Literature DB >> 23359680

Recessive loss of function of the neuronal ubiquitin hydrolase UCHL1 leads to early-onset progressive neurodegeneration.

Kaya Bilguvar1, Navneet K Tyagi, Cigdem Ozkara, Beyhan Tuysuz, Mehmet Bakircioglu, Murim Choi, Sakir Delil, Ahmet O Caglayan, Jacob F Baranoski, Ozdem Erturk, Cengiz Yalcinkaya, Murat Karacorlu, Alp Dincer, Michele H Johnson, Shrikant Mane, Sreeganga S Chandra, Angeliki Louvi, Titus J Boggon, Richard P Lifton, Arthur L Horwich, Murat Gunel.   

Abstract

Ubiquitin C-terminal hydrolase-L1 (UCHL1), a neuron-specific de-ubiquitinating enzyme, is one of the most abundant proteins in the brain. We describe three siblings from a consanguineous union with a previously unreported early-onset progressive neurodegenerative syndrome featuring childhood onset blindness, cerebellar ataxia, nystagmus, dorsal column dysfuction, and spasticity with upper motor neuron dysfunction. Through homozygosity mapping of the affected individuals followed by whole-exome sequencing of the index case, we identified a previously undescribed homozygous missense mutation within the ubiquitin binding domain of UCHL1 (UCHL1(GLU7ALA)), shared by all affected subjects. As demonstrated by isothermal titration calorimetry, purified UCHL1(GLU7ALA), compared with WT, exhibited at least sevenfold reduced affinity for ubiquitin. In vitro, the mutation led to a near complete loss of UCHL1 hydrolase activity. The GLU7ALA variant is predicted to interfere with the substrate binding by restricting the proper positioning of the substrate for tunneling underneath the cross-over loop spanning the catalytic cleft of UCHL1. This interference with substrate binding, combined with near complete loss of hydrolase activity, resulted in a >100-fold reduction in the efficiency of UCHL1(GLU7ALA) relative to WT. These findings demonstrate a broad requirement of UCHL1 in the maintenance of the nervous system.

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Year:  2013        PMID: 23359680      PMCID: PMC3587195          DOI: 10.1073/pnas.1222732110

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  30 in total

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Review 8.  The fine-tuning of proteolytic pathways in Alzheimer's disease.

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