Mitochondrial defects caused by PARL deficiency lead to arrested spermatogenesis and ferroptosis

Impaired spermatogenesis and male infertility are common manifestations associated with mitochondrial diseases, yet the underlying mechanisms linking these conditions remain elusive. In this study, we demonstrate that mice deficient for the mitochondrial intra-membrane rhomboid protease PARL, a rece...

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Bibliographic Details
Published in:eLife 2023-07, Vol.12
Main Authors: Radaelli, Enrico, Assenmacher, Charles-Antoine, Verrelle, Jillian, Banerjee, Esha, Manero, Florence, Khiati, Salim, Girona, Anais, Lopez-Lluch, Guillermo, Navas, Placido, Spinazzi, Marco
Format: Article
Language:English
Subjects:
Animals
Arrests
Atrophy
Cell Biology
Cell death
Coenzyme Q
Electron transfer
Encephalopathy
Ferroptosis
Genotype & phenotype
GPX4
Histology
Homeostasis
Humans
Infertility
Infertility, Male - genetics
Kinases
Lipid peroxidation
Male
Meiosis
Metalloproteases - genetics
Mice
Mitochondria
Mitochondrial Proteins - genetics
Mitochondrial Proteins - metabolism
Nervous system
Neurodegeneration
PARL
Phenotypes
Prophase
Proteins
PTEN-induced putative kinase
Sperm
Spermatocytes
Spermatogenesis
Spermatogenesis - genetics
Ultrastructure
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Summary:Impaired spermatogenesis and male infertility are common manifestations associated with mitochondrial diseases, yet the underlying mechanisms linking these conditions remain elusive. In this study, we demonstrate that mice deficient for the mitochondrial intra-membrane rhomboid protease PARL, a recently reported model of the mitochondrial encephalopathy Leigh syndrome, develop early testicular atrophy caused by a complete arrest of spermatogenesis during meiotic prophase I, followed by degeneration and death of arrested spermatocytes. This process is independent of neurodegeneration. Interestingly, genetic modifications of PINK1, PGAM5, and TTC19 - three major substrates of PARL with important roles in mitochondrial homeostasis - fail to reproduce or modify this severe phenotype, indicating that the spermatogenic arrest arises from distinct molecular pathways. We further observed severe abnormalities in mitochondrial ultrastructure in PARL-deficient spermatocytes, along with prominent electron transfer chain defects, disrupted coenzyme Q (CoQ) biosynthesis, and metabolic rewiring. These mitochondrial defects are associated with a germ cell-specific decrease in GPX4 expression leading arrested spermatocytes to ferroptosis - a regulated cell death modality characterized by uncontrolled lipid peroxidation. Our results suggest that mitochondrial defects induced by PARL depletion act as an initiating trigger for ferroptosis in primary spermatocytes through simultaneous effects on GPX4 and CoQ - two major inhibitors of ferroptosis. These findings shed new light on the potential role of ferroptosis in the pathogenesis of mitochondrial diseases and male infertility warranting further investigation.
ISSN:2050-084X
2050-084X
DOI:10.7554/ELIFE.84710