Literature DB >> 33220177

Mutations in Spliceosomal Genes PPIL1 and PRP17 Cause Neurodegenerative Pontocerebellar Hypoplasia with Microcephaly.

Guoliang Chai1, Alice Webb2, Chen Li1, Danny Antaki1, Sangmoon Lee1, Martin W Breuss1, Nhi Lang1, Valentina Stanley1, Paula Anzenberg1, Xiaoxu Yang1, Trevor Marshall1, Patrick Gaffney3, Klaas J Wierenga4, Brian Hon-Yin Chung5, Mandy Ho-Yin Tsang5, Lynn S Pais6, Alysia Kern Lovgren6, Grace E VanNoy6, Heidi L Rehm6, Ghayda Mirzaa7, Eyby Leon8, Jullianne Diaz8, Alexander Neumann9, Arnout P Kalverda10, Iain W Manfield10, David A Parry2, Clare V Logan2, Colin A Johnson2, David T Bonthron2, Elizabeth M A Valleley2, Mahmoud Y Issa11, Sherif F Abdel-Ghafar12, Mohamed S Abdel-Hamid12, Patricia Jennings13, Maha S Zaki11, Eamonn Sheridan14, Joseph G Gleeson15.   

Abstract

Autosomal-recessive cerebellar hypoplasia and ataxia constitute a group of heterogeneous brain disorders caused by disruption of several fundamental cellular processes. Here, we identified 10 families showing a neurodegenerative condition involving pontocerebellar hypoplasia with microcephaly (PCHM). Patients harbored biallelic mutations in genes encoding the spliceosome components Peptidyl-Prolyl Isomerase Like-1 (PPIL1) or Pre-RNA Processing-17 (PRP17). Mouse knockouts of either gene were lethal in early embryogenesis, whereas PPIL1 patient mutation knockin mice showed neuron-specific apoptosis. Loss of either protein affected splicing integrity, predominantly affecting short and high GC-content introns and genes involved in brain disorders. PPIL1 and PRP17 form an active isomerase-substrate interaction, but we found that isomerase activity is not critical for function. Thus, we establish disrupted splicing integrity and "major spliceosome-opathies" as a new mechanism underlying PCHM and neurodegeneration and uncover a non-enzymatic function of a spliceosomal proline isomerase.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  NMR; PCHM; PPIL1; PRP17; alternative splicing; brain development; cyclophilin; microcephaly; neurodegeneration; pontocerebellar hypoplasia; proline isomerase; recessive disease; spliceosome

Mesh:

Substances:

Year:  2020        PMID: 33220177      PMCID: PMC8800389          DOI: 10.1016/j.neuron.2020.10.035

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  75 in total

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10.  Spliceosomal components protect embryonic neurons from R-loop-mediated DNA damage and apoptosis.

Authors:  Shelly Sorrells; Sara Nik; Mattie J Casey; Rosannah C Cameron; Harold Truong; Cristhian Toruno; Michelle Gulfo; Albert Lowe; Cicely Jette; Rodney A Stewart; Teresa V Bowman
Journal:  Dis Model Mech       Date:  2018-02-26       Impact factor: 5.758
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