Differential effects of PINK1 nonsense and missense mutations on mitochondrial function and morphology

A. Grünewald; M. E. Gegg; J. W. Taanman; R. H. King; N. Kock; C. Klein; A. H.V. Schapira

doi:10.1016/j.expneurol.2009.05.027

Differential effects of PINK1 nonsense and missense mutations on mitochondrial function and morphology

A. Grünewald, M. E. Gegg, J. W. Taanman, R. H. King, N. Kock, C. Klein, A. H.V. Schapira^*

^*Korrespondierende/r Autor/-in für diese Arbeit

101 Zitate (Scopus)

Abstract

Mutations of the PINK1 gene are a cause of autosomal recessive Parkinson's disease (PD). PINK1 encodes a mitochondrial kinase of unknown function which is widely expressed in both neuronal and non-neuronal cells. We have studied fibroblast cultures from four family members harbouring the homozygous p.Q456X mutation in PINK1, three of their wild-type relatives, one individual with the homozygous p.V170G mutation and five independent controls. Results showed bioenergetic abnormalities involving decreased activities of complexes I and IV along with increased activities of complexes II and III in the missense p.V170G mutant. There were increased basal levels of mitochondrial superoxide dismutase in these cells and an exaggerated increase of reduced glutathione in response to paraquat-induced free radical formation. Furthermore, swollen and enlarged mitochondria were observed in this sample. In the p.Q456X nonsense mutants, the respiratory chain enzymes were unaffected, but ATP levels were significantly decreased. These results confirm that mutations of PINK1 cause abnormal mitochondrial morphology, bioenergetic function and oxidative metabolism in human tissues but suggest that the biochemical consequences may vary between mutations.

Originalsprache	Englisch
Zeitschrift	Experimental Neurology
Jahrgang	219
Ausgabenummer	1
Seiten (von - bis)	266-273
Seitenumfang	8
ISSN	0014-4886
DOIs	https://doi.org/10.1016/j.expneurol.2009.05.027
Publikationsstatus	Veröffentlicht - 01.09.2009

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This study was supported by the Parkinson's Disease Society UK, the Kattan Trust, the Fritz Thyssen Foundation, the DFG and the DAAD. We are grateful to Prof. Simon Heales and Dr. Lee Stanyer (Institute of Neurology, London) for allowing the use of the reverse phase HPLC to measure GCH levels.

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10.1016/j.expneurol.2009.05.027

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Modifikatoren der PINK1-Funktion beim Morbus Parkinson
Kock, N. (Projektleiter*in (PI))
01.01.06 → 31.12.09
Projekt: DFG Einzelprojekte › DFG Einzelförderungen (Sachbeihilfen)

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title = "Differential effects of PINK1 nonsense and missense mutations on mitochondrial function and morphology",

abstract = "Mutations of the PINK1 gene are a cause of autosomal recessive Parkinson's disease (PD). PINK1 encodes a mitochondrial kinase of unknown function which is widely expressed in both neuronal and non-neuronal cells. We have studied fibroblast cultures from four family members harbouring the homozygous p.Q456X mutation in PINK1, three of their wild-type relatives, one individual with the homozygous p.V170G mutation and five independent controls. Results showed bioenergetic abnormalities involving decreased activities of complexes I and IV along with increased activities of complexes II and III in the missense p.V170G mutant. There were increased basal levels of mitochondrial superoxide dismutase in these cells and an exaggerated increase of reduced glutathione in response to paraquat-induced free radical formation. Furthermore, swollen and enlarged mitochondria were observed in this sample. In the p.Q456X nonsense mutants, the respiratory chain enzymes were unaffected, but ATP levels were significantly decreased. These results confirm that mutations of PINK1 cause abnormal mitochondrial morphology, bioenergetic function and oxidative metabolism in human tissues but suggest that the biochemical consequences may vary between mutations.",

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AU - Grünewald, A.

AU - Gegg, M. E.

AU - Taanman, J. W.

AU - King, R. H.

AU - Kock, N.

AU - Klein, C.

AU - Schapira, A. H.V.

PY - 2009/9/1

Y1 - 2009/9/1

N2 - Mutations of the PINK1 gene are a cause of autosomal recessive Parkinson's disease (PD). PINK1 encodes a mitochondrial kinase of unknown function which is widely expressed in both neuronal and non-neuronal cells. We have studied fibroblast cultures from four family members harbouring the homozygous p.Q456X mutation in PINK1, three of their wild-type relatives, one individual with the homozygous p.V170G mutation and five independent controls. Results showed bioenergetic abnormalities involving decreased activities of complexes I and IV along with increased activities of complexes II and III in the missense p.V170G mutant. There were increased basal levels of mitochondrial superoxide dismutase in these cells and an exaggerated increase of reduced glutathione in response to paraquat-induced free radical formation. Furthermore, swollen and enlarged mitochondria were observed in this sample. In the p.Q456X nonsense mutants, the respiratory chain enzymes were unaffected, but ATP levels were significantly decreased. These results confirm that mutations of PINK1 cause abnormal mitochondrial morphology, bioenergetic function and oxidative metabolism in human tissues but suggest that the biochemical consequences may vary between mutations.

AB - Mutations of the PINK1 gene are a cause of autosomal recessive Parkinson's disease (PD). PINK1 encodes a mitochondrial kinase of unknown function which is widely expressed in both neuronal and non-neuronal cells. We have studied fibroblast cultures from four family members harbouring the homozygous p.Q456X mutation in PINK1, three of their wild-type relatives, one individual with the homozygous p.V170G mutation and five independent controls. Results showed bioenergetic abnormalities involving decreased activities of complexes I and IV along with increased activities of complexes II and III in the missense p.V170G mutant. There were increased basal levels of mitochondrial superoxide dismutase in these cells and an exaggerated increase of reduced glutathione in response to paraquat-induced free radical formation. Furthermore, swollen and enlarged mitochondria were observed in this sample. In the p.Q456X nonsense mutants, the respiratory chain enzymes were unaffected, but ATP levels were significantly decreased. These results confirm that mutations of PINK1 cause abnormal mitochondrial morphology, bioenergetic function and oxidative metabolism in human tissues but suggest that the biochemical consequences may vary between mutations.

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Differential effects of PINK1 nonsense and missense mutations on mitochondrial function and morphology

Abstract

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Modifikatoren der PINK1-Funktion beim Morbus Parkinson

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