Caenorhabditis elegans as a research tool to study mitochondrial diseases associated with defects in tRNA modification

[EN] Post-transcriptional modification of the wobble uridine (U34) of a tRNA set is an evolutionary conserved process, produced by homologous proteins from the MnmA/MTU1, MnmE/GTPBP3 and MnmG/MTO1 families. Mutations in the human genes MTU1 and GTPBP3 or MTO1 produce acute infantile liver failure, and hypertrophic cardiomyopathy and lactic acidosis, respectively, which usually cause lethality in the first months of life. It is assumed that the primary cause of these diseases is the lack of the modifications introduced by the MTU1 protein in position 2 (tiol) and GTPBP3 and MTO1 proteins (taurinomethylation) in position 5 at U34 in a subgroup of mt-tRNAs. Nevertheless, the molecular mechanisms underlying these diseases (and other diseases associated with such modifications) are not clear. The reason why the typical defects of oxidative phosphorylation (due to impaired mitochondrial translation) produce such wide range of phenotypes is still unknown. Our hypothesis sustains that the mitochondria-nucleus retrograde signaling pathways triggered by the hypomodification at position 2 and 5 of U34 are different, and that each nuclear response is modulated by the genetic and epigenetic programs of cells and organisms. In this work, we have used the nematode Caenorhabditis elegans as a model organism to study the effects of inactivating the homologue proteins to MTU1, GTPBP3 and MTO1, which we have named as MTTU-1, MTCU-1 and MTCU-2, respectively. We have proved that these nuclear encoded proteins are located in mitochondria and are involved in U34 modification of mt-tRNAs. The mtcu-1 and mtcu-2 mutants show a reduction in fertility, while the mttu-1 mutant shows a reduction in fertility and a lengthening of the reproductive cycle (both phenotypes are thermosensitive). The phenotypes exhibited by the mttu-1, mtcu-1 and mtcu-2 mutants support our hypothesis, in which the mttu-1 single mutation, on the one hand, and the mtcu-1 and mtcu-2 single mutations, on the other hand, trigger different retrograde signaling pathways which produce specific nucear expression. Thus, a nuclear dependent phenotypic trait (as transcription or mt-tRNAs stability) and the expression of nuclear genes as ucp-4, hsp-6, hsp-60 and other genes involved in mitochondrial metabolism show a differential pattern in both group of mutants. hsp-6 and hsp-60 genes (UPRmt markers) are downregulated in mttu-1 single mutant, which could be related to fertility and reproductive cycle thermosensitivity. T