”

Section: Discussionmentioning

confidence: 99%

“…To address this question, we utilized an active site-directed ␥-secretase radioligand (17,18,37) and took advantage of our finding that it binds with high affinity to both SPP and ␥-secretase. In the course of this study, we found that SPP family protein binding is abundant in cell homogenates, presenting a challenge to the evaluation of ␥-secretase and SPP binding under these conditions.…”

mentioning

confidence: 99%

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Signal Peptide Peptidase and γ-Secretase Share Equivalent Inhibitor Binding Pharmacology

Iben¹,

Olson²,

Balanda

et al. 2007

Journal of Biological Chemistry

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The enzyme ␥-secretase has long been considered a potential pharmaceutical target for Alzheimer disease. Presenilin (the catalytic subunit of ␥-secretase) and signal peptide peptidase (SPP) are related transmembrane aspartyl proteases that cleave transmembrane substrates. SPP and ␥-secretase are pharmacologically similar in that they are targeted by many of the same small molecules, including transition state analogs, non-transition state inhibitors, and amyloid ␤-peptide modulators. One difference between presenilin and SPP is that the proteolytic activity of presenilin functions only within a multisubunit complex, whereas SPP requires no additional protein cofactors for activity. In this study, ␥-secretase inhibitor radioligands were used to evaluate SPP and ␥-secretase inhibitor binding pharmacology. We found that the SPP enzyme exhibited distinct binding sites for transition state analogs, non-transition state inhibitors, and the nonsteroidal anti-inflammatory drug sulindac sulfide, analogous to those reported previously for ␥-secretase. In the course of this study, cultured cells were found to contain an abundance of SPP binding activity, most likely contributed by several of the SPP family proteins. The number of SPP binding sites was in excess of ␥-secretase binding sites, making it essential to use selective radioligands for evaluation of ␥-secretase binding under these conditions. This study provides further support for the idea that SPP is a useful model of inhibitory mechanisms and structure in the SPP/presenilin protein family.

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Section: Discussionsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Signal Peptide Peptidase and γ-Secretase Share Equivalent Inhibitor Binding Pharmacology

Iben¹,

Olson²,

Balanda

et al. 2007

Journal of Biological Chemistry

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“…DFK167 and sulindac sulfide are thought to shift the predominant cleavage site, probably through allosteric effects induced by direct PS binding (38,47,50,51). Several of our observations suggest that the effects of PS1 mutations and the allosteric effects of ␥-secretase inhibitors are likely to be tightly related, and we speculate that these effects might even be mediated by a shared mechanism.…”

Section: Discussionmentioning

confidence: 68%

Random Mutagenesis of Presenilin-1 Identifies Novel Mutants Exclusively Generating Long Amyloid β-Peptides

Nakaya

Yamane

Shiraishi

et al. 2005

Journal of Biological Chemistry

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Familial Alzheimer disease-causing mutations in the presenilins increase production of longer pathogenic amyloid ␤-peptides (A␤ 42/43 ) by altering ␥-secretase activity. The mechanism underlying this effect remains unknown, although it has been proposed that heteromeric macromolecular complexes containing presenilins mediate ␥-secretase cleavage of the amyloid ␤-precursor protein. Using a random mutagenesis screen of presenilin-1 (PS1) for PS1 endoproteolysis-impairing mutations, we identified five unique mutants, including R278I-PS1 and L435H-PS1, that exclusively generated a high level of A␤ 43 , but did not support physiological PS1 endoproteolysis or A␤ 40 generation. These mutants did not measurably alter the molecular size or subcellular localization of PS1 complexes. Pharmacological studies indicated that the up-regulation of activity for A␤ 43 generation by these mutations was not further enhanced by the difluoroketone inhibitor DFK167 and was refractory to inhibition by sulindac sulfide. These results suggest that PS1 mutations can lead to a wide spectrum of changes in the activity and specificity of ␥-secretase and that the effects of PS1 mutations and ␥-secretase inhibitors on the specificity are mediated through a common mechanism.

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“…Compounds, like the sterols that naturally intercalate within the lipid bilayer, are known to affect many membrane functions. Recently, many investigators have reported that a class of polycyclic compounds known as nonsteroidal antiinflammatory drugs (NSAIDS) block the production of A␤ peptides in animals models of AD and cultured cells (37)(38)(39). It has been claimed that NSAIDS block A␤ production by affecting the conformation of PS1 (40), but it is also conceivable that NSAIDS might in some way modify interactions between intramembranous peptide segments.…”

Section: Discussionmentioning

confidence: 99%

An alternative interpretation of the amyloid Aβ hypothesis with regard to the pathogenesis of Alzheimer's disease

Marchesi

2005

Proc. Natl. Acad. Sci. U.S.A.

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Alzheimer's disease is a complex neurodegenerative process that is believed to be due to the accumulation of short, hydrophobic peptides derived from amyloid precursor proteins by proteolytic cleavage. It is widely believed that these A␤ peptides are secreted into the extracellular spaces of the CNS, where they assemble into toxic oligomers that kill neurons and eventually form deposits of senile plaques. This essay explores the possibility that a fraction of these A␤ peptides never leave the membrane lipid bilayer after they are generated, but instead exert their toxic effects by competing with and compromising the functions of intramembranous segments of membrane-bound proteins that serve many critical functions. Based on the presence of shared amino acid sequences containing GxxG motifs, I speculate that accumulations of intramembranous A␤ peptides might affect the functions of amyloid precursor protein itself and the assembly of the PS1, Aph1, Pen 2, Nicastrin complex.

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Selected Non-steroidal Anti-inflammatory Drugs and Their Derivatives Target γ-Secretase at a Novel Site

Cited by 185 publications

References 48 publications

Signal Peptide Peptidase and γ-Secretase Share Equivalent Inhibitor Binding Pharmacology

Signal Peptide Peptidase and γ-Secretase Share Equivalent Inhibitor Binding Pharmacology

Random Mutagenesis of Presenilin-1 Identifies Novel Mutants Exclusively Generating Long Amyloid β-Peptides

An alternative interpretation of the amyloid Aβ hypothesis with regard to the pathogenesis of Alzheimer's disease

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