Quantitative pharmacologic MRI: Mapping the cerebral blood volume response to cocaine in dopamine transporter knockout mice

Teodora Adriana Perles-Barbacaru; Daniel Procissi; Andrey V. Demyanenko; F. Scott Hall; George R. Uhl; Russell E. Jacobs

doi:10.1016/j.neuroimage.2010.12.048

Quantitative pharmacologic MRI: Mapping the cerebral blood volume response to cocaine in dopamine transporter knockout mice

Teodora Adriana Perles-Barbacaru, Daniel Procissi, Andrey V. Demyanenko, F. Scott Hall, George R. Uhl, Russell E. Jacobs^*

^*Corresponding author for this work

Radiology

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

20 Scopus citations

Abstract

The use of pharmacologic MRI (phMRI) in mouse models of brain disorders allows noninvasive in vivo assessment of drug-modulated local cerebral blood volume changes (δCBV) as one correlate of neuronal and neurovascular activities. In this report, we employed CBV-weighted phMRI to compare cocaine-modulated neuronal activity in dopamine transporter (DAT) knockout (KO) and wild-type mice. Cocaine acts to block the dopamine, norepinephrine, and serotonin transporters (DAT, NET, and SERT) that clear their respective neurotransmitters from the synapses, helping to terminate cognate neurotransmission. Cocaine consistently reduced CBV, with a similar pattern of regional δCBV in brain structures involved in mediating reward in both DAT genotypes. The largest effects (- 20% to - 30% δCBV) were seen in the nucleus accumbens and several cortical regions. Decreasing response amplitudes to cocaine were noted in more posterior components of the cortico-mesolimbic circuit. DAT KO mice had significantly attenuated δCBV amplitudes, shortened times to peak response, and reduced response duration in most regions. This study demonstrates that DAT knockout does not abolish the phMRI responses to cocaine, suggesting that adaptations to loss of DAT and/or retained cocaine activity in other monoamine neurotransmitter systems underlie these responses in DAT KO mice.

Original language	English (US)
Pages (from-to)	622-628
Number of pages	7
Journal	Neuroimage
Volume	55
Issue number	2
DOIs	https://doi.org/10.1016/j.neuroimage.2010.12.048
State	Published - Mar 15 2011

Funding

The authors thank Hargun Sohi and Thomas Ng for their technical assistance, Davit Janvelyan for helping with the AIR software, Guerbet Research (Aulnay-Sous-Bois, France) for providing the P904 contrast agent. This project was funded in part by the Beckman Institute , NIDA R01DA18184 , and NCRR U24 RR021760 Mouse BIRN and by funding from the National Institute on Drug Abuse, Intramural Research Program (GRU, FSH).

ASJC Scopus subject areas

Neurology
Cognitive Neuroscience

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title = "Quantitative pharmacologic MRI: Mapping the cerebral blood volume response to cocaine in dopamine transporter knockout mice",

abstract = "The use of pharmacologic MRI (phMRI) in mouse models of brain disorders allows noninvasive in vivo assessment of drug-modulated local cerebral blood volume changes (δCBV) as one correlate of neuronal and neurovascular activities. In this report, we employed CBV-weighted phMRI to compare cocaine-modulated neuronal activity in dopamine transporter (DAT) knockout (KO) and wild-type mice. Cocaine acts to block the dopamine, norepinephrine, and serotonin transporters (DAT, NET, and SERT) that clear their respective neurotransmitters from the synapses, helping to terminate cognate neurotransmission. Cocaine consistently reduced CBV, with a similar pattern of regional δCBV in brain structures involved in mediating reward in both DAT genotypes. The largest effects (- 20\% to - 30\% δCBV) were seen in the nucleus accumbens and several cortical regions. Decreasing response amplitudes to cocaine were noted in more posterior components of the cortico-mesolimbic circuit. DAT KO mice had significantly attenuated δCBV amplitudes, shortened times to peak response, and reduced response duration in most regions. This study demonstrates that DAT knockout does not abolish the phMRI responses to cocaine, suggesting that adaptations to loss of DAT and/or retained cocaine activity in other monoamine neurotransmitter systems underlie these responses in DAT KO mice.",

author = "Perles-Barbacaru, \{Teodora Adriana\} and Daniel Procissi and Demyanenko, \{Andrey V.\} and Hall, \{F. Scott\} and Uhl, \{George R.\} and Jacobs, \{Russell E.\}",

note = "Funding Information: The authors thank Hargun Sohi and Thomas Ng for their technical assistance, Davit Janvelyan for helping with the AIR software, Guerbet Research (Aulnay-Sous-Bois, France) for providing the P904 contrast agent. This project was funded in part by the Beckman Institute , NIDA R01DA18184 , and NCRR U24 RR021760 Mouse BIRN and by funding from the National Institute on Drug Abuse, Intramural Research Program (GRU, FSH).",

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AU - Uhl, George R.

AU - Jacobs, Russell E.

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N2 - The use of pharmacologic MRI (phMRI) in mouse models of brain disorders allows noninvasive in vivo assessment of drug-modulated local cerebral blood volume changes (δCBV) as one correlate of neuronal and neurovascular activities. In this report, we employed CBV-weighted phMRI to compare cocaine-modulated neuronal activity in dopamine transporter (DAT) knockout (KO) and wild-type mice. Cocaine acts to block the dopamine, norepinephrine, and serotonin transporters (DAT, NET, and SERT) that clear their respective neurotransmitters from the synapses, helping to terminate cognate neurotransmission. Cocaine consistently reduced CBV, with a similar pattern of regional δCBV in brain structures involved in mediating reward in both DAT genotypes. The largest effects (- 20% to - 30% δCBV) were seen in the nucleus accumbens and several cortical regions. Decreasing response amplitudes to cocaine were noted in more posterior components of the cortico-mesolimbic circuit. DAT KO mice had significantly attenuated δCBV amplitudes, shortened times to peak response, and reduced response duration in most regions. This study demonstrates that DAT knockout does not abolish the phMRI responses to cocaine, suggesting that adaptations to loss of DAT and/or retained cocaine activity in other monoamine neurotransmitter systems underlie these responses in DAT KO mice.

AB - The use of pharmacologic MRI (phMRI) in mouse models of brain disorders allows noninvasive in vivo assessment of drug-modulated local cerebral blood volume changes (δCBV) as one correlate of neuronal and neurovascular activities. In this report, we employed CBV-weighted phMRI to compare cocaine-modulated neuronal activity in dopamine transporter (DAT) knockout (KO) and wild-type mice. Cocaine acts to block the dopamine, norepinephrine, and serotonin transporters (DAT, NET, and SERT) that clear their respective neurotransmitters from the synapses, helping to terminate cognate neurotransmission. Cocaine consistently reduced CBV, with a similar pattern of regional δCBV in brain structures involved in mediating reward in both DAT genotypes. The largest effects (- 20% to - 30% δCBV) were seen in the nucleus accumbens and several cortical regions. Decreasing response amplitudes to cocaine were noted in more posterior components of the cortico-mesolimbic circuit. DAT KO mice had significantly attenuated δCBV amplitudes, shortened times to peak response, and reduced response duration in most regions. This study demonstrates that DAT knockout does not abolish the phMRI responses to cocaine, suggesting that adaptations to loss of DAT and/or retained cocaine activity in other monoamine neurotransmitter systems underlie these responses in DAT KO mice.

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Quantitative pharmacologic MRI: Mapping the cerebral blood volume response to cocaine in dopamine transporter knockout mice

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