Pharmacological inhibition of glucosylceramide synthase enhances insulin sensitivity
Pharmacological inhibition of glucosylceramide synthase enhances insulin sensitivity
A growing body of evidence implicates ceramide and/or its glycosphingolipid metabolites in the pathogenesis of insulin resistance. We have developed a highly specific small molecule inhibitor of glucosylceramide synthase, an enzyme that catalyzes a necessary step in the conversion of ceramide to glycosphingolipids. In cultured 3T3-L1 adipocytes, the iminosugar derivative N-(5′-adamantane-1′-yl-methoxy)-pentyl-1-deoxynojirimycin (AMP-DNM) counteracted tumor necrosis factor-α-induced abnormalities in glycosphingolipid concentrations and concomitantly reversed abnormalities in insulin signal transduction. When administered to mice and rats, AMP-DNM significantly reduced glycosphingolipid but not ceramide concentrations in various tissues. Treatment of ob/ob mice with AMP-DNM normalized their elevated tissue glucosylceramide levels, markedly lowered circulating glucose levels, improved oral glucose tolerance, reduced A1C, and improved insulin sensitivity in muscle and liver. Similarly beneficial metabolic effects were seen in high fat-fed mice and ZDF rats. These findings provide further evidence that glycosphingolipid metabolites of ceramide may be involved in mediating the link between obesity and insulin resistance and that interference with glycosphingolipid biosynthesis might present a novel approach to the therapy of states of impaired insulin action such as type 2 diabetes.
1341-1349
Aerts, Johannes M.
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Ottenhoff, Roelof
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Powlson, Andrew S.
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Grefhorst, Aldo
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Van Eijk, Marco
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Dubbelhuis, Peter F.
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Aten, Jan
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Kuipers, Folkert
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Serlie, Mireille J.
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Wennekes, Tom
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Sethi, Jaswinder K.
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O'Rahilly, Stephen
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Overkleeft, Hermen S.
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May 2007
Aerts, Johannes M.
9485d0b6-27b0-442e-9739-269142c82e43
Ottenhoff, Roelof
18e9d85a-7e89-4d67-9acd-015b503de1f0
Powlson, Andrew S.
f2ffbd26-a940-45ca-930d-d5f06775a432
Grefhorst, Aldo
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Van Eijk, Marco
3f659501-136b-4bd9-84d6-b8d5df2daf6a
Dubbelhuis, Peter F.
352a54ee-321e-44c7-a89d-aedb1ffed434
Aten, Jan
187e3488-3fb4-4eb7-9937-6ce55e2170af
Kuipers, Folkert
a34eba3e-a731-4203-8f78-7e527cf74dd4
Serlie, Mireille J.
ea457482-8210-4b4c-985c-ad645800bfec
Wennekes, Tom
f94b7462-6e30-4df0-8319-658ca4ad06b4
Sethi, Jaswinder K.
923f1a81-91e4-46cd-8853-bb4a979f5a85
O'Rahilly, Stephen
e5c7869f-10d1-4fdc-a564-e4907be415a3
Overkleeft, Hermen S.
6a889849-2be4-4925-a4d2-f3602db474a3
Aerts, Johannes M., Ottenhoff, Roelof, Powlson, Andrew S., Grefhorst, Aldo, Van Eijk, Marco, Dubbelhuis, Peter F., Aten, Jan, Kuipers, Folkert, Serlie, Mireille J., Wennekes, Tom, Sethi, Jaswinder K., O'Rahilly, Stephen and Overkleeft, Hermen S.
(2007)
Pharmacological inhibition of glucosylceramide synthase enhances insulin sensitivity.
Diabetes, 56 (5), .
(doi:10.2337/db06-1619).
Abstract
A growing body of evidence implicates ceramide and/or its glycosphingolipid metabolites in the pathogenesis of insulin resistance. We have developed a highly specific small molecule inhibitor of glucosylceramide synthase, an enzyme that catalyzes a necessary step in the conversion of ceramide to glycosphingolipids. In cultured 3T3-L1 adipocytes, the iminosugar derivative N-(5′-adamantane-1′-yl-methoxy)-pentyl-1-deoxynojirimycin (AMP-DNM) counteracted tumor necrosis factor-α-induced abnormalities in glycosphingolipid concentrations and concomitantly reversed abnormalities in insulin signal transduction. When administered to mice and rats, AMP-DNM significantly reduced glycosphingolipid but not ceramide concentrations in various tissues. Treatment of ob/ob mice with AMP-DNM normalized their elevated tissue glucosylceramide levels, markedly lowered circulating glucose levels, improved oral glucose tolerance, reduced A1C, and improved insulin sensitivity in muscle and liver. Similarly beneficial metabolic effects were seen in high fat-fed mice and ZDF rats. These findings provide further evidence that glycosphingolipid metabolites of ceramide may be involved in mediating the link between obesity and insulin resistance and that interference with glycosphingolipid biosynthesis might present a novel approach to the therapy of states of impaired insulin action such as type 2 diabetes.
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e-pub ahead of print date: 7 February 2007
Published date: May 2007
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Local EPrints ID: 415300
URI: http://eprints.soton.ac.uk/id/eprint/415300
ISSN: 0012-1797
PURE UUID: 3e41c0a0-b2f8-4feb-b1d0-b4ef988e3718
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Date deposited: 07 Nov 2017 17:30
Last modified: 16 Mar 2024 04:31
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Author:
Johannes M. Aerts
Author:
Roelof Ottenhoff
Author:
Andrew S. Powlson
Author:
Aldo Grefhorst
Author:
Marco Van Eijk
Author:
Peter F. Dubbelhuis
Author:
Jan Aten
Author:
Folkert Kuipers
Author:
Mireille J. Serlie
Author:
Tom Wennekes
Author:
Stephen O'Rahilly
Author:
Hermen S. Overkleeft
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