mt-tRNAs in the polymerase gamma mutant heart

M. Bilal Bayazit; Ashley Francois; Erin McGrail; Federica Accornero; Matthew S. Stratton

doi:10.20517/jca.2023.26

The Journal of Cardiovascular Aging ›› 2023, Vol. 3 ›› Issue (4) :41 DOI: 10.20517/jca.2023.26

Original Research Article

mt-tRNAs in the polymerase gamma mutant heart

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Abstract

Introduction: Mice harboring a D257A mutation in the proofreading domain of the mitochondrial DNA polymerase, Polymerase Gamma (POLG), experience severe metabolic dysfunction and display hallmarks of accelerated aging. We previously reported a mitochondrial unfolded protein response (UPT^mt) - like (UPR^mt-like) gene and protein expression pattern in the right ventricular tissue of POLG mutant mice.

Aim: We sought to determine if POLG mutation altered the expression of genes encoded by the mitochondria in a way that might also reduce proteotoxic stress.

Methods and Results: The expression of genes encoded by the mitochondrial DNA was interrogated via RNA-seq and northern blot analysis. A striking, location-dependent effect was seen in the expression of mitochondrial-encoded tRNAs in the POLG mutant as assayed by RNA-seq. These expression changes were negatively correlated with the tRNA partner amino acid’s amyloidogenic potential. Direct measurement by northern blot was conducted on candidate mt-tRNAs identified from the RNA-seq. This analysis confirmed reduced expression of MT-TY in the POLG mutant but failed to show increased expression of MT-TP, which was dramatically increased in the RNA-seq data.

Conclusion: We conclude that reduced expression of amyloid-associated mt-tRNAs is another indication of adaptive response to severe mitochondrial dysfunction in the POLG mutant. Incongruence between RNA-seq and northern blot measurement of MT-TP expression points towards the existence of mt-tRNA post-transcriptional modification regulation in the POLG mutant that alters either polyA capture or cDNA synthesis in RNA-seq library generation. Together, these data suggest that 1) evolution has distributed mt-tRNAs across the circular mitochondrial genome to allow chromosomal location-dependent mt-tRNA regulation (either by expression or PTM) and 2) this regulation is cognizant of the tRNA partner amino acid’s amyloidogenic properties.

Keywords

Cardiac aging / mt-tRNA / UPR^MT / POLG

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M. Bilal Bayazit, Ashley Francois, Erin McGrail, Federica Accornero, Matthew S. Stratton. mt-tRNAs in the polymerase gamma mutant heart. The Journal of Cardiovascular Aging, 2023, 3(4): 41 DOI:10.20517/jca.2023.26

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Rahman S.POLG-related disorders and their neurological manifestations.Nat Rev Neurol2019;15:40-52 PMCID:PMC8796686

[2]	Lewis W,Kohler JJ.Decreased mtDNA, oxidative stress, cardiomyopathy, and death from transgenic cardiac targeted human mutant polymerase gamma.Lab Invest2007;87:326-35 PMCID:PMC1831462

[3]	Koczor CA,Fields E.Transgenic mouse model with deficient mitochondrial polymerase exhibits reduced state IV respiration and enhanced cardiac fibrosis.Lab Invest2013;93:151-8 PMCID:PMC3556371

[4]	Trifunovic A,Falkenberg M.Premature ageing in mice expressing defective mitochondrial DNA polymerase.Nature2004;429:417-23

[5]	Zhang D,Farrar P.Mitochondrial DNA mutations activate the mitochondrial apoptotic pathway and cause dilated cardiomyopathy.Cardiovasc Res2003;57:147-57

[6]	Dai DF,Wanagat J.Age-dependent cardiomyopathy in mitochondrial mutator mice is attenuated by overexpression of catalase targeted to mitochondria.Aging Cell2010;9:536-44 PMCID:PMC3265170

[7]	Someya S,Kim MJ.Effects of calorie restriction on the lifespan and healthspan of POLG mitochondrial mutator mice.PLoS One2017;12:e0171159 PMCID:PMC5291490

[8]	Golob MJ,Wang Z.Mitochondria DNA mutations cause sex-dependent development of hypertension and alterations in cardiovascular function.J Biomech2015;48:405-12 PMCID:PMC4306604

[9]	Woodall BP,Najor RH.Parkin does not prevent accelerated cardiac aging in mitochondrial DNA mutator mice.JCI Insight2019;5:127713 PMCID:PMC6542612

[10]	Gorr MW,Marcho LM.Molecular signature of cardiac remodeling associated with Polymerase Gamma mutation.Life Sci2022;298:120469 PMCID:PMC9158136

[11]	Williams SL,Edwards YJ.The mtDNA mutation spectrum of the progeroid Polg mutator mouse includes abundant control region multimers.Cell Metab2010;12:675-82 PMCID:PMC3175596

[12]	Melber A.UPR^mt regulation and output: a stress response mediated by mitochondrial-nuclear communication.Cell Res2018;28:281-95 PMCID:PMC5835775

[13]	Suárez-Rivero JM,Povea-Cabello S.Activation of the mitochondrial unfolded protein response: a new therapeutic target?.Biomedicines2022;10:1611 PMCID:PMC9313171

[14]	McLaughlin KL,McClung JM.Subcellular proteomics combined with bioenergetic phenotyping reveals protein biomarkers of respiratory insufficiency in the setting of proofreading-deficient mitochondrial polymerase.Sci Rep2020;10:3603 PMCID:PMC7046634

[15]	Kim D,Park C,Salzberg SL.Graph-based genome alignment and genotyping with HISAT2 and HISAT-genotype.Nat Biotechnol2019;37:907-15 PMCID:PMC7605509

[16]	Pertea M,Antonescu CM,Mendell JT.StringTie enables improved reconstruction of a transcriptome from RNA-seq reads.Nat Biotechnol2015;33:290-5 PMCID:PMC4643835

[17]	Robinson MD,Smyth GK.edgeR: a Bioconductor package for differential expression analysis of digital gene expression data.Bioinformatics2010;26:139-40 PMCID:PMC2796818

[18]	He Q,Xiao Y.Tissue-specific expression atlas of murine mitochondrial tRNAs.J Biol Chem2021;297:100960 PMCID:PMC8342785

[19]	Miranda M,Kühl I.Starting the engine of the powerhouse: mitochondrial transcription and beyond.Biol Chem2022;403:779-805

[20]	Navarro S.Computational methods to predict protein aggregation.Curr Opin Struct Biol2022;73:102343

[21]	Strodel B.Energy landscapes of protein aggregation and conformation switching in intrinsically disordered proteins.J Mol Biol2021;433:167182

[22]	Housmans JAJ,Schymkowitz J.A guide to studying protein aggregation.FEBS J2023;290:554-83

[23]	Dubreuil B,Levy ED.Protein abundance biases the amino acid composition of disordered regions to minimize non-functional interactions.J Mol Biol2019;431:4978-92 PMCID:PMC6941228

[24]	Garbuzynskiy SO,Galzitskaya OV.FoldAmyloid: a method of prediction of amyloidogenic regions from protein sequence.Bioinformatics2010;26:326-32

[25]	Dosztányi Z,Tompa P.The pairwise energy content estimated from amino acid composition discriminates between folded and intrinsically unstructured proteins.J Mol Biol2005;347:827-39

[26]	Rackovsky S.Hydrophobicity, hydrophilicity, and the radial and orientational distributions of residues in native proteins.Proc Natl Acad Sci USA1977;74:5248-51 PMCID:PMC431666

[27]	Charoenkwan P,Nantasenamat C,Shoombuatong W.iAMY-SCM: improved prediction and analysis of amyloid proteins using a scoring card method with propensity scores of dipeptides.Genomics2021;113:689-98

[28]	Friedberg MK.Right versus left ventricular failure: differences, similarities, and interactions.Circulation2014;129:1033-44

[29]	Nicoletti V,Del Prete E,Ceravolo R.Understanding the multiple role of mitochondria in parkinson’s disease and related disorders: lesson from genetics and protein-interaction network.Front Cell Dev Biol2021;9:636506 PMCID:PMC8047151

[30]	Bell SM,De Marco M.Mitochondrial dysfunction in alzheimer’s disease: a biomarker of the future?.Biomedicines2021;9:63 PMCID:PMC7827030

[31]	McLendon PM.Desmin-related cardiomyopathy: an unfolding story.Am J Physiol Heart Circ Physiol2011;301:H1220-8 PMCID:PMC3197348

[32]	Suzuki T,Kikuchi I.Complete chemical structures of human mitochondrial tRNAs.Nat Commun2020;11:4269 PMCID:PMC7455718

[33]	Cozen AE,Holmes AD,Phizicky EM.ARM-seq: AlkB-facilitated RNA methylation sequencing reveals a complex landscape of modified tRNA fragments.Nat Methods2015;12:879-84 PMCID:PMC4553111

[34]	Miller FJ,Zhang C,Nagley P.Precise determination of mitochondrial DNA copy number in human skeletal and cardiac muscle by a PCR-based assay: lack of change of copy number with age.Nucleic Acids Res2003;31:e61 PMCID:PMC156738

[35]	Pohjoismäki JL,Taylor RW.Developmental and pathological changes in the human cardiac muscle mitochondrial DNA organization, replication and copy number.PLoS One2010;5:e10426 PMCID:PMC2862702