Literature DB >> 27941306

Peroxisome biogenesis and human peroxisome-deficiency disorders.

Yukio Fujiki1.   

Abstract

Peroxisome is a single-membrane-bounded ubiquitous organelle containing a hundred different enzymes that catalyze various metabolic pathways such as β-oxidation of very long-chain fatty acids and synthesis of plasmalogens. To investigate peroxisome biogenesis and human peroxisome biogenesis disorders (PBDs) including Zellweger syndrome, more than a dozen different complementation groups of Chinese hamster ovary (CHO) cell mutants impaired in peroxisome biogenesis are isolated as a model experimental system. By taking advantage of rapid functional complementation assay of the CHO cell mutants, successful cloning of PEX genes encoding peroxins required for peroxisome assembly invaluably contributed to the accomplishment of cloning of pathogenic genes responsible for PBDs. Peroxins are divided into three groups: 1) peroxins including Pex3p, Pex16p and Pex19p, are responsible for peroxisome membrane biogenesis via Pex19p- and Pex3p-dependent class I and Pex19p- and Pex16p-dependent class II pathways; 2) peroxins that function in matrix protein import; 3) those such as Pex11pβ are involved in peroxisome division where DLP1, Mff, and Fis1 coordinately function.

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Mesh:

Year:  2016        PMID: 27941306      PMCID: PMC5328784          DOI: 10.2183/pjab.92.463

Source DB:  PubMed          Journal:  Proc Jpn Acad Ser B Phys Biol Sci        ISSN: 0386-2208            Impact factor:   3.493


  164 in total

1.  Four distinct secretory pathways serve protein secretion, cell surface growth, and peroxisome biogenesis in the yeast Yarrowia lipolytica.

Authors:  V I Titorenko; D M Ogrydziak; R A Rachubinski
Journal:  Mol Cell Biol       Date:  1997-09       Impact factor: 4.272

2.  A lethal defect of mitochondrial and peroxisomal fission.

Authors:  Hans R Waterham; Janet Koster; Carlo W T van Roermund; Petra A W Mooyer; Ronald J A Wanders; James V Leonard
Journal:  N Engl J Med       Date:  2007-04-26       Impact factor: 91.245

3.  Ubiquitination of mammalian Pex5p, the peroxisomal import receptor.

Authors:  Andreia F Carvalho; Manuel P Pinto; Cláudia P Grou; Inês S Alencastre; Marc Fransen; Clara Sá-Miranda; Jorge E Azevedo
Journal:  J Biol Chem       Date:  2007-08-28       Impact factor: 5.157

4.  Peroxisome biogenesis in the yeast Hansenula polymorpha: a structural and functional analysis.

Authors:  I J van der Klei; M Veenhuis
Journal:  Ann N Y Acad Sci       Date:  1996-12-27       Impact factor: 5.691

5.  Rhizomelic chondrodysplasia punctata is a peroxisomal protein targeting disease caused by a non-functional PTS2 receptor.

Authors:  A M Motley; E H Hettema; E M Hogenhout; P Brites; A L ten Asbroek; F A Wijburg; F Baas; H S Heijmans; H F Tabak; R J Wanders; B Distel
Journal:  Nat Genet       Date:  1997-04       Impact factor: 38.330

6.  A mouse model for Zellweger syndrome.

Authors:  M Baes; P Gressens; E Baumgart; P Carmeliet; M Casteels; M Fransen; P Evrard; D Fahimi; P E Declercq; D Collen; P P van Veldhoven; G P Mannaerts
Journal:  Nat Genet       Date:  1997-09       Impact factor: 38.330

7.  An efficient screen for peroxisome-deficient mutants of Pichia pastoris.

Authors:  H Liu; X Tan; M Veenhuis; D McCollum; J M Cregg
Journal:  J Bacteriol       Date:  1992-08       Impact factor: 3.490

8.  Export-deficient monoubiquitinated PEX5 triggers peroxisome removal in SV40 large T antigen-transformed mouse embryonic fibroblasts.

Authors:  Marcus Nordgren; Tânia Francisco; Celien Lismont; Lore Hennebel; Chantal Brees; Bo Wang; Paul P Van Veldhoven; Jorge E Azevedo; Marc Fransen
Journal:  Autophagy       Date:  2015       Impact factor: 16.016

9.  Mff is an essential factor for mitochondrial recruitment of Drp1 during mitochondrial fission in mammalian cells.

Authors:  Hidenori Otera; Chunxin Wang; Megan M Cleland; Kiyoko Setoguchi; Sadaki Yokota; Richard J Youle; Katsuyoshi Mihara
Journal:  J Cell Biol       Date:  2010-12-13       Impact factor: 10.539

10.  Impairment of starvation-induced and constitutive autophagy in Atg7-deficient mice.

Authors:  Masaaki Komatsu; Satoshi Waguri; Takashi Ueno; Junichi Iwata; Shigeo Murata; Isei Tanida; Junji Ezaki; Noboru Mizushima; Yoshinori Ohsumi; Yasuo Uchiyama; Eiki Kominami; Keiji Tanaka; Tomoki Chiba
Journal:  J Cell Biol       Date:  2005-05-02       Impact factor: 10.539
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  15 in total

1.  PEX5 translocation into and out of peroxisomes drives matrix protein import.

Authors:  Michael L Skowyra; Tom A Rapoport
Journal:  Mol Cell       Date:  2022-08-04       Impact factor: 19.328

2.  Genotype-phenotype correlations and disease mechanisms in PEX13-related Zellweger spectrum disorders.

Authors:  Paola Borgia; Simona Baldassari; Nicoletta Pedemonte; Ebba Alkhunaizi; Gianluca D'Onofrio; Domenico Tortora; Elisa Calì; Paolo Scudieri; Ganna Balagura; Ilaria Musante; Maria Cristina Diana; Marina Pedemonte; Maria Stella Vari; Michele Iacomino; Antonella Riva; Roberto Chimenz; Giuseppe D Mangano; Mohammad Hasan Mohammadi; Mehran Beiraghi Toosi; Farah Ashrafzadeh; Shima Imannezhad; Ehsan Ghayoor Karimiani; Andrea Accogli; Maria Cristina Schiaffino; Mohamad Maghnie; Miguel Angel Soler; Karl Echiverri; Charles K Abrams; Pasquale Striano; Sara Fortuna; Reza Maroofian; Henry Houlden; Federico Zara; Chiara Fiorillo; Vincenzo Salpietro
Journal:  Orphanet J Rare Dis       Date:  2022-07-19       Impact factor: 4.303

3.  Mutant U2AF1-induced differential alternative splicing causes an oxidative stress in bone marrow stromal cells.

Authors:  Zhe Liu; Xuanjia Dong; Zhijie Cao; Shaowei Qiu; Yihui Li; Mengjun Zhong; Zhenya Xue; Yingxi Xu; Haiyan Xing; Kejing Tang; Zheng Tian; Min Wang; Qing Rao; Jianxiang Wang
Journal:  Exp Biol Med (Maywood)       Date:  2021-05-25

4.  Insufficiency of ciliary cholesterol in hereditary Zellweger syndrome.

Authors:  Tatsuo Miyamoto; Kosuke Hosoba; Takeshi Itabashi; Atsuko H Iwane; Silvia Natsuko Akutsu; Hiroshi Ochiai; Yumiko Saito; Takashi Yamamoto; Shinya Matsuura
Journal:  EMBO J       Date:  2020-05-05       Impact factor: 11.598

5.  Functional Analyses of a Putative, Membrane-Bound, Peroxisomal Protein Import Mechanism from the Apicomplexan Protozoan Toxoplasma gondii.

Authors:  Alison J Mbekeani; Will A Stanley; Vishal C Kalel; Noa Dahan; Einat Zalckvar; Lilach Sheiner; Wolfgang Schliebs; Ralf Erdmann; Ehmke Pohl; Paul W Denny
Journal:  Genes (Basel)       Date:  2018-08-29       Impact factor: 4.096

6.  Peroxisome biogenesis deficiency attenuates the BDNF-TrkB pathway-mediated development of the cerebellum.

Authors:  Yuichi Abe; Masanori Honsho; Ryota Itoh; Ryoko Kawaguchi; Masashi Fujitani; Kazushirou Fujiwara; Masaaki Hirokane; Takashi Matsuzaki; Keiko Nakayama; Ryohei Ohgi; Toshihiro Marutani; Keiichi I Nakayama; Toshihide Yamashita; Yukio Fujiki
Journal:  Life Sci Alliance       Date:  2018-12-03

7.  A newly identified mutation in the PEX26 gene is associated with a milder form of Zellweger spectrum disorder.

Authors:  Akemi J Tanaka; Kanji Okumoto; Shigehiko Tamura; Yuichi Abe; Yoel Hirsch; Liyong Deng; Joseph Ekstein; Wendy K Chung; Yukio Fujiki
Journal:  Cold Spring Harb Mol Case Stud       Date:  2019-02-01

8.  Comparative Genomics of Peroxisome Biogenesis Proteins: Making Sense of the PEX Proteins.

Authors:  Renate L M Jansen; Carlos Santana-Molina; Marco van den Noort; Damien P Devos; Ida J van der Klei
Journal:  Front Cell Dev Biol       Date:  2021-05-20

9.  Lipid alterations in human frontal cortex in ALS-FTLD-TDP43 proteinopathy spectrum are partly related to peroxisome impairment.

Authors:  Pol Andrés-Benito; Ellen Gelpi; Mariona Jové; Natalia Mota-Martorell; Èlia Obis; Manuel Portero-Otin; Mònica Povedano; Aurora Pujol; Reinald Pamplona; Isidro Ferrer
Journal:  Neuropathol Appl Neurobiol       Date:  2021-01-12       Impact factor: 8.090

10.  A clinical case of Zellweger syndrome in a patient with a previous history of ocular medulloepithelioma.

Authors:  Alberto Galvez-Ruiz; Alicia Galindo-Ferreiro; Hind Alkatan
Journal:  Saudi J Ophthalmol       Date:  2017-09-23
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