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Understanding multivalent effects in glycosidase inhibition using -glycoside click clusters as molecular probes
The synthesis of the first examples of multivalent C -glycosides based on C 60 -fullerene or -cyclodextrin cores by way of Cu( i )-catalyzed azidealkyne cycloadditions is reported. These compounds were designed as molecular probes to understand the mechanisms underlying the outstanding multivalent e...
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| Published in: | New journal of chemistry 2016-08, Vol.4 (9), p.7421-743 |
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| Main Authors: | , , , , , , |
| Format: | Article |
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| container_end_page | 743 |
| container_issue | 9 |
| container_start_page | 7421 |
| container_title | New journal of chemistry |
| container_volume | 4 |
| creator | Stauffert, Fabien Bodlenner, Anne Nguyet Trinh, Thi Minh Garca-Moreno, M. Isabel Ortiz Mellet, Carmen Nierengarten, Jean-Franois Compain, Philippe |
| description | The synthesis of the first examples of multivalent
C
-glycosides based on C
60
-fullerene or -cyclodextrin cores by way of Cu(
i
)-catalyzed azidealkyne cycloadditions is reported. These compounds were designed as molecular probes to understand the mechanisms underlying the outstanding multivalent effects observed in glycosidase inhibition. The inhibition results obtained support a multivalent-binding model based on two scenarios both involving nonspecific interactions and varying by the presence or the absence of active site specific interactions. The magnitude of the multivalent effect obtained depends on the identity of the glycosidase involved and more specifically on the accessibility of its catalytic active site. Large inhibitory multivalent effects can be obtained when both glycosidase active sites and non-catalytic sites at the protein surface are involved in binding events. On the other hand, nonspecific interactions alone are not sufficient to achieve relative affinity enhancements exceeding a simple statistical effect (
i.e.
, a relative inhibition potency not better than one on a valence-corrected basis).
Multivalent
C
-glycosides based on C
60
or -cyclodextrin cores were designed to probe the influence of inhitopes in glycosidase binding events. |
| doi_str_mv | 10.1039/c6nj01311b |
| format | article |
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C
-glycosides based on C
60
-fullerene or -cyclodextrin cores by way of Cu(
i
)-catalyzed azidealkyne cycloadditions is reported. These compounds were designed as molecular probes to understand the mechanisms underlying the outstanding multivalent effects observed in glycosidase inhibition. The inhibition results obtained support a multivalent-binding model based on two scenarios both involving nonspecific interactions and varying by the presence or the absence of active site specific interactions. The magnitude of the multivalent effect obtained depends on the identity of the glycosidase involved and more specifically on the accessibility of its catalytic active site. Large inhibitory multivalent effects can be obtained when both glycosidase active sites and non-catalytic sites at the protein surface are involved in binding events. On the other hand, nonspecific interactions alone are not sufficient to achieve relative affinity enhancements exceeding a simple statistical effect (
i.e.
, a relative inhibition potency not better than one on a valence-corrected basis).
Multivalent
C
-glycosides based on C
60
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C
-glycosides based on C
60
-fullerene or -cyclodextrin cores by way of Cu(
i
)-catalyzed azidealkyne cycloadditions is reported. These compounds were designed as molecular probes to understand the mechanisms underlying the outstanding multivalent effects observed in glycosidase inhibition. The inhibition results obtained support a multivalent-binding model based on two scenarios both involving nonspecific interactions and varying by the presence or the absence of active site specific interactions. The magnitude of the multivalent effect obtained depends on the identity of the glycosidase involved and more specifically on the accessibility of its catalytic active site. Large inhibitory multivalent effects can be obtained when both glycosidase active sites and non-catalytic sites at the protein surface are involved in binding events. On the other hand, nonspecific interactions alone are not sufficient to achieve relative affinity enhancements exceeding a simple statistical effect (
i.e.
, a relative inhibition potency not better than one on a valence-corrected basis).
Multivalent
C
-glycosides based on C
60
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C
-glycosides based on C
60
-fullerene or -cyclodextrin cores by way of Cu(
i
)-catalyzed azidealkyne cycloadditions is reported. These compounds were designed as molecular probes to understand the mechanisms underlying the outstanding multivalent effects observed in glycosidase inhibition. The inhibition results obtained support a multivalent-binding model based on two scenarios both involving nonspecific interactions and varying by the presence or the absence of active site specific interactions. The magnitude of the multivalent effect obtained depends on the identity of the glycosidase involved and more specifically on the accessibility of its catalytic active site. Large inhibitory multivalent effects can be obtained when both glycosidase active sites and non-catalytic sites at the protein surface are involved in binding events. On the other hand, nonspecific interactions alone are not sufficient to achieve relative affinity enhancements exceeding a simple statistical effect (
i.e.
, a relative inhibition potency not better than one on a valence-corrected basis).
Multivalent
C
-glycosides based on C
60
or -cyclodextrin cores were designed to probe the influence of inhitopes in glycosidase binding events.</abstract><doi>10.1039/c6nj01311b</doi><tpages>1</tpages></addata></record> |
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| identifier | ISSN: 1144-0546 |
| ispartof | New journal of chemistry, 2016-08, Vol.4 (9), p.7421-743 |
| issn | 1144-0546 1369-9261 |
| language | |
| recordid | cdi_rsc_primary_c6nj01311b |
| source | Royal Society of Chemistry |
| title | Understanding multivalent effects in glycosidase inhibition using -glycoside click clusters as molecular probes |
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