Early postnatal ataxia and abnormal cerebellar development in mice lacking Xeroderma pigmentosum group A and Cockayne syndrome group B DNA repair genes

Machiko Murai; Yasushi Enokido; Naoko Inamura; Masafumi Yoshino; Yoshimichi Nakatsu; Gijsbertus T.J. Van Der Horst; Jan H.J. Hoeijmakers; Kiyoji Tanaka; Hiroshi Hatanaka

doi:10.1073/pnas.231329598

Early postnatal ataxia and abnormal cerebellar development in mice lacking Xeroderma pigmentosum group A and Cockayne syndrome group B DNA repair genes

Machiko Murai, Yasushi Enokido, Naoko Inamura, Masafumi Yoshino, Yoshimichi Nakatsu, Gijsbertus T.J. Van Der Horst, Jan H.J. Hoeijmakers, Kiyoji Tanaka, Hiroshi Hatanaka

Bioregulation

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Abstract

Xeroderma pigmentosum (XP) and Cockayne syndrome (CS) are rare autosomal recessive disorders associated with a defect in the nucleotide excision repair (NER) pathway required for the removal of DNA damage induced by UV light and distorting chemical adducts. Although progressive neurological dysfunction is one of the hallmarks of CS and of some groups of XP patients, the causative mechanisms are largely unknown. Here we show that mice lacking both the XPA (XP-group A) and CSB (CS-group B) genes in contrast to the single mutants display severe growth retardation, ataxia, and motor dysfunction during early postnatal development. Their cerebella are hypoplastic and showed impaired foliation and stunted Purkinje cell dendrites. Reduced neurogenesis and increased apoptotic cell death occur in the cerebellar external granular layer. These findings suggest that XPA and CSB have additive roles in the mouse nervous system and support a crucial role for these genes in normal brain development.

Original language	English
Pages (from-to)	13379-13384
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	98
Issue number	23
DOIs	https://doi.org/10.1073/pnas.231329598
Publication status	Published - Nov 6 2001

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Murai, M., Enokido, Y., Inamura, N., Yoshino, M., Nakatsu, Y., Van Der Horst, G. T. J., Hoeijmakers, J. H. J., Tanaka, K., & Hatanaka, H. (2001). Early postnatal ataxia and abnormal cerebellar development in mice lacking Xeroderma pigmentosum group A and Cockayne syndrome group B DNA repair genes. Proceedings of the National Academy of Sciences of the United States of America, 98(23), 13379-13384. https://doi.org/10.1073/pnas.231329598

Early postnatal ataxia and abnormal cerebellar development in mice lacking Xeroderma pigmentosum group A and Cockayne syndrome group B DNA repair genes. / Murai, Machiko; Enokido, Yasushi; Inamura, Naoko et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 98, No. 23, 06.11.2001, p. 13379-13384.

Research output: Contribution to journal › Article › peer-review

Murai, M, Enokido, Y, Inamura, N, Yoshino, M, Nakatsu, Y, Van Der Horst, GTJ, Hoeijmakers, JHJ, Tanaka, K & Hatanaka, H 2001, 'Early postnatal ataxia and abnormal cerebellar development in mice lacking Xeroderma pigmentosum group A and Cockayne syndrome group B DNA repair genes', Proceedings of the National Academy of Sciences of the United States of America, vol. 98, no. 23, pp. 13379-13384. https://doi.org/10.1073/pnas.231329598

Murai M, Enokido Y, Inamura N, Yoshino M, Nakatsu Y, Van Der Horst GTJ et al. Early postnatal ataxia and abnormal cerebellar development in mice lacking Xeroderma pigmentosum group A and Cockayne syndrome group B DNA repair genes. Proceedings of the National Academy of Sciences of the United States of America. 2001 Nov 6;98(23):13379-13384. doi: 10.1073/pnas.231329598

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abstract = "Xeroderma pigmentosum (XP) and Cockayne syndrome (CS) are rare autosomal recessive disorders associated with a defect in the nucleotide excision repair (NER) pathway required for the removal of DNA damage induced by UV light and distorting chemical adducts. Although progressive neurological dysfunction is one of the hallmarks of CS and of some groups of XP patients, the causative mechanisms are largely unknown. Here we show that mice lacking both the XPA (XP-group A) and CSB (CS-group B) genes in contrast to the single mutants display severe growth retardation, ataxia, and motor dysfunction during early postnatal development. Their cerebella are hypoplastic and showed impaired foliation and stunted Purkinje cell dendrites. Reduced neurogenesis and increased apoptotic cell death occur in the cerebellar external granular layer. These findings suggest that XPA and CSB have additive roles in the mouse nervous system and support a crucial role for these genes in normal brain development.",

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AU - Yoshino, Masafumi

AU - Nakatsu, Yoshimichi

AU - Van Der Horst, Gijsbertus T.J.

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N2 - Xeroderma pigmentosum (XP) and Cockayne syndrome (CS) are rare autosomal recessive disorders associated with a defect in the nucleotide excision repair (NER) pathway required for the removal of DNA damage induced by UV light and distorting chemical adducts. Although progressive neurological dysfunction is one of the hallmarks of CS and of some groups of XP patients, the causative mechanisms are largely unknown. Here we show that mice lacking both the XPA (XP-group A) and CSB (CS-group B) genes in contrast to the single mutants display severe growth retardation, ataxia, and motor dysfunction during early postnatal development. Their cerebella are hypoplastic and showed impaired foliation and stunted Purkinje cell dendrites. Reduced neurogenesis and increased apoptotic cell death occur in the cerebellar external granular layer. These findings suggest that XPA and CSB have additive roles in the mouse nervous system and support a crucial role for these genes in normal brain development.

AB - Xeroderma pigmentosum (XP) and Cockayne syndrome (CS) are rare autosomal recessive disorders associated with a defect in the nucleotide excision repair (NER) pathway required for the removal of DNA damage induced by UV light and distorting chemical adducts. Although progressive neurological dysfunction is one of the hallmarks of CS and of some groups of XP patients, the causative mechanisms are largely unknown. Here we show that mice lacking both the XPA (XP-group A) and CSB (CS-group B) genes in contrast to the single mutants display severe growth retardation, ataxia, and motor dysfunction during early postnatal development. Their cerebella are hypoplastic and showed impaired foliation and stunted Purkinje cell dendrites. Reduced neurogenesis and increased apoptotic cell death occur in the cerebellar external granular layer. These findings suggest that XPA and CSB have additive roles in the mouse nervous system and support a crucial role for these genes in normal brain development.

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Early postnatal ataxia and abnormal cerebellar development in mice lacking Xeroderma pigmentosum group A and Cockayne syndrome group B DNA repair genes

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