Vitamin A and marbling attributes: Intramuscular fat hyperplasia effects in cattle.

Twenty Angus steers were fed a diet low in ß-carotene and vitamin A for 10months. Ten steers were supplemented with vitamin A weekly, while the other ten steers did not receive any additional vitamin A. The results demonstrated that the restriction of vitamin A intake increased intramuscular fat (IMF) by 46%. This was a function of the total number of marbling flecks increasing by 22% and the average marbling fleck size increasing by 14%. Vitamin A restriction resulted in marbling flecks that were less branched (22%) and slightly more round (4%) with an increased minor axis length (7%). However, restricting vitamin A did not affect the size of the intramuscular or subcutaneous adipocyte cells or the subcutaneous fat depth. The results suggest that vitamin A affects the amount of marbling and other attributes of the marbling flecks due to hyperplasia rather than hypertrophy. This may explain why vitamin A restriction specifically affects IMF rather than subcutaneous fat deposition.

Genetic mapping of quantitative trait loci for meat quality and muscle metabolic traits in cattle.

A whole-genome scan was carried out in New Zealand and Australia to detect quantitative trait loci (QTL) for live animal and carcass composition traits and meat quality attributes in cattle. Backcross calves (385 heifers and 398 steers) were generated, with Jersey and Limousin backgrounds. The New Zealand cattle were reared and finished on pasture, whilst Australian cattle were reared on grass and finished on grain for at least 180 days. This paper reports on meat quality traits (tenderness measured as shear force at 4-5 ages on two muscles as well as associated traits of meat colour, pH and cooking loss) and a number of metabolic traits. For meat quality traits, 18 significant QTL (P < 0.05), located in nine linkage groups, were detected on a genome-wise basis, in combined-sire (seven QTL) or within-sire analyses (11 QTL). For metabolic traits, 11 significant QTL (P < 0.05), located in eight linkage groups, were detected on a genome-wise basis, in combined-sire (five QTL) or within-sire analyses (six QTL). BTA2 and BTA3 had QTL for both metabolic traits and meat quality traits. Six significant QTL for meat quality and metabolic traits were found at the proximal end of chromosome 2. BTA2 and BTA29 were the most common chromosomes harbouring QTL for meat quality traits; QTL for improved tenderness were associated with Limousin-derived and Jersey-derived alleles on these two chromosomes, respectively.

Limousin myostatin F94L variant affects semitendinosus tenderness.

Texture parameters (peak force and compression), muscle myofibre diameter, and hydroxyproline were measured in semitendinosus samples from a cattle gene-mapping herd. The data were analysed to determine the relationships between these traits. The traits were also mapped by genetic linkage analysis to identify quantitative trait loci, and hence, candidate genes for these traits. Neither texture parameters were affected by the muscle structural traits of myofibre diameter or collagen content (as measured by hydroxyproline), despite significant variation in these traits between animals. QTL for the texture parameters of peak force and compression, as well as collagen content, were found on cattle chromosome 2 (BTA2) and attributed to the myostatin gene. Within the cattle population used for the QTL mapping, a gene variant of myostatin, F94L, has been previously shown to increase muscle mass, predominantly in the semitendinosus. It was determined herein that the F94L myostatin homozygous animals had more tender meat as measured by both peak force and compression. The variant was also responsible for a reduction in the collagen/elastin content of muscle. The myostatin F94L variant had no effect on muscle myofibre diameter of the semitendinosus, even though the variant causes substantial increases in muscle mass. Consequently, the increase in muscle mass of the variant must be due to myofibre hyperplasia and not hypertrophy. In addition, myostatin effects on tenderness are caused by changes in the extracellular matrix rather than muscle myofibre diameter.

Genotypic effects of calpain 1 and calpastatin on the tenderness of cooked M. longissimus dorsi steaks from Jersey x Limousin, Angus and Hereford-cross cattle.

Single nucleotide polymorphisms (SNPs) in the calpain 1 (CAPN1) and calpastatin (CAST) genes were studied to determine their effects on meat tenderness in Bos taurus cattle. Strip loins (M. longissimus dorsi) were removed from cattle in four resource populations after slaughter (n = 1042), aged under controlled conditions until fixed times after rigor mortis, cooked and measured using a tenderometer. Animals were genotyped for the CAPN1 SNP c.947C>G (p.Ala316Gly; AF252504) and for the CAST SNP c.2959A>G (AF159246). Frequencies of CAPN1 C alleles ranged from 23% to 68%, and CAST A alleles from 84% to 99.5%. From all data combined, the CAPN1 CC genotype (compared with the GG genotype) was associated with a 20.1 +/- 1.7% reduced average shear force at intermediate stages of ageing (P < 0.001) and with a 9.5 +/- 1.3% reduction near ultimate tenderness (P < 0.001). The heterozygote was intermediate. For CAST, corresponding values for AA compared with AG genotypes were reductions of 8.6 +/- 2.0% and 5.1 +/- 1.6% respectively (both P < 0.001), but there were too few GG genotypes for comparison. There were small interactions between the CAPN1 and CAST genotypes. For the CAPN1 and CAST genotypes combined, the maximal genotype effect in average shear force was 25.7 +/- 5.5% (P < 0.001) at intermediate stages and 15.2 +/- 4.8% near ultimate tenderness (P < 0.01).

Effect of low vitamin A status on fat deposition and fatty acid desaturation in beef cattle.

A group of Angus beef cattle was removed from temperate pastures and fed a very low beta-carotene cereal-based ration in a feedlot for over 300 d. Half the group was supplemented weekly with retinyl palmitate (at the rate of 60,000 IU vitamin A/100 live weight (LW)/day), sufficient to offset clinical vitamin A deficiency; the other half received no supplement. Blood was sampled from all animals at biweekly intervals to assess beta-carotene and vitamin A status. Adipose tissue was sampled by biopsy on three occasions throughout the experimental period and at slaughter to assess FA composition. Muscle was sampled at slaughter to determine the intramuscular fat content. The mean plasma concentration of beta-carotene of all animals fell from an initial value of 20.1 to 5.2 microg/mL at 14 d, to 1.4 microg/mL at 35 d, and to zero at 105 d. Mean vitamin A in plasma was not significantly different between the treatment groups initially. The values then rose to almost twice their initial values by 35 d, but subsequently fell to below initial values by day 119. Thereafter, plasma vitamin A of the supplemented group was significantly greater than that of the unsupplemented group (P < 0.05). Muscle samples at slaughter from supplemented animals contained significantly (P < 0.01) more intramuscular lipid (13.0 vs. 9.6%). Major changes occurred over time in FA composition in both groups. Saturated FA decreased as monounsaturated FA increased over the first 60 d. An index of desaturation of FA was significantly lower (P < 0.001) in the vitamin A-supplemented group than in the nonsupplemented group. M.P. of the adipose tissue of nonsupplemented animals was 32.3 degrees C, significantly less (P< 0.05) than that of supplemented animals (34.1 degrees C). Feeding vitamin A was associated with less intramuscular fat but with a less desirable (less unsaturated, more solid) FA profile.

beta-carotene and oxidative desaturation of fatty acids: a plausible explanation of the conflicting responses of coronary heart disease to beta-carotene?

Studies of the desaturation of saturated fatty acids in animals may help explain conflicting reports of the response of coronary heart disease (CHD) to beta-carotene in humans. A negative relationship exists between desaturation and adipose beta-carotene in cattle when they consume different quantities of beta-carotene. Opposing this finding, however, is a positive relationship between desaturation and adipose beta-carotene when cattle are fed the same quantity of beta-carotene. The reason for this apparent contradiction appears to be due to differences in consumption, or variability in the metabolism of beta-carotene. Animals that efficiently metabolize beta-carotene to vitamin A have low desaturation but high antioxidant potential. These results in animals show some similarity between the consumption of the antioxidant beta-carotene and the risk of coronary heart disease where the oxidation of low-density lipoproteins (LDL) is believed to play a role in the development of atherosclerotic plaque. Genetic differences in carotenoid metabolism in humans, similar to those in animals, would assist in explaining differences in lipoprotein oxidation in humans and variation in the risk of coronary heart disease.

Differences in delta9 desaturase activity between Jersey- and Limousin-sired cattle.

An experiment examined delta9 desaturase activity and FA composition in subcutaneous adipose tissue in two differing breeds of cattle. Jersey-sired cattle had significantly higher rates of desaturase activity than Limousin-sired cattle (1.55 vs. 0.75 nmol/mg protein/min). This difference was also demonstrated by a lower concentration of individual (e.g., 18:0) and total saturated FA (38.3 vs. 45.1 wt%), and a higher concentration of individual (e.g., 16:1) and total monounsaturated FA (58.2 vs. 52.7 wt%) in the Jersey animals. Other indices of desaturation calculated from the FA composition showed this same difference. The slip point of adipose tissue of Jersey cattle (36.8 degrees C) was significantly lower than that of Limousin cattle (39.2 degrees C), but Jersey adipose tissue had a greater content of beta-carotene. The positive relationship between adipose tissue beta-carotene and desaturation opposes the negative relationship between dietary beta-carotene and desaturation determined elsewhere. These results, however, lead to the hypothesis that some cattle have a reduced capacity to metabolize beta-carotene to various forms of vitamin A, a compound that can reduce delta9 desaturase enzyme activity. In addition, the higher level of intramuscular fat in Jersey cattle (6.97 vs. 3.82%) is possibly related to a lack of inhibition of the adipocyte differentiation genes by vitamin A.

Direct effects of 3,4-methylenedioxymethamphetamine (MDMA) on serotonin or dopamine release and uptake in the caudate putamen, nucleus accumbens, substantia nigra pars reticulata, and the dorsal raphé nucleus slices.

We examined the effects of pressure ejected 3, 4-methylenedioxymethamphetamine (MDMA) from a micropipette on direct chemically stimulated release, and on electrically stimulated serotonin (5-HT) or dopamine (DA) release in the caudate putamen (CPu), nucleus accumbens (NAc), substantia nigra pars reticulata (SNr), and the dorsal raphé nucleus (DRN) brain slices of rat, using fast cyclic voltammetry (FCV). MDMA is electroactive, oxidising at +1100 mV. When the anodic input waveform was reduced from +1.4 to +1.0 volt, MDMA was not electroactive. Using this waveform, pressure ejection of MDMA did not release 5-HT or DA in brain slices prepared from any of the nuclei studied. MDMA significantly potentiated electrically stimulated 5-HT release in the SNr and DA release in CPu. In the DRN or in the NAc, MDMA was without effect on peak electrically stimulated 5-HT or DA release. The rates of neurotransmitter uptake, expressed as t(1/2), were in all cases significantly decreased after MDMA. The results indicate that MDMA, unlike (+)amphetamine, is not as a releaser of DA or 5-HT, it is a potent inhibitor of both DA and 5-HT uptake.

MK-801 interaction with the 5-HT transporter: a real-time study in brain slices using fast cyclic voltammetry.

The effects of a noncompetitive N-methyl-D-aspartate (NMDA) receptor antagonist dizocilpine ((+)-MK-801) and a competitive NMDA antagonist, (+/-)-3-2-carboxypiperazin-4-yl-propyl-1-phosphonic acid (CPP) were compared in electrically evoked 5-HT release in the brain slices incorporating the substantia nigra pars reticulata (SNr) or the dorsal raphé nucleus (DRN) using fast cyclic voltammetry (FCV). Electrical stimulation of either the SNr or the DRN with 50 pulses at frequencies greater than 10 Hz generated signals that were indistinguishable from 5-HT. In the SNr, 0.6-60 microM MK-801 concentration dependently potentiated stimulated 5-HT release. CPP 20 microM or NMDA 100 microM had no effect on 5-HT release evoked by electrical stimulation. In the SNr, 1 microM fluvoxamine or 0.6-60 microM MK-801 potentiated electrically evoked release of 5-HT. Pre-exposure to 20 microM MK-801 inhibited the enhancing effects of 1 microM fluvoxamine on electrically evoked 5-HT release in the SNr. In the DRN, the presence of 1 microM fluvoxamine or 20 microM MK-801 weakly potentiated 5-HT release. In the presence of 1 microM methiothepin (a nonselective 5-HT1-2 antagonist), 1 microM fluvoxamine or 20 microM MK-801 were equipotent in potentiating the concentration of 5-HT released in response to electrical stimulation. The T1/2 values for 5-HT release following MK-801 or fluvoxamine administration were significantly increased. Potentiation of 5-HT release by MK-801 in the SNr and the DRN and lack of effect of either CPP or NMDA on 5-HT release or uptake argues against a role for NMDA receptors in modulation of 5-HT release. Inhibition of fluvoxamine induced potentiation of 5-HT signal in the presence of MK-801 suggests that MK-801 and fluvoxamine may interact at the level of the 5-HT transporter.

Differential release of dopamine by nitric oxide in subregions of rat caudate putamen slices.

Fast cyclic voltammetry was used to measure NO and dopamine (DA) simultaneously in rat caudate putamen (CPu) slices. Analysis of electrochemical signals obtained from mixtures of DA and NO showed that subtraction of either the DA or the NO component revealed the contribution of the other component. Application of such data manipulation to signals obtained in CPu slices indicated that DA and NO components contributed to electrochemical signals. Following electrical stimulation (>1 s), site-dependent NO-like signals were observed. Pressure ejection of NMDA yielded a biphasic electrochemical signal. The first phase (lasting 10-20 s) had electrochemical characteristics of DA and was observed only during the first application of NMDA. The second phase developed more slowly, was of longer duration (1-3 min), and had electrochemical characteristics of a mixture of DA and NO. Generation of the NO-like signal by NMDA was antagonised by L-N-monomethylarginine. Pressure ejection of NO into CPu slices caused dose- and site-dependent DA release. More DA was released in the dorsolateral than in the dorsomedial CPu. Pressure ejection of DA did not generate NO. It is concluded that electrically stimulated DA release is not mediated by prior release of NO.

Real time measurement of stimulated dopamine release in the conscious rat using fast cyclic voltammetry: dopamine release is not observed during intracranial self stimulation.

Fast cyclic voltammetry (FCV) was used to measure real time release of electrically stimulated endogenous dopamine in the nucleus accumbens (NAc) of conscious freely moving rats for up to 17 days. The method of electrode construction, implantation, electrical stimulation and recording of changes of extracellular dopamine concentration in the conscious rat are described. Rats trained on a continuous reinforcement schedule to perform intracranial self stimulation (ICSS) were implanted with electrodes for FCV. During ICSS, no faradaic signal was observed at an electrode implanted in the NAc. Decreasing the intensity of the stimulating current abolished ICSS, increasing the stimulating current disrupted ICSS. Operator delivered electrical stimulations using currents greater than those needed for ICSS yielded dopamine signals. It is concluded that during ICSS, sufficient dopamine does not reach the extracellular fluid space to yield a faradaic signal detectable by FCV.

Pharmacological characterisation of dopamine overflow in the striatum of the normal and MPTP-treated common marmoset, studied in vivo using fast cyclic voltammetry, nomifensine and sulpiride.

The in vivo measurement of electrically-evoked dopamine overflow was measured for the first time in the striatum of control and 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated common marmosets using fast cyclic voltammetry at untreated carbon-fibre microelectrodes, (7 microm, o.d.). The identity of dopamine was confirmed using electrochemical, pharmacological and histological criteria and complied with rat data from earlier studies. Dopamine overflow depended on the intensity, number of pulses, and frequency of the applied stimuli. Maximum dopamine overflow occurred using 1.0-2.0 mA, 200 micros pulse width, 150-200 pulses at 80-120 Hz stimulation of the medial forebrain bundle. Evoked dopamine overflow in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated marmosets showed a similar electrochemical and pharmacological profile compared to healthy controls, albeit the concentration detected was significantly reduced. The catecholamine uptake blocker, nomifensine, significantly increased the dopamine signal in control marmosets. However, in contrast, nomifensine had no significant effect on evoked dopamine overflow in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated marmosets. Apart from demonstrating that fast cyclic voltammetry with electrical stimulation can be reliably used to monitor dopamine overflow within the primate brain, our results describe for the first time the technical prerequisites for the fast cyclic voltammetric technique in the non-human primate brain.

Real-time measurement of stimulated 5-hydroxytryptamine release in rat substantia nigra pars reticulata brain slices.

Fast cyclic voltammetry at a carbon fibre microelectrode was used to measure 5-HT signals following electrical or chemical stimulation in rat substantia nigra pars reticulata slices. Chemical stimulation with (+)-amphetamine or veratrine gave signals which were indistinguishable from those of exogenous 5-HT. Electrical stimulation of sufficient duration gave voltammetric signals which were characteristic of 5-HT. Release of dopamine was not detected following either chemical or electrical stimulation. The 5-HT signals were attenuated by TTX and enhanced by fluvoxamine. It was not possible to demonstrate regulation of 5-HT release in the SNr by 5-HT1B autoreceptors using CGS 12066A or methiothepin. Signal following electrical stimulation were not enhanced by either benztropine or GBR12909, or modified in the presence of either quinpirole or sulpiride. We conclude that 5-HT release can be detected voltammetrically in the SNr; 5-HT release is likely to be from axon terminals, but somatodendritic DA release could not be detected.

The role of ventral tegmental dopamine neurons in locomotor sensitization following quinpirole or (+)-amphetamine: ex vivo voltammetric evidence.

Behavioural sensitization to the locomotor stimulating effects of (+)-amphetamine or quinpirole was induced in rats by intermittent drug administration. Following expression of sensitization, locomotor activity scores on day 9 were: vehicle 87 +/- 9, (+)-amphetamine 1441 +/- 227 and quinpirole 2078 +/- 214. Electrically stimulated dopamine release was measured on day 12 in ventral tegmental slices using fast cyclic voltammetry. Dopamine release was significantly elevated in the (+)-amphetamine- and quinpirole-treated groups when compared to vehicle-treated controls over a wide range of stimulation frequencies (5-200 Hz) and pulses (1-200). Quinpirole (1 microM) in the perfusion fluid attenuated dopamine release following 40-pulse, 200-Hz electrical stimulation, by 31.6 +/- 2.8% in the ventral tegmental area of the vehicle-treated group, by 14.8 +/- 5.6% in the (+)-amphetamine-treated group and 8 +/- 7.3% in the quinpirole-treated group. This study shows that dopamine release is increased in the ventral tegmental area following sensitization with either a direct or indirectly acting dopamine agonist. The findings that dopamine release was elevated at all stimulation frequencies in sensitized animals, and that quinpirole only attenuated this release at the highest stimulation frequency, would suggest that in addition to D2 autoreceptor subsensitivity, other mechanisms contribute to the enhanced release of dopamine in these animals.

Real-time effects of N-methyl-D-aspartic acid on dopamine release in slices of rat caudate putamen: a study using fast cyclic voltammetry.

The functional role of N-methyl-D-aspartic acid (NMDA) glutamate receptors in the real-time regulation of single electrical pulse (1 p)-stimulated endogenous dopamine release was investigated in slices of rat caudate putamen using fast cyclic voltammetry at a carbon fibre electrode. In the presence of Mg2+, 20 microM NMDA had a weak effect on background signals but did not affect 1 p-stimulated dopamine release. Removal of Mg2+ increased the background and doubled 1 p-stimulated dopamine release. In the absence of Mg2+, 20 microM NMDA caused a transient "release" of dopamine and decreased the background signal. The 1 p-stimulated dopamine release was subsequently reduced. In the presence of 1 microM (+/-)-3-(2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid (CPP), superfusion with 20 microM NMDA did not cause a transient "release" of dopamine, and 1 p-stimulated dopamine release was not subsequently attenuated. In the presence of 1 microM tetrodotoxin, 1 p-stimulated dopamine release was abolished, but 20 microM NMDA still caused a transient "release" of dopamine. Removal of Ca2+ from the artificial CSF abolished 1 p-stimulated dopamine release and resulted in a decline in the baseline but did not affect dopamine "release" when 20 microM NMDA was added. The dopamine release-inducing effect of 20 microM NMDA was less pronounced in sites in the caudate putamen where dopamine release increased with frequency of electrical stimulation (hot spots) than in sites where there was little frequency-dependent dopamine release (cold spots). Subsequent 1 p-stimulated dopamine release was less attenuated in cold spots than in hot spots. We conclude that in the absence of Mg2+, NMDA induces release of dopamine by acting at CPP-sensitive NMDA receptors in a Ca(2+)-independent manner. This transient release depletes dopamine from a storage site from which dopamine is released by 1 p electrical stimulation. These real-time observations of the effects of NMDA on electrical stimulus-independent and -dependent dopamine release may explain the apparently conflicting observations of the effects of NMDA on dopamine release made in previous studies. They also indicate that dopamine release and storage are heterogeneous at different sites in the rat caudate putamen.

Comparison of somatodendritic and axon terminal dopamine release in the ventral tegmental area and the nucleus accumbens.

Fast cyclic voltammetry at a carbon fibre microelectrode was used to measure dopamine release following electrical or chemical stimulation in rat brain slices incorporating either the ventral tegmental area or the core region of the nucleus accumbens. Electrical or chemical stimulation gave clear voltammetric signals which corresponded to dopamine; less dopamine was released in the ventral tegmental area than in the nucleus accumbens. In contrast to the nucleus accumbens, electrically stimulated dopamine release in the ventral tegmental area was not sensitive to tetrodotoxin, was not modified by the presence of dopamine uptake inhibitors, or agonist or blockers acting at dopamine D2 autoreceptors.

Influences of neuronal uptake and D2 autoreceptors on regulation of extracellular dopamine in the core, shell and rostral pole of the rat nucleus accumbens.

Fast cyclic voltammetry in rat brain slices containing the nucleus accumbens, was used to examine the regulation of the extracellular concentration of electrically stimulated dopamine overflow in the core, shell and rostral pole. One microM (-)-sulpiride, significantly increased dopamine overflow in all 3 regions but only when the duration of stimulation was greater than 500 ms. One microM cocaine, significantly potentiated dopamine overflow in all 3 regions following all patterns of stimulation. In the presence of 1 microM cocaine, superfusion with 1 microM (-)-sulpiride did not result in a further increase in dopamine overflow at any frequency of stimulation in the rostral pole, but significant increases in dopamine overflow were observed after stimulation with 20 pulses at 10 or 20 Hz in the core or shell; the degree of potentiation was greater in the shell than core. Quinpirole inhibited single pulse stimulated dopamine overflow in a concentration dependent manner (maximum inhibition (100%) in all regions) but was significantly less potent in the rostral pole than in the core or shell. Increasing the number of pulses to 2 or 4 pulses at 50 Hz resulted in a shift of the quinpirole dose-response curve to the right in all regions and in the rostral pole, a significant reduction in the maximum inhibition of dopamine overflow to both stimulation parameters. In the shell a significant reduction in maximum inhibition was only seen with 4 pulses at 50 Hz stimulation, whereas in the core there was no change in the maximum inhibitory effect of quinpirole. Neuronal uptake and D2 autoreceptor activity contribute to regulation of the extracellular concentration of dopamine in core, shell and rostral pole. The relative importance of either uptake or autoreceptor control is region and stimulus dependent.

Biphasic inhibition of stimulated endogenous dopamine release by 7-OH-DPAT in slices of rat nucleus accumbens.

1. Fast cyclic voltammetry was used to investigate the effect of 7-OH-DPAT (7-hydroxy-N,N-di-n-propyl-2-aminotetralin), a putative D3 receptor agonist, on electrically stimulated endogenous dopamine release in slices of rat nucleus accumbens. 2. 7-OH-DPAT inhibited single pulse stimulated dopamine release in a concentration-dependent manner with a maximum inhibition of 95.5%. Analysis of concentration-response curves to 7-OH-DPAT showed that they were biphasic, with the high affinity component contributing 18.0% to the total inhibition and the low affinity component 77.5%. 7-OH-DPAT exhibited a 560 fold selectivity between the high and low affinity components (0.015 nM compared to 8.4 nM). 3. Concentration-response curves to the non-selective D2/D3 agonist, apomorphine, were monophasic. The maximum inhibition was 93.1% and the EC50 value 82 nM. 4. The selective D2 antagonist, haloperidol (30 nM), antagonized the low affinity component of the concentration-response cuve to 7-OH-DPAT whilst the high affinity component was essentially unaffected. The pKB values calculated for the high and low affinity components were 7.89 and 9.45 respectively. 5. In conclusion, these results demonstrate that 7-OH-DPAT inhibits stimulated dopamine release by acting at two different sites. Furthermore, the results are consistent with the hypothesis that the high and low affinity components of the concentration-response curve to 7-OH-DPAT may reflect activation of functional D3 and D2 release-regulating autoreceptors respectively. However, the possibility that the biphasic nature of the curve may reflect different subtypes of the D2 receptor cannot be excluded.

Parametric analysis of the effects of cocaine and cocaine pretreatment on dopamine release in the nucleus accumbens measured by fast cyclic voltammetry.

Fast cyclic voltammetry was used to measure dopamine (DA) release in the nucleus accumbens of anaesthetized rats, in response to electrical sine-wave stimulation of the ventral tegmental area. Voltammetric signals followed increases in either frequency (50-100 Hz), intensity (50-100 microA) or duration (0.5-5.0 s) of the stimulus. Cocaine administration (10 mg/kg) preferentially increased DA release by weak electrical stimuli. Cocaine pretreatment (3 x 10 mg/kg, two weeks earlier) preferentially increased DA release by stronger stimuli, and the effects of acute cocaine were potentiated in these animals. The effects of increasing stimulus duration conformed to first order kinetics. Cocaine pretreatment selectively increased the kinetic parameter representing maximal release, while acute cocaine administration preferentially decreased the parameter representing the stimulus duration eliciting half maximal release. The lack of statistical interaction between these two effects suggests that sensitization of the response to acute cocaine by cocaine pretreatment may simply reflect an increase in the size of the releasable pool of DA.