Repair capacity for Platinum-DNA adducts determines the severity of cisplatin-induced peripheral neuropathy
Repair capacity for Platinum-DNA adducts determines the severity of cisplatin-induced peripheral neuropathy
The pronounced neurotoxicity of the potent antitumor drug cisplatin frequently results in the onset of peripheral polyneuropathy ( PNP), which is assumed to be initially triggered by platination products in the nuclear DNA of affected tissues. To further elucidate the molecular mechanisms, we analyzed in a mouse model the formation and processing of the main cisplatin-induced DNA adduct ( guanine-guanine intrastrand cross-link) in distinct neuronal cell types by adduct-specific monoclonal antibodies. Comparison of the adduct kinetics in cisplatin-injected mice either proficient or deficient for nucleotide excision repair ( NER) functions revealed the essential role of this DNA repair pathway in protecting differentiated cells of the nervous system from excessive formation of such lesions. Hence, chronic exposure to cisplatin resulted in an accelerated accumulation of unrepaired intrastrand cross-links in neuronal cells of mice with dysfunctional NER. The augmented adduct levels in dorsal root ganglion ( DRG) cells of those animals coincided with an earlier onset of PNP-like functional disturbance of their sensory nervous system. Independently from the respective repair phenotype, the amount of persisting DNA cross-links in DRG neurons at a given cumulative dose was significantly correlated to the degree of sensory impairment as measured by electroneurography. Collectively, these findings suggest a new model for the processing of cisplatin adducts in primary neuronal cells and accentuate the crucial role of effectual DNA repair capacity in the target cells for the individual risk of therapy-induced PNP.
neurotoxicity, cancer-cells, neurons, model, cisplatin, root ganglion neurons, nucleotide excision-repair, mouse model, antibodies, risk, impairment, dna adducts, disturbance, system
9451-9457
Dzagnidze, Anna
1e4144d0-c24a-4ee0-8f12-0c4eeb31452d
Katsarava, Zaza
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Makhalova, Julia
1fe8a178-1307-4ad1-9451-5e572f39c7dd
Liedert, Bernd
0ff9d8f7-4c15-4a25-bfa4-d326fbf4cf22
Yoon, Min-Suk
7ec3b54d-5f30-43ec-abf7-316aae19ed73
Kaube, Holger
aeb4ca74-af45-4586-b38b-cc3ff0ebfe6f
Limmroth, Volker
46e63143-ef2c-4e94-b4d2-7ebae2ca3f03
Thomale, Juergen
aef475eb-6ed7-4e14-88c5-2bc4512c5f48
29 August 2007
Dzagnidze, Anna
1e4144d0-c24a-4ee0-8f12-0c4eeb31452d
Katsarava, Zaza
1670e710-0633-49d9-9a29-45bcde40ba04
Makhalova, Julia
1fe8a178-1307-4ad1-9451-5e572f39c7dd
Liedert, Bernd
0ff9d8f7-4c15-4a25-bfa4-d326fbf4cf22
Yoon, Min-Suk
7ec3b54d-5f30-43ec-abf7-316aae19ed73
Kaube, Holger
aeb4ca74-af45-4586-b38b-cc3ff0ebfe6f
Limmroth, Volker
46e63143-ef2c-4e94-b4d2-7ebae2ca3f03
Thomale, Juergen
aef475eb-6ed7-4e14-88c5-2bc4512c5f48
Dzagnidze, Anna, Katsarava, Zaza, Makhalova, Julia, Liedert, Bernd, Yoon, Min-Suk, Kaube, Holger, Limmroth, Volker and Thomale, Juergen
(2007)
Repair capacity for Platinum-DNA adducts determines the severity of cisplatin-induced peripheral neuropathy.
Journal of Neuroscience, 27 (35), .
(doi:10.1523/JNEUROSCI.0523-07.2007).
Abstract
The pronounced neurotoxicity of the potent antitumor drug cisplatin frequently results in the onset of peripheral polyneuropathy ( PNP), which is assumed to be initially triggered by platination products in the nuclear DNA of affected tissues. To further elucidate the molecular mechanisms, we analyzed in a mouse model the formation and processing of the main cisplatin-induced DNA adduct ( guanine-guanine intrastrand cross-link) in distinct neuronal cell types by adduct-specific monoclonal antibodies. Comparison of the adduct kinetics in cisplatin-injected mice either proficient or deficient for nucleotide excision repair ( NER) functions revealed the essential role of this DNA repair pathway in protecting differentiated cells of the nervous system from excessive formation of such lesions. Hence, chronic exposure to cisplatin resulted in an accelerated accumulation of unrepaired intrastrand cross-links in neuronal cells of mice with dysfunctional NER. The augmented adduct levels in dorsal root ganglion ( DRG) cells of those animals coincided with an earlier onset of PNP-like functional disturbance of their sensory nervous system. Independently from the respective repair phenotype, the amount of persisting DNA cross-links in DRG neurons at a given cumulative dose was significantly correlated to the degree of sensory impairment as measured by electroneurography. Collectively, these findings suggest a new model for the processing of cisplatin adducts in primary neuronal cells and accentuate the crucial role of effectual DNA repair capacity in the target cells for the individual risk of therapy-induced PNP.
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Published date: 29 August 2007
Keywords:
neurotoxicity, cancer-cells, neurons, model, cisplatin, root ganglion neurons, nucleotide excision-repair, mouse model, antibodies, risk, impairment, dna adducts, disturbance, system
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Local EPrints ID: 62367
URI: http://eprints.soton.ac.uk/id/eprint/62367
ISSN: 0270-6474
PURE UUID: f35f4841-5005-418f-9dd1-ebe582041b53
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Date deposited: 12 Sep 2008
Last modified: 15 Mar 2024 11:30
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Author:
Anna Dzagnidze
Author:
Zaza Katsarava
Author:
Julia Makhalova
Author:
Bernd Liedert
Author:
Min-Suk Yoon
Author:
Holger Kaube
Author:
Volker Limmroth
Author:
Juergen Thomale
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