Dystrophin Dp71 Isoforms Are Differentially Expressed in the Mouse Brain and Retina: Report of New Alternative Splicing and a Novel Nomenclature for Dp71 Isoforms

Overview

Journal Mol Neurobiol

Specialties Molecular Biology
Neurology

Date 2017 Jan 28

PMID 28127699

Citations 17

Authors

Jorge Aragon

Mayram Gonzalez-Reyes

Jose Romo-Yanez

Ophelie Vacca

Guadalupe Aguilar-Gonzalez

Alvaro Rendon

Cyrille Vaillend

Cecilia Montanez

Affiliations

Soon will be listed here.

Abstract

Multiple dystrophin Dp71 isoforms have been identified in rats, mice, and humans and in several cell line models. These Dp71 isoforms are produced by the alternative splicing of exons 71 to 74 and 78 and intron 77. Three main groups of Dp71 proteins are defined based on their C-terminal specificities: Dp71d, Dp71f, and Dp71e. Dp71 is highly expressed in the brain and retina; however, the specific isoforms present in these tissues have not been determined to date. In this work, we explored the expression of Dp71 isoforms in the mouse brain and retina using RT-PCR assays followed by the cloning of PCR products into the pGEM-T Easy vector, which was used to transform DH5α cells. Dp71-positive colonies were later analyzed by PCR multiplex and DNA sequencing to determine the alternative splicing. We thus demonstrated the expression of Dp71 transcripts corresponding to Dp71, Dp71a, Dp71c, Dp71b, Dp71ab, Dp71 , and novel Dp71 isoforms spliced in exon 74; 71 and 74; 71, 73 and 74; and 74 and 78, which we named Dp71d , Dp71d , Dp71d , and Dp71f , respectively. Additionally, we demonstrated that the Dp71d group of isoforms is highly expressed in the brain, while the Dp71f group predominates in the retina, at both the cDNA and protein levels. These findings suggest that distinct Dp71 isoforms may play different roles in the brain and retina.

Citing Articles

Characterization of Dystrophin Dp71 Expression and Interaction Partners in Embryonic Brain Development: Implications for Duchenne/Becker Muscular Dystrophy.

Fujimoto T, Mori M, Tonosaki M, Yaoi T, Nakano K, Okamura T Mol Neurobiol. 2025; .

PMID: 39760982 DOI: 10.1007/s12035-024-04676-6.

Expression of Dystrophin Dp71 Splice Variants Is Temporally Regulated During Rodent Brain Development.

Gonzalez-Reyes M, Aragon J, Sanchez-Trujillo A, Rodriguez-Martinez G, Duarte K, Eleftheriou E Mol Neurobiol. 2024; 61(12):10883-10900.

PMID: 38802640 PMC: 11584426. DOI: 10.1007/s12035-024-04232-2.

The exon junction complex is required for DMD gene splicing fidelity and myogenic differentiation.

Da Cunha D, Miro J, Van Goethem C, Notarnicola C, Hugon G, Carnac G Cell Mol Life Sci. 2024; 81(1):150.

PMID: 38512499 PMC: 10957711. DOI: 10.1007/s00018-024-05188-1.

Dp71 Point Mutations Induce Protein Aggregation, Loss of Nuclear Lamina Integrity and Impaired Braf35 and Ibraf Function in Neuronal Cells.

Rugerio-Martinez C, Ramos D, Segura-Olvera A, Murillo-Melo N, Tapia-Guerrero Y, Arguello-Garcia R Int J Mol Sci. 2022; 23(19).

PMID: 36233175 PMC: 9570083. DOI: 10.3390/ijms231911876.

Tissue- and cell-specific whole-transcriptome meta-analysis from brain and retina reveals differential expression of dystrophin complexes and new dystrophin spliced isoforms.

Garcia-Cruz C, Aragon J, Lourdel S, Annan A, Roger J, Montanez C Hum Mol Genet. 2022; 32(4):659-676.

PMID: 36130212 PMC: 9896479. DOI: 10.1093/hmg/ddac236.

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