Ruth Halsne scite author profile

Cockayne syndrome (CS) is a severe, complex, progressive and autosomal recessive disease characterized by developmental, skeletal, neurological and muscular failure, as well as a premature aging phenotype [1]. Patients with CS can be assigned to two different complementation groups, with the majority carrying mutations in the CSB gene [2]. A clinically identified CSB truncation (CS1AN) has been genetically introduced into a mouse, which displays similar but milder CS phenotypes [3]. The CSB protein plays distinct roles in different DNA repair pathways. It is involved in the transcriptioncoupled repair of UV-induced DNA damage, which is reflected by the sensitivity of human and murine csb m ⁄ m fibroblasts to UV radiation. Furthermore, CSB is involved in the global repair of different types of endogenously formed DNA damage and also participates in regulation of the major nuclear and mitochondrial 8-oxoguanine (8oxoG) Cockayne syndrome (CS) is a complex, progressive disease that involves neurological and developmental impairment and premature aging. The majority of CS patients have mutations in the CSB gene. The CSB protein is involved in multiple DNA repair pathways and CSB mutated cells are sensitive to a broad spectrum of genotoxic agents. We tested the hypothesis that sensitivity to such genotoxins could be mediated by mitochondrial dysfunction as a consequence of the CSB mutation. mtDNA from csb m ⁄ m mice accumulates oxidative damage including 8-oxoguanine, and cells from this mouse are hypersensitive to the mitochondrial oxidant menadione. Inhibitors of mitochondrial complexes and the glycolysis inhibitor 2-deoxyglucose kill csb m ⁄ m cells more efficiently than wild-type cells, via a mechanism that does not correlate with mtDNA damage formation. Menadione depletes cellular ATP, and recovery after depletion is slower in csb m ⁄ m cells. The bioenergetic alteration in csb m ⁄ m cells parallels the simpler organization of supercomplexes consisting of complexes I, III and IV in addition to partially disassembled complex V in the inner mitochondrial membrane. Exposing wild-type cells to DNA intercalating agents induces complex alterations, suggesting a link between mtDNA integrity, respiratory complexes and mitochondrial function. Thus, mitochondrial dysfunction may play a role in the pathology of CS.Abbreviations

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Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency

Strand

Gul

Erichsen

et al. 2020

Front. Immunol.

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Lack of the DNA glycosylases MYH and OGG1 in the cancer prone double mutant mouse does not increase mitochondrial DNA mutagenesis

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In vitro effects of the citrus flavonoids diosmin, naringenin and naringin on the hepatic drug-metabolizing CYP3A enzyme in human, pig, mouse and fish

Burkina

Žlábek

Halsne

et al. 2016

Biochemical Pharmacology

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Ruth Halsne

Accumulation of mitochondrial DNA damage and bioenergetic dysfunction in CSB defective cells

Second-Tier Next Generation Sequencing Integrated in Nationwide Newborn Screening Provides Rapid Molecular Diagnostics of Severe Combined Immunodeficiency

Lack of the DNA glycosylases MYH and OGG1 in the cancer prone double mutant mouse does not increase mitochondrial DNA mutagenesis

In vitro effects of the citrus flavonoids diosmin, naringenin and naringin on the hepatic drug-metabolizing CYP3A enzyme in human, pig, mouse and fish

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