Retinal pigment epithelium degeneration caused by aggregation of PRPF31 and the role of HSP70 family of proteins

Lourdes Valdés-Sánchez; Sofia M. Calado; Berta de la Cerda; Ana Aramburu; Ana Belén García-Delgado; Simone Massalini; Adoración Montero-Sánchez; Vaibhav Bhatia; Eduardo Rodríguez-Bocanegra; Andrea Diez-Lloret; Daniel Rodríguez-Martínez; Christina Chakarova; Shom S. Bhattacharya; Francisco J. Díaz-Corrales

doi:10.1186/s10020-019-0124-z

Molecular Medicine (Dec 2019)

Retinal pigment epithelium degeneration caused by aggregation of PRPF31 and the role of HSP70 family of proteins

Lourdes Valdés-Sánchez,
Sofia M. Calado,
Berta de la Cerda,
Ana Aramburu,
Ana Belén García-Delgado,
Simone Massalini,
Adoración Montero-Sánchez,
Vaibhav Bhatia,
Eduardo Rodríguez-Bocanegra,
Andrea Diez-Lloret,
Daniel Rodríguez-Martínez,
Christina Chakarova,
Shom S. Bhattacharya,
Francisco J. Díaz-Corrales

Affiliations

Lourdes Valdés-Sánchez: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Sofia M. Calado: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Berta de la Cerda: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Ana Aramburu: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Ana Belén García-Delgado: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Simone Massalini: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Adoración Montero-Sánchez: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Vaibhav Bhatia: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Eduardo Rodríguez-Bocanegra: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Andrea Diez-Lloret: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Daniel Rodríguez-Martínez: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide
Christina Chakarova: Institute of Ophthalmology, University College London
Shom S. Bhattacharya: Institute of Ophthalmology, University College London
Francisco J. Díaz-Corrales: Regeneration and Cell Therapy Department, Andalusian Molecular Biology and Regenerative Medicine Centre-CABIMER (Junta de Andalucía), CSIC, Universidad de Sevilla, Universidad Pablo de Olavide

DOI: https://doi.org/10.1186/s10020-019-0124-z
Journal volume & issue: Vol. 26, no. 1
pp. 1 – 22

Abstract

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Abstract Background Mutations in pre-mRNA splicing factor PRPF31 can lead to retinitis pigmentosa (RP). Although the exact disease mechanism remains unknown, it has been hypothesized that haploinsufficiency might be involved in the pathophysiology of the disease. Methods In this study, we have analyzed a mouse model containing the p.A216P mutation in Prpf31 gene. Results We found that mutant Prpf31 protein produces cytoplasmic aggregates in the retinal pigment epithelium and decreasing the protein levels of this splicing factor in the nucleus. Additionally, normal protein was recruited in insoluble aggregates when the mutant protein was overexpressed in vitro. In response to protein aggregation, Hspa4l is overexpressed. This member of the HSP70 family of chaperones might contribute to the correct folding and solubilization of the mutant protein, allowing its translocation to the nucleus. Conclusions Our data suggests that a mechanism haploinsufficiency and dominant-negative is involved in retinal degeneration due to mutations in PRPF31. HSP70 over-expression might be a new therapeutic target for the treatment of retinal degeneration due to PRPF31 mutations.

Published in Molecular Medicine

ISSN: 1076-1551 (Print); 1528-3658 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Therapeutics. Pharmacology; Science: Chemistry: Organic chemistry: Biochemistry
Website: https://molmed.biomedcentral.com

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