Small molecules block the polymerisation of Z α1-antitrypsin and increase the clearance of intracellular aggregates
The Z mutant of α 1 -antitrypsin (Glu342Lys) causes a domain-swap and the formation of intrahepatic polymers that aggregate as inclusions and predispose the homozygote to cirrhosis. We have identified an allosteric cavity that is distinct from the interface involved in polymerisation for rational st...
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| Veröffentlicht in: | Journal of medicinal chemistry 2007-10, Vol.50 (22), p.5357-5363 |
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| container_title | Journal of medicinal chemistry |
| container_volume | 50 |
| creator | Mallya, Meera Phillips, Russell L. Saldanha, S. Adrian Gooptu, Bibek Leigh Brown, Sarah C. Termine, Daniel J. Shirvani, Arash M. Wu, Ying Sifers, Richard N. Abagyan, Ruben Lomas, David A |
| description | The Z mutant of α
1
-antitrypsin (Glu342Lys) causes a domain-swap and the formation of intrahepatic polymers that aggregate as inclusions and predispose the homozygote to cirrhosis. We have identified an allosteric cavity that is distinct from the interface involved in polymerisation for rational structure-based drug design to block polymer formation. Virtual ligand screening was performed on 1.2 million small molecules and 6 compounds were identified that reduced polymer formation
in vitro
. Modelling the effects of ligand binding on the cavity and re-screening the library identified an additional 10 compounds that completely blocked polymerisation. The best antagonists were effective at ratios of compound to Z α
1
-antitrypsin of 2.5:1 and reduced the intracellular accumulation of Z α
1
-antitrypsin by 70% in a cell model of disease. Identifying small molecules provides a novel therapy for the treatment of liver disease associated with the Z allele of α
1
-antitrypsin. |
| doi_str_mv | 10.1021/jm070687z |
| format | Article |
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1
-antitrypsin (Glu342Lys) causes a domain-swap and the formation of intrahepatic polymers that aggregate as inclusions and predispose the homozygote to cirrhosis. We have identified an allosteric cavity that is distinct from the interface involved in polymerisation for rational structure-based drug design to block polymer formation. Virtual ligand screening was performed on 1.2 million small molecules and 6 compounds were identified that reduced polymer formation
in vitro
. Modelling the effects of ligand binding on the cavity and re-screening the library identified an additional 10 compounds that completely blocked polymerisation. The best antagonists were effective at ratios of compound to Z α
1
-antitrypsin of 2.5:1 and reduced the intracellular accumulation of Z α
1
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in vitro
. Modelling the effects of ligand binding on the cavity and re-screening the library identified an additional 10 compounds that completely blocked polymerisation. The best antagonists were effective at ratios of compound to Z α
1
-antitrypsin of 2.5:1 and reduced the intracellular accumulation of Z α
1
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1
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in vitro
. Modelling the effects of ligand binding on the cavity and re-screening the library identified an additional 10 compounds that completely blocked polymerisation. The best antagonists were effective at ratios of compound to Z α
1
-antitrypsin of 2.5:1 and reduced the intracellular accumulation of Z α
1
-antitrypsin by 70% in a cell model of disease. Identifying small molecules provides a novel therapy for the treatment of liver disease associated with the Z allele of α
1
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| ispartof | Journal of medicinal chemistry, 2007-10, Vol.50 (22), p.5357-5363 |
| issn | 0022-2623 1520-4804 |
| language | eng |
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| source | American Chemical Society Publications |
| title | Small molecules block the polymerisation of Z α1-antitrypsin and increase the clearance of intracellular aggregates |
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