The Chemical Basis of Serine Palmitoyltransferase Inhibition by Myriocin

Sphingolipids (SLs) are essential components of cellular membranes formed from the condensation of l-serine and a long-chain acyl thioester. This first step is catalyzed by the pyridoxal-5′-phosphate (PLP)-dependent enzyme serine palmitoyltransferase (SPT) which is a promising therapeutic target. Th...

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Veröffentlicht in:	Journal of the American Chemical Society 2013-09, Vol.135 (38), p.14276-14285
Hauptverfasser:	Wadsworth, John M, Clarke, David J, McMahon, Stephen A, Lowther, Jonathan P, Beattie, Ashley E, Langridge-Smith, Pat R. R, Broughton, Howard B, Dunn, Teresa M, Naismith, James H, Campopiano, Dominic J
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Sprache:	eng
Schlagworte:	Crystallography, X-Ray Fatty Acids, Monounsaturated - chemistry Kinetics Mutation Recombinant Proteins - chemistry Serine C-Palmitoyltransferase - antagonists & inhibitors Serine C-Palmitoyltransferase - chemistry Serine C-Palmitoyltransferase - genetics Sphingomonas - enzymology Sphingomonas - genetics
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container_end_page	14285
container_issue	38
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container_title	Journal of the American Chemical Society
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creator	Wadsworth, John M Clarke, David J McMahon, Stephen A Lowther, Jonathan P Beattie, Ashley E Langridge-Smith, Pat R. R Broughton, Howard B Dunn, Teresa M Naismith, James H Campopiano, Dominic J
description	Sphingolipids (SLs) are essential components of cellular membranes formed from the condensation of l-serine and a long-chain acyl thioester. This first step is catalyzed by the pyridoxal-5′-phosphate (PLP)-dependent enzyme serine palmitoyltransferase (SPT) which is a promising therapeutic target. The fungal natural product myriocin is a potent inhibitor of SPT and is widely used to block SL biosynthesis despite a lack of a detailed understanding of its molecular mechanism. By combining spectroscopy, mass spectrometry, X-ray crystallography, and kinetics, we have characterized the molecular details of SPT inhibition by myriocin. Myriocin initially forms an external aldimine with PLP at the active site, and a structure of the resulting co-complex explains its nanomolar affinity for the enzyme. This co-complex then catalytically degrades via an unexpected ‘retro-aldol-like’ cleavage mechanism to a C18 aldehyde which in turn acts as a suicide inhibitor of SPT by covalent modification of the essential catalytic lysine. This surprising dual mechanism of inhibition rationalizes the extraordinary potency and longevity of myriocin inhibition.
doi_str_mv	10.1021/ja4059876
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Myriocin initially forms an external aldimine with PLP at the active site, and a structure of the resulting co-complex explains its nanomolar affinity for the enzyme. This co-complex then catalytically degrades via an unexpected ‘retro-aldol-like’ cleavage mechanism to a C18 aldehyde which in turn acts as a suicide inhibitor of SPT by covalent modification of the essential catalytic lysine. 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By combining spectroscopy, mass spectrometry, X-ray crystallography, and kinetics, we have characterized the molecular details of SPT inhibition by myriocin. Myriocin initially forms an external aldimine with PLP at the active site, and a structure of the resulting co-complex explains its nanomolar affinity for the enzyme. This co-complex then catalytically degrades via an unexpected ‘retro-aldol-like’ cleavage mechanism to a C18 aldehyde which in turn acts as a suicide inhibitor of SPT by covalent modification of the essential catalytic lysine. 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subjects	Crystallography, X-Ray Fatty Acids, Monounsaturated - chemistry Kinetics Mutation Recombinant Proteins - chemistry Serine C-Palmitoyltransferase - antagonists & inhibitors Serine C-Palmitoyltransferase - chemistry Serine C-Palmitoyltransferase - genetics Sphingomonas - enzymology Sphingomonas - genetics
title	The Chemical Basis of Serine Palmitoyltransferase Inhibition by Myriocin
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