So Young Jun scite author profile

Hutchinson-Gilford progeria syndrome (HGPS) is a rare autosomal dominant genetic disease that is caused by a silent mutation of the LMNA gene encoding lamins A and C (lamin A/C). The G608G mutation generates a more accessible splicing donor site than does WT and produces an alternatively spliced product of LMNA called progerin, which is also expressed in normal aged cells. In this study, we determined that progerin binds directly to lamin A/C and induces profound nuclear aberrations. Given this observation, we performed a random screening of a chemical library and identified 3 compounds (JH1, JH4, and JH13) that efficiently block progerin-lamin A/C binding. These 3 chemicals, particularly JH4, alleviated nuclear deformation and reversed senescence markers characteristic of HGPS cells, including growth arrest and senescence-associated β-gal (SA-β-gal) activity. We then used microarray-based analysis to demonstrate that JH4 is able to rescue defects of cell-cycle progression in both HGPS and aged cells. Furthermore, administration of JH4 to LmnaG609G/G609G-mutant mice, which phenocopy human HGPS, resulted in a marked improvement of several progeria phenotypes and an extended lifespan. Together, these findings indicate that specific inhibitors with the ability to block pathological progerin-lamin A/C binding may represent a promising strategy for improving lifespan and health in both HGPS and normal aging.

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Crystal structures of a meta‐cleavage product hydrolase from Pseudomonas fluorescens IP01 (CumD) complexed with cleavage products

Fushinobu

Saku

Hidaka

et al. 2002

Protein Science

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Abstract2-Hydroxy-6-oxo-7-methylocta-2,4-dienoate hydrolase (CumD) from Pseudomonas fluorescens IP01 hydrolyzes a meta-cleavage product generated in the cumene (isopropylbenzene) degradation pathway. The crystal structures of the inactive S103A mutant of the CumD enzyme complexed with isobutyrate and acetate ions were determined at 1.6 and 2.0 Å resolution, respectively. The isobutyrate and acetate ions were located at the same position in the active site, and occupied the site for a part of the hydrolysis product with CumD, which has the key determinant group for the substrate specificity of related hydrolases. One of the oxygen atoms of the carboxyl group of the isobutyrate ion was hydrogen bonded with a water molecule and His252. Another oxygen atom of the carboxyl group was situated in an oxyanion hole formed by the two main-chain N atoms. The isopropyl group of the isobutyric acid was recognized by the side-chains of the hydrophobic residues. The substrate-binding pocket of CumD was long, and the inhibition constants of various organic acids corresponded well to it. In comparison with the structure of BphD from Rhodococcus sp. RHA1, the structural basis for the substrate specificity of related hydrolases, is revealed.

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A Series of Crystal Structures of ameta-Cleavage Product Hydrolase fromPseudomonas fluorescensIP01 (CumD) Complexed with Various Cleavage Products

Fushinobu

Jun

Hidaka

et al. 2005

Bioscience, Biotechnology, and Biochemistry

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So Young Jun

Comparison of several methods for effective lipid extraction from microalgae

Selection of microalgae for lipid production under high levels carbon dioxide

Interruption of progerin–lamin A/C binding ameliorates Hutchinson-Gilford progeria syndrome phenotype

Crystal structures of a meta‐cleavage product hydrolase from Pseudomonas fluorescens IP01 (CumD) complexed with cleavage products

A Series of Crystal Structures of ameta-Cleavage Product Hydrolase fromPseudomonas fluorescensIP01 (CumD) Complexed with Various Cleavage Products

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