Taizo Nakazato’s research while affiliated with Juntendo University and other places

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Publications (33)


Experimental paradigm. a “Lever (+)” indicates lever appearance and “Lever (−)” indicates lever removal. The small bar between lever appearance and removal indicates sounding of the tone cue, which occurred 20 times per session. b Expansion of the intra-session paradigm. Closed bars indicate “correct” lever press (LP), open bars indicate food delivery, and grey bars indicate premature LPs. Bar thickness represents the duration of each continued LP. The first LP following a cue tone was considered correct and rewarded with food pellet delivery. LPs other than the correct LP were considered incorrect premature LPs, and were not rewarded with food delivery
The positions of the tips of recording electrodes. Recordings were obtained from examined rats using conventional (closed triangles) or wireless (open triangles) voltammetry.
Figures were modified from the rat brain atlas (Paxinos and Watson 1986)
Comparisons between metergoline, ketanserin, PCPA, and controls regarding reaction time (RT), number of premature lever presses (LPs), and reward acquisition rate (RAR). a RT differed significantly between metergoline and ketanserin, between metergoline and PCPA, and between ketanserin and control. b The number of premature LPs differed significantly between metergoline and ketanserin, between metergoline and PCPA, between metergoline and control, between ketanserin and control, and between PCPA and control. c RAR differed significantly between metergoline and PCPA, and between PCPA and control. Data are presented as mean ± SD. *p < 0.05, ***p < 0.01, by Scheffe’s test
Fast phasic dopamine (DA) changes upon rewarded lever presses (LPs) after drug administration. Data were aligned at the time of LP (time 0) and compared with control data obtained in rats the day before drug administration. a Metergoline administration (filled circle; n = 6) caused significant fast DA increases (Scheffe’s test; p < 0.01), and the metergoline group differed significantly from the control group (open circle; n = 6; p < 0.03, two-way ANOVA). Compared to time 0, the metergoline group showed significant increases at 0.5 s and 0.75 s (*p < 0.05, ***p < 0.01, Scheffe’s test). b The ketanserin group (filled circle; n = 6) did not show significant changes compared with the control group (open circle; p = 0.60, two-way ANOVA). c PCPA did not cause significant fast phasic DA increases (p = 0.94; n = 6). d Simultaneous comparisons between fast DA changes after administration of metergoline (filled circle), ketanserin (open circle), and PCPA (filled triangle) are shown. Changes after metergoline administration differed significantly from changes after ketanserin or PCPA administration (both p < 0.01, two-way ANOVA). No significant difference was found between ketanserin and PCPA (p = 0.92). Significant differences were found at 0.5 s between metergoline and ketanserin (☆☆p < 0.03, Welch’s t test) and between metergoline and PCPA (★★p < 0.03); at 0.75 s between metergoline and ketanserin (☆☆☆p < 0.01) and between metergoline and PCPA (★★★p < 0.01); and at 1.0 s between metergoline and PCPA (★p < 0.05). Data are presented as mean ± SE
Fast dopamine (DA) changes upon unrewarded premature lever presses (LPs) after metergoline administration. Mean changes (± SE) of DA concentrations in six rats are shown. Examined data (n = 14) include instances where the incorrect lever press lasted ≥ 0.5 s, and there was a latent time of > 2 s before the next cue-tone delivery. We found a significant difference between 0.5 and 1.5 s (*p < 0.05, Scheffe’s test). DA increases were reduced soon after lever release. DA appeared to increase again starting at 1.75 s, although this change was not significant. Horizontal bar indicates the duration of incorrect lever press

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Dual-mode dopamine increases mediated by 5-HT1B and 5-HT2C receptors inhibition, inducing impulsive behavior in trained rats
  • Article
  • Full-text available

October 2019

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64 Reads

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2 Citations

Experimental Brain Research

Taizo Nakazato

Patients with eating disorders exhibit problems with appetitive impulse control. Interactions between dopamine and serotonin (5-HT) neuron in this setting are poorly characterized. Here we examined 5-HT receptor-mediated changes in extracellular dopamine during impulsive appetitive behavior in rats. Rats were trained to perform a cued lever-press (LP) task for a food reward such that they stopped experiencing associated dopamine increases. Trained rats were administered the mixed 5-HT1B/2C-receptor antagonist metergoline, the 5-HT2A/2C-receptor antagonist ketanserin, and p-chlorophenylalanine (PCPA). We measured dopamine changes in the ventral striatum using voltammetry and examined the number of premature LPs, reaction time (RT), and reward acquisition rate (RAR). Compared with controls, metergoline increased premature LPs and shortened RT significantly; ketanserin decreased premature LPs and lengthened RT significantly; and PCPA decreased premature LPs, lengthened RT, and decreased RAR significantly. Following metergoline administration, rats exhibited a fast phasic dopamine increase for 0.25–0.75 s after a correct LP, but only during LP for an incorrect LP. No dopamine increases were detected with ketanserin or PCPA, or in controls. After LP task completion, metergoline also caused dopamine to increase slowly and remain elevated; in contrast, ketanserin caused dopamine to increase slowly and decrease rapidly. No slow dopamine increase occurred with PCPA. Inhibition of 5-HT1B- and 5-HT2C-receptors apparently induced dual modes of extracellular dopamine increase: fast phasic, and slow long-lasting. These increases may be associated with the suppression of acquired prediction learning and retention of high motivation for reward, leading to impulsive excessive premature LPs.

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Dual modes of extracellular serotonin changes in the rat ventral striatum modulate adaptation to a social stress environment, studied with wireless voltammetry

July 2012

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20 Reads

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9 Citations

Experimental Brain Research

The role of serotonin in stress and anxiety, particularly in social environments, is not well understood. Selective serotonin reuptake inhibitors are useful for patients that experience social anxiety; however, their mechanism of action has not been fully characterized. Dopamine is known to operate in different temporal modes (fast phasic, intermediate, and tonic changes). We hypothesized that serotonin may also operate in temporal modes in the context of social stress. We used wireless voltammetry (4 Hz) to investigate changes in extracellular ventral striatal serotonin and dopamine during a test of repeated social interactions between two rats. Test rats (electrode-implanted; n = 5) and counter rats (n = 6) were placed in separate sections of a partitioned box. The partitions were raised to allow interactions for 10 min; four sessions were repeated at 10-min intervals. In the first session, serotonin increased gradually, then peaked at approximately the end of the interaction, and decreased rapidly between sessions. This slow phasic increase in serotonin diminished gradually (but significantly) in subsequent interactions. Test rats received active, one-sided contacts (chasing, walking-over, and occasional attacking behavior) from counter rats. Changes in contact times were not correlated with changes in phasic serotonin increases. Dopamine levels did not increase. Citalopram caused significant suppression of slow phasic increases, caused tonic increases in basal serotonin concentrations, and caused active (chasing, all grooming), but not aggressive behavior in test rats. These findings implied that the slow phasic serotonin increase in the ventral striatum induced adaptation to social stress caused by a counter rat; moreover, the tonic increase in serotonin promoted the adaptive change and caused socially dominant behavior.


Impaired in vivo dopamine release in parkin knockout mice

September 2010

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46 Reads

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47 Citations

Brain Research

parkin is the most frequent causative gene among familial Parkinson's disease (PD). Although parkin deficiency induces autosomal recessive juvenile parkinsonism (AR-JP, PARK2) in humans, parkin knockout (PKO) mice consistently show few signs of dopaminergic degeneration. We aimed to directly measure evoked extracellular dopamine (DA) overflow in the striatum with in vivo voltammetry. The amplitude of evoked DA overflow was low in PKO mice. The half-life time of evoked DA overflow was long in PKO mice suggesting lower release and uptake of dopamine. Facilitation of DA overflow by repetitive stimulation enhanced in the older PKO mice. Decreased dopamine release and uptake in young PKO mice suggest early pre-symptomatic changes in dopamine neurotransmission, while the enhanced facilitation in the older PKO mice may reflect a compensatory adaptation in dopamine function during the late pre-symptomatic phase of Parkinson's disease. Our results showed parkin deficiency may affect DA release in PKO mice, although it does not cause massive nigral degeneration or parkinsonian symptoms as in humans.



Wireless voltammetry recording in unanesthetised behaving rats

February 2008

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19 Reads

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16 Citations

Neuroscience Research

In vivo voltammetry is a valuable technique for rapid measurement of dopamine in the brain of freely behaving rats. Using a conventional voltammetry system, however, behavioural freedom is restricted by cables connecting the head assembly to the measurement system. To overcome these difficulties, we developed a wireless voltammetry system utilizing radio waves. This system consisted of a potentiostat and transmitter system that was mounted on the back of the rat, and a receiver and analysis system. A single-step pulse (100-250 mV) was applied at 4 Hz after an activation pulse to a carbon fibre recording electrode (diameter: 7 microm). Measurement of dopamine (detection limit: 2.7 x 10(-7)M) was demonstrated in vitro. In vivo experiment was performed at least 1 week after the recording electrode was implanted in the rat striatum. Administration of 2-phenylethylamine to rats increased dopamine signal current, which was consistent with the result in the microdialysis measurement. During a resident-intruder test, dopamine signal current in a resident rat increased upon introduction of an intruder rat. These results show that the present wireless system is useful for a long-term measurement of dopamine in behaving rats.



Fabrication, Characterization, and Application of Boron-Doped Diamond Microelectrodes for in Vivo Dopamine Detection

December 2007

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58 Reads

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229 Citations

Analytical Chemistry

Highly boron-doped diamond (BDD) was deposited on chemically etched micrometer-sized tungsten wires using microwave plasma assisted chemical vapor deposition (MPCVD), and these were used to fabricate BDD microelectrodes. BDD microelectrodes with very small diameter (about 5 microm) and 250 microm in length could be made successfully. In addition to the unique properties of BDD electrodes, such as a very low background current, high stability, and selective oxidation of dopamine (DA) in the presence of ascorbic acid (AA), other superior properties of the microelectrodes, including a constant current response, an increase in the mass transport, and the ability for use in high resistance media were also shown. An application study was conducted for in vivo detection of DA in mouse brain, where the BDD microelectrode was inserted into the corpus striatum of the mouse brain. A clear signal current response following medial forebrain bundle (MFB) stimulation could be obtained with high sensitivity. Excellent stability was achieved, indicating that the BDD microelectrodes are very promising for future in vivo electroanalysis.



Citations (21)


... Post-SRC disruptions to the connections may thusly reduce the suppression of impulsive behaviors. Impulsivity has been found to precede increased dopaminergic signaling [46] with greater signaling levels linked to higher impulsivity [47]. Michalowska-Sawczyn et al. (2019) [48] compared elite athletes to physically active male controls, and found that athletes with higher impulsive traits predicted high-risk sports participation as well as a positive association between the dopamine D4 receptor gene and study group. ...

Reference:

Sensation-Seeking and Impulsivity in Athletes with Sport-Related Concussion
Dual-mode dopamine increases mediated by 5-HT1B and 5-HT2C receptors inhibition, inducing impulsive behavior in trained rats

Experimental Brain Research

... In keeping with this, changes in axonal excitability have been reported to correlate with more standard measures of motor axon degeneration, such as CMAP amplitude (345). A persistent Na + conductance has been observed to be a predictor for shorter survival time and rapid inter-regional spread (346,347). Changes in the pattern of abnormal membrane properties with disease progression have also been reported (341). Availability of the specialist hardware/software may limit uptake; however further study of longitudinal utility and test-retest reproducibility is warranted. ...

Increased motor axonal persistent sodium currents is associated with rapid regional spreading in amyotrophic lateral sclerosis
  • Citing Article
  • October 2017

Journal of the Neurological Sciences

... Three major processes by which compounds are cleared from the extracellular space are diffusion, metabolism and uptake into nearby cells. It is known that dopamine and MPP q , but not sulpiride, can be taken up Ž via dopamine transporter proteins Shimada et al., 1991; Cass et al., 1993; Nakazato and Akiyama, 1993; Valchar . and Hanbauer, 1993 . ...

1326 Kinetics of MPTP administered into the rat striatum: In vivo voltammetric measurement of MPTP and MPP+
  • Citing Article
  • December 1993

Neuroscience Research Supplements

... Although the latter fits with an inhibitory role of 5-HT in vertebrate aggression, the anti-aggressive effects of autoreceptor activation suggest that 5-HT stimulates aggression. In support of this, social challenge in rodents and lizards is accompanied by rapid phasic increases in 5-HT in various brain regions (Watt et al., 2007;Nakazato, 2013;Takahashi et al., 2015). Combined, the overlap in functional effects of receptor subtypes again points to more similarities than differences between invertebrates and vertebrates in 5-HTmediated modulation of aggression. ...

Dual modes of extracellular serotonin changes in the rat ventral striatum modulate adaptation to a social stress environment, studied with wireless voltammetry
  • Citing Article
  • July 2012

Experimental Brain Research

... As mentioned above, with other genes, PARK2 KO in mice did not produce a clear PD phenotype. Models just showed partial and mild signs of PD like deficits in the dopamine system and motor symptoms, but none or only moderate loss of dopaminergic neurons was detected [47][48][49][50]58]. However, noradrenergic neurons in the locus coeruleus were found to degenerate in other PARK2 KO models [59]. ...

Impaired in vivo dopamine release in parkin knockout mice
  • Citing Article
  • September 2010

Brain Research

... Mirroring anomalous findings discussed above with very high doses of L-DOPA and tissue levels of DA, using voltammetry, it has been reported that 5-HT lesions did not modify the extracellular DA signal induced by high doses of L-DOPA in DA-depleted rats (Nakazato and Akiyama, 1992). Further, the effect of 100 mg/kg L-DOPA on c-Fos expression in the striatum was insensitive to 5-HT lesion (Lopez et al., 2001). ...

Decarboxylation of Exogenous l-3,4-Dihydroxyphenylalanine in Rat Striatum as Studied by In Vivo Voltammetry
  • Citing Article
  • February 1992

... X-linked adrenoleukodystrophy (X-ALD), a fatal neurodegenerative disorder, is caused by a defect in the adenosine triphosphate-binding cassette D1 (ABCD1) gene, which is involved in the peroxisomal oxidation of very long chain fatty acids (VLCFAs). 1 Childhood cerebral ALD and adrenomyeloneuropathy (AMN), the two most common phenotypes, account for 70--80% of patients with X-ALD. 1,2 Presentation as spinocerebellar degeneration or olivopontocerebellar degeneration have been rarely reported in literature, [3][4][5][6][7][8][9] and these reports described a mutation in exon 2 or exon 8 of the ABCD1 gene in these unusual phenotypic variants of X-ALD. 4,5,9 Herein, we report a Korean male with X-ALD with an ...

Adrenoleukodystrophy Presenting as Spinocerebellar Degeneration
  • Citing Article
  • February 1989

European Neurology

... Earlier findings have demonstrated that l-DOPA may act on its own (40). l-DOPA produces some pharmacological actions not through conversion to DA (41), which suggests antiparkinsonian action of l-DOPA itself shown in both the 6-OHDA-lesioned and reserpine-treated rat models of PD (42,43). Such antiparkinson action happened before the elevation in DA when l-DOPA was administered after pretreatment with benserazide or in the absence of DA when l-DOPA was given in combination with NSD-1015, a central AADC inhibitor (43). ...

Effect of exogenousL-DOPA on behavior in the rat: an in vivo voltammetric study
  • Citing Article
  • July 1989

Brain Research

... Felix and Nakazato with their coworkers found that the chronoamperometry applied voltage lower than 0.55 V would not interfere with spontaneous neuronal activity. 29,30 Recently, the microsensor based on galvanic redox potentiometry suffers no potential disturbance to electric activities of surrounding neurons during in vivo analysis since the galvanic cell system established potential equilibrium under infinitesimal current. 31 All of them take good progresses for probing more exact neurochemical dynamics under the condition of neuronal compatibility with carbon fiber microelectrodes. ...

A triangular conditioning voltage wave does not influence spontaneous neuronal activity in the rat striatum
  • Citing Article
  • February 1993

Journal of Neuroscience Methods