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Inhibition of PDE10A in a New Rat Model of Severe Dopamine Depletion Suggests New Approach to Non-Dopamine Parkinson’s Disease Therapy. / Суханов, Илья Михайлович; Доротенко, Артем Романович; Фесенко, Зоя Сергеевна; Савченко, Артём Алексеевич; Ефимова, Евгения Викторовна; Мор, Микаэль Сергеевич; Белозерцева, Ирина Владимировна; Сотникова, Татьяна Дмитриевна; Гайнетдинов, Рауль Радикович.

In: Biomolecules, Vol. 13, No. 1, 9, 2023.

Research output: Contribution to journalArticlepeer-review

Harvard

Суханов, ИМ, Доротенко, АР, Фесенко, ЗС, Савченко, АА, Ефимова, ЕВ, Мор, МС, Белозерцева, ИВ, Сотникова, ТД & Гайнетдинов, РР 2023, 'Inhibition of PDE10A in a New Rat Model of Severe Dopamine Depletion Suggests New Approach to Non-Dopamine Parkinson’s Disease Therapy', Biomolecules, vol. 13, no. 1, 9. https://doi.org/10.3390/biom13010009

APA

Суханов, И. М., Доротенко, А. Р., Фесенко, З. С., Савченко, А. А., Ефимова, Е. В., Мор, М. С., Белозерцева, И. В., Сотникова, Т. Д., & Гайнетдинов, Р. Р. (2023). Inhibition of PDE10A in a New Rat Model of Severe Dopamine Depletion Suggests New Approach to Non-Dopamine Parkinson’s Disease Therapy. Biomolecules, 13(1), [9]. https://doi.org/10.3390/biom13010009

Vancouver

Суханов ИМ, Доротенко АР, Фесенко ЗС, Савченко АА, Ефимова ЕВ, Мор МС et al. Inhibition of PDE10A in a New Rat Model of Severe Dopamine Depletion Suggests New Approach to Non-Dopamine Parkinson’s Disease Therapy. Biomolecules. 2023;13(1). 9. https://doi.org/10.3390/biom13010009

Author

Суханов, Илья Михайлович ; Доротенко, Артем Романович ; Фесенко, Зоя Сергеевна ; Савченко, Артём Алексеевич ; Ефимова, Евгения Викторовна ; Мор, Микаэль Сергеевич ; Белозерцева, Ирина Владимировна ; Сотникова, Татьяна Дмитриевна ; Гайнетдинов, Рауль Радикович. / Inhibition of PDE10A in a New Rat Model of Severe Dopamine Depletion Suggests New Approach to Non-Dopamine Parkinson’s Disease Therapy. In: Biomolecules. 2023 ; Vol. 13, No. 1.

BibTeX

@article{8b1cd3ce6f384613bee4e750e7356546,
title = "Inhibition of PDE10A in a New Rat Model of Severe Dopamine Depletion Suggests New Approach to Non-Dopamine Parkinson{\textquoteright}s Disease Therapy",
abstract = "Parkinson's disease is the second most common neurodegenerative pathology. Due to the limitations of existing therapeutic approaches, novel anti-parkinsonian medicines with non-dopamine mechanisms of action are clearly needed. One of the promising pharmacological targets for anti-Parkinson drug development is phosphodiesterase (PDE) 10A. The stimulating motor effects of PDE10A inhibition were detected only under the conditions of partial dopamine depletion. The results raise the question of whether PDE10A inhibitors are able to restore locomotor activity when dopamine levels are very low. To address this issue, we (1) developed and validated the rat model of acute severe dopamine deficiency and (2) tested the action of PDE10A inhibitor MP-10 in this model. All experiments were performed in dopamine transporter knockout (DAT-KO) rats. A tyrosine hydroxylase inhibitor, α-Methyl-DL-tyrosine (αMPT), was used as an agent to cause extreme dopamine deficiency. In vivo tests included estimation of locomotor activity and catalepsy levels in the bar test. Additionally, we evaluated the tissue content of dopamine in brain samples by HPLC analysis. The acute administration of αMPT to DAT-KO rats caused severe depletion of dopamine, immobility, and catalepsy (Dopamine-Deficient DAT-KO (DDD) rats). As expected, treatment with the L-DOPA and carbidopa combination restored the motor functions of DDD rats. Strikingly, administration of MP-10 also fully reversed immobility and catalepsy in DDD rats. According to neurochemical studies, the action of MP-10, in contrast to L-DOPA + carbidopa, seems to be dopamine-independent. These observations indicate that targeting PDE10A may represent a new promising approach in the development of non-dopamine therapies for Parkinson's disease.",
keywords = "Animals, Carbidopa, Catalepsy/complications, Dopamine, Levodopa/pharmacology, Parkinson Disease/drug therapy, Rats, hypodopaminergia, locomotor activity, PDE10A inhibitors, Parkinson{\textquoteright}s disease, dopamine transporter knockout rat",
author = "Суханов, {Илья Михайлович} and Доротенко, {Артем Романович} and Фесенко, {Зоя Сергеевна} and Савченко, {Артём Алексеевич} and Ефимова, {Евгения Викторовна} and Мор, {Микаэль Сергеевич} and Белозерцева, {Ирина Владимировна} and Сотникова, {Татьяна Дмитриевна} and Гайнетдинов, {Рауль Радикович}",
year = "2023",
doi = "10.3390/biom13010009",
language = "English",
volume = "13",
journal = "Biomolecules",
issn = "2218-273X",
publisher = "MDPI AG",
number = "1",

}

RIS

TY - JOUR

T1 - Inhibition of PDE10A in a New Rat Model of Severe Dopamine Depletion Suggests New Approach to Non-Dopamine Parkinson’s Disease Therapy

AU - Суханов, Илья Михайлович

AU - Доротенко, Артем Романович

AU - Фесенко, Зоя Сергеевна

AU - Савченко, Артём Алексеевич

AU - Ефимова, Евгения Викторовна

AU - Мор, Микаэль Сергеевич

AU - Белозерцева, Ирина Владимировна

AU - Сотникова, Татьяна Дмитриевна

AU - Гайнетдинов, Рауль Радикович

PY - 2023

Y1 - 2023

N2 - Parkinson's disease is the second most common neurodegenerative pathology. Due to the limitations of existing therapeutic approaches, novel anti-parkinsonian medicines with non-dopamine mechanisms of action are clearly needed. One of the promising pharmacological targets for anti-Parkinson drug development is phosphodiesterase (PDE) 10A. The stimulating motor effects of PDE10A inhibition were detected only under the conditions of partial dopamine depletion. The results raise the question of whether PDE10A inhibitors are able to restore locomotor activity when dopamine levels are very low. To address this issue, we (1) developed and validated the rat model of acute severe dopamine deficiency and (2) tested the action of PDE10A inhibitor MP-10 in this model. All experiments were performed in dopamine transporter knockout (DAT-KO) rats. A tyrosine hydroxylase inhibitor, α-Methyl-DL-tyrosine (αMPT), was used as an agent to cause extreme dopamine deficiency. In vivo tests included estimation of locomotor activity and catalepsy levels in the bar test. Additionally, we evaluated the tissue content of dopamine in brain samples by HPLC analysis. The acute administration of αMPT to DAT-KO rats caused severe depletion of dopamine, immobility, and catalepsy (Dopamine-Deficient DAT-KO (DDD) rats). As expected, treatment with the L-DOPA and carbidopa combination restored the motor functions of DDD rats. Strikingly, administration of MP-10 also fully reversed immobility and catalepsy in DDD rats. According to neurochemical studies, the action of MP-10, in contrast to L-DOPA + carbidopa, seems to be dopamine-independent. These observations indicate that targeting PDE10A may represent a new promising approach in the development of non-dopamine therapies for Parkinson's disease.

AB - Parkinson's disease is the second most common neurodegenerative pathology. Due to the limitations of existing therapeutic approaches, novel anti-parkinsonian medicines with non-dopamine mechanisms of action are clearly needed. One of the promising pharmacological targets for anti-Parkinson drug development is phosphodiesterase (PDE) 10A. The stimulating motor effects of PDE10A inhibition were detected only under the conditions of partial dopamine depletion. The results raise the question of whether PDE10A inhibitors are able to restore locomotor activity when dopamine levels are very low. To address this issue, we (1) developed and validated the rat model of acute severe dopamine deficiency and (2) tested the action of PDE10A inhibitor MP-10 in this model. All experiments were performed in dopamine transporter knockout (DAT-KO) rats. A tyrosine hydroxylase inhibitor, α-Methyl-DL-tyrosine (αMPT), was used as an agent to cause extreme dopamine deficiency. In vivo tests included estimation of locomotor activity and catalepsy levels in the bar test. Additionally, we evaluated the tissue content of dopamine in brain samples by HPLC analysis. The acute administration of αMPT to DAT-KO rats caused severe depletion of dopamine, immobility, and catalepsy (Dopamine-Deficient DAT-KO (DDD) rats). As expected, treatment with the L-DOPA and carbidopa combination restored the motor functions of DDD rats. Strikingly, administration of MP-10 also fully reversed immobility and catalepsy in DDD rats. According to neurochemical studies, the action of MP-10, in contrast to L-DOPA + carbidopa, seems to be dopamine-independent. These observations indicate that targeting PDE10A may represent a new promising approach in the development of non-dopamine therapies for Parkinson's disease.

KW - Animals

KW - Carbidopa

KW - Catalepsy/complications

KW - Dopamine

KW - Levodopa/pharmacology

KW - Parkinson Disease/drug therapy

KW - Rats

KW - hypodopaminergia

KW - locomotor activity

KW - PDE10A inhibitors

KW - Parkinson’s disease

KW - dopamine transporter knockout rat

UR - https://www.mendeley.com/catalogue/babbefc6-2880-3a00-9ce5-5b7989a713c9/

U2 - 10.3390/biom13010009

DO - 10.3390/biom13010009

M3 - Article

C2 - 36671394

VL - 13

JO - Biomolecules

JF - Biomolecules

SN - 2218-273X

IS - 1

M1 - 9

ER -

ID: 105812696