Literature DB >> 33398110

Progerinin, an optimized progerin-lamin A binding inhibitor, ameliorates premature senescence phenotypes of Hutchinson-Gilford progeria syndrome.

So-Mi Kang1, Min-Ho Yoon1, Jinsook Ahn2, Ji-Eun Kim3, So Young Kim4, Seock Yong Kang4, Jeongmin Joo4, Soyoung Park1, Jung-Hyun Cho1, Tae-Gyun Woo1, Ah-Young Oh1, Kyu Jin Chung3, So Yon An5, Tae Sung Hwang5, Soo Yong Lee6, Jeong-Su Kim6, Nam-Chul Ha2, Gyu-Yong Song3, Bum-Joon Park7.   

Abstract

Previous work has revealed that progerin-lamin A binding inhibitor (JH4) can ameliorate pathological features of Hutchinson-Gilford progeria syndrome (HGPS) such as nuclear deformation, growth suppression in patient's cells, and very short life span in an in vivo mouse model. Despite its favorable effects, JH4 is rapidly eliminated in in vivo pharmacokinetic (PK) analysis. Thus, we improved its property through chemical modification and obtained an optimized drug candidate, Progerinin (SLC-D011). This chemical can extend the life span of LmnaG609G/G609G mouse for about 10 weeks and increase its body weight. Progerinin can also extend the life span of LmnaG609G/+ mouse for about 14 weeks via oral administration, whereas treatment with lonafarnib (farnesyl-transferase inhibitor) can only extend the life span of LmnaG609G/+ mouse for about two weeks. In addition, progerinin can induce histological and physiological improvement in LmnaG609G/+ mouse. These results indicate that progerinin is a strong drug candidate for HGPS.

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Year:  2021        PMID: 33398110      PMCID: PMC7782499          DOI: 10.1038/s42003-020-01540-w

Source DB:  PubMed          Journal:  Commun Biol        ISSN: 2399-3642


  41 in total

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2.  Clinical Trial of the Protein Farnesylation Inhibitors Lonafarnib, Pravastatin, and Zoledronic Acid in Children With Hutchinson-Gilford Progeria Syndrome.

Authors:  Leslie B Gordon; Monica E Kleinman; Joe Massaro; Ralph B D'Agostino; Heather Shappell; Marie Gerhard-Herman; Leslie B Smoot; Catherine M Gordon; Robert H Cleveland; Ara Nazarian; Brian D Snyder; Nicole J Ullrich; V Michelle Silvera; Marilyn G Liang; Nicolle Quinn; David T Miller; Susanna Y Huh; Anne A Dowton; Kelly Littlefield; Maya M Greer; Mark W Kieran
Journal:  Circulation       Date:  2016-07-12       Impact factor: 29.690

3.  Splicing-directed therapy in a new mouse model of human accelerated aging.

Authors:  Fernando G Osorio; Claire L Navarro; Juan Cadiñanos; Isabel C López-Mejía; Pedro M Quirós; Catherine Bartoli; José Rivera; Jamal Tazi; Gabriela Guzmán; Ignacio Varela; Danielle Depetris; Félix de Carlos; Juan Cobo; Vicente Andrés; Annachiara De Sandre-Giovannoli; José M P Freije; Nicolas Lévy; Carlos López-Otín
Journal:  Sci Transl Med       Date:  2011-10-26       Impact factor: 17.956

Review 4.  Lipid posttranslational modifications. Farnesyl transferase inhibitors.

Authors:  Andrea D Basso; Paul Kirschmeier; W Robert Bishop
Journal:  J Lipid Res       Date:  2005-11-08       Impact factor: 5.922

5.  Inhibiting farnesylation of progerin prevents the characteristic nuclear blebbing of Hutchinson-Gilford progeria syndrome.

Authors:  Brian C Capell; Michael R Erdos; James P Madigan; James J Fiordalisi; Renee Varga; Karen N Conneely; Leslie B Gordon; Channing J Der; Adrienne D Cox; Francis S Collins
Journal:  Proc Natl Acad Sci U S A       Date:  2005-08-29       Impact factor: 11.205

6.  Cardiovascular pathology in Hutchinson-Gilford progeria: correlation with the vascular pathology of aging.

Authors:  Michelle Olive; Ingrid Harten; Richard Mitchell; Jeanette K Beers; Karima Djabali; Kan Cao; Michael R Erdos; Cecilia Blair; Birgit Funke; Leslie Smoot; Marie Gerhard-Herman; Jason T Machan; Robert Kutys; Renu Virmani; Francis S Collins; Thomas N Wight; Elizabeth G Nabel; Leslie B Gordon
Journal:  Arterioscler Thromb Vasc Biol       Date:  2010-08-26       Impact factor: 8.311

Review 7.  Prelamin A farnesylation and progeroid syndromes.

Authors:  Stephen G Young; Margarita Meta; Shao H Yang; Loren G Fong
Journal:  J Biol Chem       Date:  2006-11-07       Impact factor: 5.157

8.  The mutant form of lamin A that causes Hutchinson-Gilford progeria is a biomarker of cellular aging in human skin.

Authors:  Dayle McClintock; Desiree Ratner; Meepa Lokuge; David M Owens; Leslie B Gordon; Francis S Collins; Karima Djabali
Journal:  PLoS One       Date:  2007-12-05       Impact factor: 3.240

9.  Single-dose CRISPR-Cas9 therapy extends lifespan of mice with Hutchinson-Gilford progeria syndrome.

Authors:  Ergin Beyret; Hsin-Kai Liao; Mako Yamamoto; Reyna Hernandez-Benitez; Yunpeng Fu; Galina Erikson; Pradeep Reddy; Juan Carlos Izpisua Belmonte
Journal:  Nat Med       Date:  2019-02-18       Impact factor: 53.440

10.  Aging enhances liver fibrotic response in mice through hampering extracellular matrix remodeling.

Authors:  Bénédicte Delire; Valérie Lebrun; Charlotte Selvais; Patrick Henriet; Amélie Bertrand; Yves Horsmans; Isabelle A Leclercq
Journal:  Aging (Albany NY)       Date:  2016-12-09       Impact factor: 5.682
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  4 in total

1.  Progerin-Induced Impairment in Wound Healing and Proliferation in Vascular Endothelial Cells.

Authors:  Yizhi Jiang; Julie Y Ji
Journal:  Front Aging       Date:  2022-03-14

2.  Clinical manifestations and gene analysis of Hutchinson-Gilford progeria syndrome: A case report.

Authors:  Su-Li Zhang; Shuang-Zhu Lin; Yan-Qiu Zhou; Wan-Qi Wang; Jia-Yi Li; Cui Wang; Qi-Ming Pang
Journal:  World J Clin Cases       Date:  2022-05-26       Impact factor: 1.534

Review 3.  Small-Molecule Therapeutic Perspectives for the Treatment of Progeria.

Authors:  Jon Macicior; Beatriz Marcos-Ramiro; Silvia Ortega-Gutiérrez
Journal:  Int J Mol Sci       Date:  2021-07-03       Impact factor: 5.923

Review 4.  Splicing Variants, Protein-Protein Interactions, and Drug Targeting in Hutchinson-Gilford Progeria Syndrome and Small Cell Lung Cancer.

Authors:  Bae-Hoon Kim; Tae-Gyun Woo; So-Mi Kang; Soyoung Park; Bum-Joon Park
Journal:  Genes (Basel)       Date:  2022-01-18       Impact factor: 4.096
  4 in total

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