Ein Betrieb in zwei Diktaturen von der Bleichert Transportanlagen GmbH zum VEB VTA Leipzig 1932 bis 1963 /

Werner, Oliver.

January 2004

Thesis (doctoral)--Leipzig, 2002.

VEB VTA Leipzig. Business and politics

The Effects of Acute and Chronic Nicotine on GABA and Dopamine Neurons in the Midbrain Ventral Tegmental Area

Taylor, Devin Hardy

13 March 2011

Nicotine (NIC) abuse involves activation of midbrain dopamine (DA) neurons and NIC addiction involves neuroadaptive changes in the mesolimbic DA reward system. GABA neurons in the midbrain ventral tegmental area (VTA) express α4β2-containing nicotinic acetylcholine receptors (nAChRs), whose activation increases GABAergic input to DA neurons. However, this initial effect is decreased after chronic NIC treatment (as in the case of smokers) by inducing nAChR desensitization. Thus, GABA neuron inhibition results in increased DA release in limbic structures such as the nucleus accumbens. To support this hypothesis, we evaluated the effects of acute and chronic NIC on GAD-67 positive neurons in the VTA of GAD GFP mice using in vivo and in vitro electrophysiological methods. In in vivo studies in naïve mice, stimulation of the peduncopontine tegmental nucleus (PPT) activated VTA GABA neurons orthodromically and antidromically. Orthodromic activation of VTA GABA neuron spikes by PPT stimulation was blocked by the nAChR mecamylamine (1 mg/kg). Acute systemic NIC (0.15-0.5 mg/kg IV) had mixed overall effects on VTA GABA neuron firing rate, but in situ microelectrophoretic application of NIC produced a brisk and consistent enhancement (200-500 %) of VTA GABA neuron firing rate that showed no acute tolerance or sensitization with repeated, periodic current application. Local NIC activation was blocked by systemic administration of mecamylamine. Compared to 12 day chronic saline injections, chronic NIC injections (2 mg/kg IP/day) significantly increased VTA GABA neuron firing rate. In in vitro studies, compared to 12 day chronic saline injections, chronic NIC injections decreased DA neuron firing rate. In addition, chronic NIC increased DA neuron, but decreased GABA neuron GABA-mediated sIPSCs. These findings demonstrate that there is reciprocal innervation between the PPT and VTA and that cholinergic input from the PPT is excitatory on VTA GABA neurons. Moreover, VTA GABA neurons are excited by acute NIC and sensitize to chronic NIC, suggesting that α4β2 nAChR subunits on these neurons may play an important role in the adaptations to chronic NIC. Thus, quantitative molecular studies are ongoing to determine specific alterations in nAChRs on VTA GABA neurons to chronic NIC.

VTA

GABA

dopamine

nicotine

Psychology

VTA-aggregatet : En undersökning av driftegenskaper och funktion vid slowsteaming.

Lundin, Edward

January 2011

Turboaggregat med variabel geometri har länge funnit hos automobiler, men det dröjde ända tills 2008 innan det första dök upp på ett fartyg. Syftet med denna undersökning har varit att kontrollera om de fördelar som Man B&W hävdar att VTA-aggregatet skall ha stämmer, samt att undersöka om VTA-aggregatet kan lösa de problem som uppkommer i och med att man kör med reducerad fart, s.k. slowsteaming. För att undersöka detta har jag bedrivit litteraturstudie, med insamling av data mestadels från Internet. Resultatet av undersökningen visar på att ett VTA-aggregat kan minska bränsleförbrukningen och vissa emissioner vid reducerad fart jämfört med en konventionell turbo av samma storlek. Den minskade bränsleförbrukningen leder i sin tur till ekonomiska vinster. Ett VTA-aggregat lindrar också vissa av de problem som uppkommer vid slowsteaming. Med de uppgifter som kommit fram anser jag att VTA-aggregatet är praktiskt för fartyg som tillämpar slowsteaming, men att använda en VTA-turbo på ett nybyggt fartyg för att man ska slowsteama finner jag vara ett slöseri med kapital och kapacitet. / Turbocharger with variable geometry has for a longtime been used in automobiles, but it was not until 2008 that the first one appeared on a ship. The purpose of this study is to control if the benefits of the VTA-turbo claimed by Man B&W are accurate and to examine if the VTA turbo does have the ability to solve the problems occurring when the ship is moving with reduced speed, so called slowsteaming. To investigate this I have conducted a literature study, with collection of data mostly from the Internet. The result of the study shows that a VTA turbo can reduce fuel consumption and emissions at reduced speed compared with a conventional turbo of the same size. The reduction in fuel consumption leads to economic gains. A VTA turbo also eases some of the problems that arise from slowsteaming. With the information received, I believe that a VTA turbo is convenient for those ships that use slow steaming. However, to use a VTA turbo on newly built ships in order to slow steam, I consider being a waste of capital and capacity.

VTA-turbo

emissions

fuel reduction

slowsteaming

VTA-turbo

emissioner

bränsleförbrukning

slowsteaming

Elucidating the fear - maintaining properties of the Ventral Tegmental Area

Taylor, Amanda Lee

January 2008

The ventral tegmental area (VTA) and its dopaminergic (DA) mesocorticolimbic projections are thought to be essential in the brain’s reward neurocircuitry. In humans and animal experimental subjects, mild electrical VTA stimulation increases dopamine levels and can induce euphoria. Paradoxically, aversive stimuli activate VTA neurons and forebrain DA activity, and excessive electrical stimulation of the VTA exaggerates fearfulness. Research suggests that experimental manipulation of either the amygdala or the VTA has similar effects on the acquisition and expression of Pavlovian conditioned fear. Recently it was demonstrated that electrical stimulation of the amygdala produced fear extinction deficits in rats. Fear extinction involves the progressive dissipation of conditioned fear responses by repeated non-reinforced exposure to a conditioned stimulus (CS). Maladaptive states of fear in fear-related anxiety disorders, such as post-traumatic stress disorders (PTSD) or specific phobias are thought to reflect fear extinction learning deficits. The primary purpose of the present study was to examine the effects of intra-VTA stimulation on fear extinction learning. Using fear-potentiated startle as a behavioural index of conditioned fear, it was found that 120 VTA stimulations paired or unpaired with non-reinforced CS presentations impaired the extinction of conditioned fear. This effect was not apparent in rats that received electrical stimulation of the substantia nigra (SN), suggesting that not all midbrain regions respond similarly. Electrical stimulation parameters did not have aversive affects because rats failed to show fear conditioning when electrical VTA stimulation was used as the unconditioned stimulus. Also, VTA stimulation did not alter conditioned fear expression in non-extinguished animals. Based on the results it is suggested that VTA activation disinhibited conditioned fear responding. Therefore, VTA neuronal excitation by aversive stimuli may play a role in fear-related anxiety disorders thought to reflect extinction learning deficits.

Ventral tegmental area (VTA)

Pavlovian conditioned fear

fear extinction

intra-VTA electrical stimulation

Elucidating the fear - maintaining properties of the Ventral Tegmental Area

Taylor, Amanda Lee

January 2008

The ventral tegmental area (VTA) and its dopaminergic (DA) mesocorticolimbic projections are thought to be essential in the brain’s reward neurocircuitry. In humans and animal experimental subjects, mild electrical VTA stimulation increases dopamine levels and can induce euphoria. Paradoxically, aversive stimuli activate VTA neurons and forebrain DA activity, and excessive electrical stimulation of the VTA exaggerates fearfulness. Research suggests that experimental manipulation of either the amygdala or the VTA has similar effects on the acquisition and expression of Pavlovian conditioned fear. Recently it was demonstrated that electrical stimulation of the amygdala produced fear extinction deficits in rats. Fear extinction involves the progressive dissipation of conditioned fear responses by repeated non-reinforced exposure to a conditioned stimulus (CS). Maladaptive states of fear in fear-related anxiety disorders, such as post-traumatic stress disorders (PTSD) or specific phobias are thought to reflect fear extinction learning deficits. The primary purpose of the present study was to examine the effects of intra-VTA stimulation on fear extinction learning. Using fear-potentiated startle as a behavioural index of conditioned fear, it was found that 120 VTA stimulations paired or unpaired with non-reinforced CS presentations impaired the extinction of conditioned fear. This effect was not apparent in rats that received electrical stimulation of the substantia nigra (SN), suggesting that not all midbrain regions respond similarly. Electrical stimulation parameters did not have aversive affects because rats failed to show fear conditioning when electrical VTA stimulation was used as the unconditioned stimulus. Also, VTA stimulation did not alter conditioned fear expression in non-extinguished animals. Based on the results it is suggested that VTA activation disinhibited conditioned fear responding. Therefore, VTA neuronal excitation by aversive stimuli may play a role in fear-related anxiety disorders thought to reflect extinction learning deficits.

Ventral tegmental area (VTA)

Pavlovian conditioned fear

fear extinction

intra-VTA electrical stimulation

Site-specific Facilitation or Inhibition of Dopamine-reward by Viral Transfection of M5 Muscarinic Receptors in the Tegmentum of M5 Knockout Mice

Wasserman, David

28 July 2010

Knockdown of the M5 acetylcholine muscarinic receptor in the ventral tegmental area (VTA) reduces brain-stimulation reward sensitivity in rats. Knockout (KO) of the M5 receptor in mice reduces morphine-induced dopamine efflux, locomotion, conditionedplace- preference, and mating-induced 30-110 kHz ultrasonic vocalizations (USVs). The GFP-labeled M5 receptor gene was transfected using a Herpes simplex virus either into the VTA or 0.2-0.7 mm posterior in the medial tegmentum (MT) of male M5 KO mice. HSV-M5-GFP transfection in VTA fully restored mating-induced USVs and augmented morphine-induced locomotion and stereotypy consistent with activation of DA neurons by M5 receptors. HSV-M5-GFP transfection sites in the MT inhibited USVs and morphine-induced locomotion presumably through inhibition of DA neurons. Putative transfection of M5 in GABA neurons of the rostromedial tegmental nucleus (RMTg) or 5HT neurons of the median raphe (mR) may explain this inhibition. Therefore, HSV-M5- GFP transfection in the VTA enhances DA-mediated behaviours while MT transfections inhibits these behaviours.

M5

muscarinic

knockout

VTA

RMTg

USV

HSV

DA

0317

Site-specific Facilitation or Inhibition of Dopamine-reward by Viral Transfection of M5 Muscarinic Receptors in the Tegmentum of M5 Knockout Mice

Wasserman, David

28 July 2010

Knockdown of the M5 acetylcholine muscarinic receptor in the ventral tegmental area (VTA) reduces brain-stimulation reward sensitivity in rats. Knockout (KO) of the M5 receptor in mice reduces morphine-induced dopamine efflux, locomotion, conditionedplace- preference, and mating-induced 30-110 kHz ultrasonic vocalizations (USVs). The GFP-labeled M5 receptor gene was transfected using a Herpes simplex virus either into the VTA or 0.2-0.7 mm posterior in the medial tegmentum (MT) of male M5 KO mice. HSV-M5-GFP transfection in VTA fully restored mating-induced USVs and augmented morphine-induced locomotion and stereotypy consistent with activation of DA neurons by M5 receptors. HSV-M5-GFP transfection sites in the MT inhibited USVs and morphine-induced locomotion presumably through inhibition of DA neurons. Putative transfection of M5 in GABA neurons of the rostromedial tegmental nucleus (RMTg) or 5HT neurons of the median raphe (mR) may explain this inhibition. Therefore, HSV-M5- GFP transfection in the VTA enhances DA-mediated behaviours while MT transfections inhibits these behaviours.

M5

muscarinic

knockout

VTA

RMTg

USV

HSV

DA

0317

Projection Neurons of the Nucleus Accumbens: An Intracellular Labeling Study

Chang, H. T., Kitai, S. T.

11 November 1985

Projection neurons of nucleus accumbens (NAC) of the rat were identified by either antidromic activation from stimulation of midbrain ventral tegmental area-substantia nigra (VTA-SN) regions, or by tracing axons of intracellularly labeled NAC neurons into the ventral pallidum. The morphology of these NAC projection neurons were determined to be medium spiny neurons similar to those identified in the caudate-putamen.

intracellular labeling

nucleus accumbens

ventral striatum

ventral tegmental area (VTA)

Brain Stimulation Reward is Integrated by A Network of Electrically-Coupled GABA Neurons

Lassen, Matthew Brian

07 December 2006

Although it is well-established that animals will self-stimulate electric current to various diverse brain structures, the neural substrate of brain stimulation reward (BSR) has eluded identification since its discovery more than a half-century ago. We show that GABA neurons in the midbrain, hypothalamus and thalamus express connexin-36 (Cx36) gap junctions and couple electrically with dopamine application or by stimulation of the internal capsule (IC), which also supports self-stimulation. The threshold for responding for self-stimulation of the IC is the threshold for coupling between these GABA neurons, the degree of responding for IC ICSS is proportional to the magnitude of electrical coupling between these GABA neurons, and GJ blockers, including the Cx36 blocker mefloquine, increase the threshold for IC self-stimulation without affecting performance. Thus, electrical coupling between this network of GABA neurons fits the prevailing model for the elusive integrator of BSR.

VTA

BSR

ICSS

brain stimulation reward

GABA

dopamine

Neuroscience and Neurobiology

Does Electroacupuncture Affect Ethanol Modulation of Mesolimbic Neurons?

Park, Jung Jae

13 July 2010

The purpose of this project was to investigate the mechanism of action of acupuncture on a critical neural substrate involved in alcoholism. Specifically, this study evaluated the effects of stimulation of the acupuncture Shenmen (HT7) point on inhibitory GABA neurons in the ventral tegmental area (VTA), a midbrain structure implicated in drug and alcohol abuse, and ethanol self-administration. In addition, the role of opioid receptors (ORs) in ethanol and acupuncture effects was explored. Using electrophysiological methods in mature rats, we evaluated the effects of HT7 stimulation and opioid antagonists on the VTA GABA neuron firing rate. With behavioral paradigms, we also assessed those effects on ethanol self-administration, using a modification of the sucrose fading procedure. We found that HT7 stimulation produced a biphasic modulation of VTA GABA neuron firing rate characterized by transient enhancement at the onset of stimulation followed by a prolonged inhibition and subsequent recovery in 5 min. HT7 stimulation blocked the typical suppression of VTA GABA neuron firing rate produced by a moderately intoxicating dose of ethanol. The late inhibition produced by HT7 stimulation as well as HT7 reversal of ethanol's effects on GABA neuron firing rate was blocked by the non-selective opioid receptor antagonist, naloxoneIn addition, HT7 acupuncture reduced ethanol self-administration without affecting sucrose consumption. More important, systemic administration of the δ-opioid receptor (DOR) antagonist, naltrindole blocked ethanol suppression of VTA GABA neuron firing rate and significantly reduced ethanol self-administration without affecting sucrose consumption. These findings suggest that DOR-mediated opioid modulation of VTA GABA neurons may be related to the role of acupuncture in modulating mesolimbic DA release and suppressing the reinforcing effects of ethanol. We confirmed that acupuncture stimulation may have a significant impact on the inhibitory neuron activity in the VTA and that acupuncture may serve as an effective adjunct to OR antagonist therapy for alcoholism.

GABA

opioid

VTA

ethanol

acupuncture

dopamine

nucleus accumbens

Psychology