Prevention of Alzheimer's Disease-associated Aβ Aggregation by Rationally Designed Nonpeptidic β-Sheet Ligands
A new concept is introduced for the rational design of β-sheet ligands, which prevent protein aggregation. Oligomeric acylated aminopyrazoles with a donor-acceptor-donor (DAD) hydrogen bond pattern complementary to that of a β-sheet efficiently block the solvent-exposed β-sheet portions in Aβ-(1...
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| Veröffentlicht in: | The Journal of biological chemistry 2004-11, Vol.279 (46), p.47497 |
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| container_issue | 46 |
| container_start_page | 47497 |
| container_title | The Journal of biological chemistry |
| container_volume | 279 |
| creator | Petra Rzepecki Luitgard Nagel-Steger Sophie Feuerstein Uwe Linne Oliver Molt Reza Zadmard Katja Aschermann Markus Wehner Thomas Schrader Detlev Riesner |
| description | A new concept is introduced for the rational design of β-sheet ligands, which prevent protein aggregation. Oligomeric acylated
aminopyrazoles with a donor-acceptor-donor (DAD) hydrogen bond pattern complementary to that of a β-sheet efficiently block
the solvent-exposed β-sheet portions in Aβ-(1â40) and thereby prevent formation of insoluble protein aggregates. Density gradient
centrifugation revealed that in the initial phase, the size of Aβ aggregates was efficiently kept between the trimeric and
15-meric state, whereas after 5 days an additional high molecular weight fraction appeared. With fluorescence correlation
spectroscopy (FCS) exactly those two, i.e. a dimeric aminopyrazole with an oxalyl spacer and a trimeric head-to-tail connected aminopyrazole, of nine similar aminopyrazole
ligands were identified as efficient aggregation retardants whose minimum energy conformations showed a perfect complementarity
to a β-sheet. The concentration dependence of the inhibitory effect of a trimeric aminopyrazole derivative allowed an estimation
of the dissociation constant in the range of 10 â5 m . Finally, electrospray ionization mass spectrometry (ESI-MS) was used to determine the aggregation kinetics of Aβ-(1â40)
in the absence and in the presence of the ligands. From the comparable decrease in Aβ monomer concentration, we conclude that
these β-sheet ligands do not prevent the initial oligomerization of monomeric Aβ but rather block further aggregation of spontaneously
formed small oligomers. Together with the results from density gradient centrifugation and fluorescence correlation spectroscopy
it is now possible to restrict the approximate size of soluble Aβ aggregates formed in the presence of both inhibitors from
3- to 15-mers. |
| doi_str_mv | 10.1074/jbc.M405914200 |
| format | Article |
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aminopyrazoles with a donor-acceptor-donor (DAD) hydrogen bond pattern complementary to that of a β-sheet efficiently block
the solvent-exposed β-sheet portions in Aβ-(1â40) and thereby prevent formation of insoluble protein aggregates. Density gradient
centrifugation revealed that in the initial phase, the size of Aβ aggregates was efficiently kept between the trimeric and
15-meric state, whereas after 5 days an additional high molecular weight fraction appeared. With fluorescence correlation
spectroscopy (FCS) exactly those two, i.e. a dimeric aminopyrazole with an oxalyl spacer and a trimeric head-to-tail connected aminopyrazole, of nine similar aminopyrazole
ligands were identified as efficient aggregation retardants whose minimum energy conformations showed a perfect complementarity
to a β-sheet. The concentration dependence of the inhibitory effect of a trimeric aminopyrazole derivative allowed an estimation
of the dissociation constant in the range of 10 â5 m . Finally, electrospray ionization mass spectrometry (ESI-MS) was used to determine the aggregation kinetics of Aβ-(1â40)
in the absence and in the presence of the ligands. From the comparable decrease in Aβ monomer concentration, we conclude that
these β-sheet ligands do not prevent the initial oligomerization of monomeric Aβ but rather block further aggregation of spontaneously
formed small oligomers. Together with the results from density gradient centrifugation and fluorescence correlation spectroscopy
it is now possible to restrict the approximate size of soluble Aβ aggregates formed in the presence of both inhibitors from
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aminopyrazoles with a donor-acceptor-donor (DAD) hydrogen bond pattern complementary to that of a β-sheet efficiently block
the solvent-exposed β-sheet portions in Aβ-(1â40) and thereby prevent formation of insoluble protein aggregates. Density gradient
centrifugation revealed that in the initial phase, the size of Aβ aggregates was efficiently kept between the trimeric and
15-meric state, whereas after 5 days an additional high molecular weight fraction appeared. With fluorescence correlation
spectroscopy (FCS) exactly those two, i.e. a dimeric aminopyrazole with an oxalyl spacer and a trimeric head-to-tail connected aminopyrazole, of nine similar aminopyrazole
ligands were identified as efficient aggregation retardants whose minimum energy conformations showed a perfect complementarity
to a β-sheet. The concentration dependence of the inhibitory effect of a trimeric aminopyrazole derivative allowed an estimation
of the dissociation constant in the range of 10 â5 m . Finally, electrospray ionization mass spectrometry (ESI-MS) was used to determine the aggregation kinetics of Aβ-(1â40)
in the absence and in the presence of the ligands. From the comparable decrease in Aβ monomer concentration, we conclude that
these β-sheet ligands do not prevent the initial oligomerization of monomeric Aβ but rather block further aggregation of spontaneously
formed small oligomers. Together with the results from density gradient centrifugation and fluorescence correlation spectroscopy
it is now possible to restrict the approximate size of soluble Aβ aggregates formed in the presence of both inhibitors from
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aminopyrazoles with a donor-acceptor-donor (DAD) hydrogen bond pattern complementary to that of a β-sheet efficiently block
the solvent-exposed β-sheet portions in Aβ-(1â40) and thereby prevent formation of insoluble protein aggregates. Density gradient
centrifugation revealed that in the initial phase, the size of Aβ aggregates was efficiently kept between the trimeric and
15-meric state, whereas after 5 days an additional high molecular weight fraction appeared. With fluorescence correlation
spectroscopy (FCS) exactly those two, i.e. a dimeric aminopyrazole with an oxalyl spacer and a trimeric head-to-tail connected aminopyrazole, of nine similar aminopyrazole
ligands were identified as efficient aggregation retardants whose minimum energy conformations showed a perfect complementarity
to a β-sheet. The concentration dependence of the inhibitory effect of a trimeric aminopyrazole derivative allowed an estimation
of the dissociation constant in the range of 10 â5 m . Finally, electrospray ionization mass spectrometry (ESI-MS) was used to determine the aggregation kinetics of Aβ-(1â40)
in the absence and in the presence of the ligands. From the comparable decrease in Aβ monomer concentration, we conclude that
these β-sheet ligands do not prevent the initial oligomerization of monomeric Aβ but rather block further aggregation of spontaneously
formed small oligomers. Together with the results from density gradient centrifugation and fluorescence correlation spectroscopy
it is now possible to restrict the approximate size of soluble Aβ aggregates formed in the presence of both inhibitors from
3- to 15-mers.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>15322133</pmid><doi>10.1074/jbc.M405914200</doi></addata></record> |
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| ispartof | The Journal of biological chemistry, 2004-11, Vol.279 (46), p.47497 |
| issn | 0021-9258 1083-351X |
| language | eng |
| recordid | cdi_highwire_biochem_279_46_47497 |
| source | Alma/SFX Local Collection; EZB Electronic Journals Library |
| title | Prevention of Alzheimer's Disease-associated Aβ Aggregation by Rationally Designed Nonpeptidic β-Sheet Ligands |
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