Human Retinal Transmitochondrial Cybrids with J or H MtDNA Haplogroups Respond Differently to Ultraviolet Radiation: Implications for Retinal Diseases

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2014 Jun 12

PMID 24919117

Citations 23

Authors

Deepika Malik

Tiffany Hsu

Payam Falatoonzadeh

Javier Caceres-Del-Carpio

Mohamed Tarek

Marilyn Chwa

Shari R Atilano

Claudio Ramirez

Anthony B Nesburn

David S Boyer

Baruch D Kuppermann

S. Michal Jazwinski

Michael V Miceli

Douglas C Wallace

Nitin Udar

M Cristina Kenney

Affiliations

Soon will be listed here.

Abstract

Background: It has been recognized that cells do not respond equally to ultraviolet (UV) radiation but it is not clear whether this is due to genetic, biochemical or structural differences of the cells. We have a novel cybrid (cytoplasmic hybrids) model that allows us to analyze the contribution of mitochondrial DNA (mtDNA) to cellular response after exposure to sub-lethal dose of UV. mtDNA can be classified into haplogroups as defined by accumulations of specific single nucleotide polymorphisms (SNPs). Recent studies have shown that J haplogroup is high risk for age-related macular degeneration while the H haplogroup is protective. This study investigates gene expression responses in J cybrids versus H cybrids after exposure to sub-lethal doses of UV-radiation.

Methodology/principal Findings: Cybrids were created by fusing platelets isolated from subjects with either H (n = 3) or J (n = 3) haplogroups with mitochondria-free (Rho0) ARPE-19 cells. The H and J cybrids were cultured for 24 hours, treated with 10 mJ of UV-radiation and cultured for an additional 120 hours. Untreated and treated cybrids were analyzed for growth rates and gene expression profiles. The UV-treated and untreated J cybrids had higher growth rates compared to H cybrids. Before treatment, J cybrids showed lower expression levels for CFH, CD55, IL-33, TGF-A, EFEMP-1, RARA, BCL2L13 and BBC3. At 120 hours after UV-treatment, the J cybrids had decreased CFH, RARA and BBC3 levels but increased CD55, IL-33 and EFEMP-1 compared to UV-treated H cybrids.

Conclusion/significance: In cells with identical nuclei, the cellular response to sub-lethal UV-radiation is mediated in part by the mtDNA haplogroup. This supports the hypothesis that differences in growth rates and expression levels of complement, inflammation and apoptosis genes may result from population-specific, hereditary SNP variations in mtDNA. Therefore, when analyzing UV-induced damage in tissues, the mtDNA haplogroup background may be important to consider.

Citing Articles

Differential modulation of cancer-related genes by mitochondrial DNA haplogroups and the STING DNA sensing system.

Schneider K, Chwa M, Atilano S, Nashine S, Udar N, Boyer D FASEB Bioadv. 2022; 4(10):675-689.

PMID: 36238361 PMC: 9536090. DOI: 10.1096/fba.2019-00044.

Differential Epigenetic Status and Responses to Stressors between Retinal Cybrids Cells with African versus European Mitochondrial DNA: Insights into Disease Susceptibilities.

Atilano S, Abedi S, Ianopol N, Singh M, Norman J, Malik D Cells. 2022; 11(17).

PMID: 36078063 PMC: 9454894. DOI: 10.3390/cells11172655.

Altered Retrograde Signaling Patterns in Breast Cancer Cells Cybrids with H and J Mitochondrial DNA Haplogroups.

Chang S, Singh L, Thaker K, Abedi S, Singh M, Patel T Int J Mol Sci. 2022; 23(12).

PMID: 35743133 PMC: 9224519. DOI: 10.3390/ijms23126687.

Differential mitochondrial and cellular responses between H vs. J mtDNA haplogroup-containing human RPE transmitochondrial cybrid cells.

Panvini A, Gvritishvili A, Galvan H, Nashine S, Atilano S, Kenney M Exp Eye Res. 2022; 219:109013.

PMID: 35283109 PMC: 9949352. DOI: 10.1016/j.exer.2022.109013.

Human mitochondrial RNA modifications associate with tissue-specific changes in gene expression, and are affected by sunlight and UV exposure.

Cohen T, Medini H, Mordechai C, Eran A, Mishmar D Eur J Hum Genet. 2022; 30(12):1363-1372.

PMID: 35246665 PMC: 9712611. DOI: 10.1038/s41431-022-01072-3.

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