15 research outputs found
Cocaine self-administration in the mouse: A low-cost, chronic catheter preparation
Intravenous drug self-administration is the most valid animal model of human addiction because it allows volitional titration of the drug in the blood based on an individual’s motivational state together with the pharmacokinetic properties of the drug. Here we describe a reliable low-cost mouse self-administration catheter assembly and protocol that that can be used to assess a variety of drugs of abuse with a variety of protocols. We describe a method for intravenous catheter fabrication that allows for efficient and long-lasting intravenous drug delivery. The intravenous catheters remained intact and patent for several weeks allowing us to establish stable maintenance of cocaine acquisition. This was followed by a dose response study in the same mice. For collaborators interested in premade catheters for research please make a request at www.neuro-cloud.net/nature-precedings/pomerenze
High fidelity optogenetic control of individual prefrontal cortical pyramidal neurons in vivo
Precise spatial and temporal manipulation of neural activity in specific
genetically defined cell populations is now possible with the advent of
optogenetics. The emerging field of optogenetics consists of a set of
naturally-occurring and engineered light-sensitive membrane proteins that are
able to activate (e.g., channelrhodopsin-2, ChR2) or silence (e.g.,
halorhodopsin, NpHR) neural activity. Here we demonstrate the technique and the
feasibility of using novel adeno-associated viral (AAV) tools to activate
(AAV-CaMKll{\alpha}-ChR2-eYFP) or silence (AAV-CaMKll{\alpha}-eNpHR3.0-eYFP)
neural activity of rat prefrontal cortical prelimbic (PL) pyramidal neurons in
vivo. In vivo single unit extracellular recording of ChR2-transduced pyramidal
neurons showed that delivery of brief (10 ms) blue (473 nm) light-pulse trains
up to 20 Hz via a custom fiber optic-coupled recording electrode (optrode)
induced spiking with high fidelity at 20 Hz for the duration of recording (up
to two hours in some cases). To silence spontaneously active neurons we
transduced them with the NpHR construct and administered continuous green (532
nm) light to completely inhibit action potential activity for up to 10 seconds
with 100% fidelity in most cases. These versatile photosensitive tools combined
with optrode recording methods provide experimental control over activity of
genetically defined neurons and can be used to investigate the functional
relationship between neural activity and complex cognitive behavior.Comment: 4 pages, 4 figures F1000Research articl
Inactivation of a CRF-dependent amygdalofugal pathway reverses addiction-like behaviors in alcohol-dependent rats.
The activation of a neuronal ensemble in the central nucleus of the amygdala (CeA) during alcohol withdrawal has been hypothesized to induce high levels of alcohol drinking in dependent rats. In the present study we describe that the CeA neuronal ensemble that is activated by withdrawal from chronic alcohol exposure contains ~80% corticotropin-releasing factor (CRF) neurons and that the optogenetic inactivation of these CeA CRF+ neurons prevents recruitment of the neuronal ensemble, decreases the escalation of alcohol drinking, and decreases the intensity of somatic signs of withdrawal. Optogenetic dissection of the downstream neuronal pathways demonstrates that the reversal of addiction-like behaviors is observed after the inhibition of CeA CRF projections to the bed nucleus of the stria terminalis (BNST) and that inhibition of the CRFCeA-BNST pathway is mediated by inhibition of the CRF-CRF1 system and inhibition of BNST cell firing. These results suggest that the CRFCeA-BNST pathway could be targeted for the treatment of excessive drinking in alcohol use disorder
A Transgenic Rat for Investigating the Anatomy and Function of Corticotrophin Releasing Factor Circuits.
Corticotrophin-releasing factor (CRF) is a 41 amino acid neuropeptide that coordinates adaptive responses to stress. CRF projections from neurons in the central nucleus of the amygdala (CeA) to the brainstem are of particular interest for their role in motivated behavior. To directly examine the anatomy and function of CRF neurons, we generated a BAC transgenic Crh-Cre rat in which bacterial Cre recombinase is expressed from the Crh promoter. Using Cre-dependent reporters, we found that Cre expressing neurons in these rats are immunoreactive for CRF and are clustered in the lateral CeA (CeL) and the oval nucleus of the BNST. We detected major projections from CeA CRF neurons to parabrachial nuclei and the locus coeruleus, dorsal and ventral BNST, and more minor projections to lateral portions of the substantia nigra, ventral tegmental area, and lateral hypothalamus. Optogenetic stimulation of CeA CRF neurons evoked GABA-ergic responses in 11% of non-CRF neurons in the medial CeA (CeM) and 44% of non-CRF neurons in the CeL. Chemogenetic stimulation of CeA CRF neurons induced Fos in a similar proportion of non-CRF CeM neurons but a smaller proportion of non-CRF CeL neurons. The CRF1 receptor antagonist R121919 reduced this Fos induction by two-thirds in these regions. These results indicate that CeL CRF neurons provide both local inhibitory GABA and excitatory CRF signals to other CeA neurons, and demonstrate the value of the Crh-Cre rat as a tool for studying circuit function and physiology of CRF neurons
Cooperative CRF and α1 Adrenergic Signaling in the VTA Promotes NMDA Plasticity and Drives Social Stress Enhancement of Cocaine Conditioning
Summary: Stressful events rapidly trigger activity-dependent synaptic plasticity, driving the formation of aversive memories. However, it remains unclear how stressful experience affects plasticity mechanisms to regulate appetitive learning, such as intake of addictive drugs. Using rats, we show that corticotropin-releasing factor (CRF) and α1 adrenergic receptor (α1AR) signaling enhance the plasticity of NMDA-receptor-mediated glutamatergic transmission in ventral tegmental area (VTA) dopamine (DA) neurons through distinct effects on inositol 1,4,5-triphosphate (IP3)-dependent Ca2+ signaling. We find that CRF amplifies IP3-Ca2+ signaling induced by stimulation of α1ARs, revealing a cooperative mechanism that promotes glutamatergic plasticity. In line with this, acute social defeat stress engages similar cooperative CRF and α1AR signaling in the VTA to enhance learning of cocaine-paired cues. These data provide evidence that CRF and α1ARs act in concert to regulate IP3-Ca2+ signaling in the VTA and promote learning of drug-associated cues. : Tovar-DÃaz et al. demonstrate a cellular mechanism in which corticotropin-releasing factor (CRF) and α1 adrenergic receptors act in concert to regulate the induction of synaptic plasticity in VTA dopamine neurons and enhance cocaine place conditioning. Keywords: VTA, dopamine neuron, CRF, α1AR, IP3, Ca2+, stress, cocaine, reward learnin
Control over stress accelerates extinction of drug seeking via prefrontal cortical activation
Extinction is a form of inhibitory learning viewed as an essential process in suppressing conditioned responses to drug cues, yet there is little information concerning experiential variables that modulate its formation. Coping factors play an instrumental role in determining how adverse life events impact the transition from casual drug use to addiction. Here we provide evidence in rat that prior exposure to controllable stress accelerates the extinction of cocaine-seeking behavior relative to uncontrollable or no stress exposure. Subsequent experimentation using high-speed optogenetic tools determined if the infralimbic region (IL) of the ventral medial prefrontal cortex mediates the impact of controllable stress on cocaine-seeking behavior. Photoinhibition of pyramidal neurons in the IL during coping behavior did not interfere with subject's ability to control the stressor, but prevented the later control-induced facilitation of extinction. These results provide strong evidence that the degree of behavioral control over adverse events, rather than adverse events per se, potently modulates the extinction of cocaine-seeking behavior, and that controllable stress engages prefrontal circuitry that primes future extinction learning
Photoactivation of a ChR2-transduced PL neuron at various frequencies
<p>This dataset includes raw data of ChR2-transduced PL neuron activity in response to blue-light pulse train (10 pulses) at various frequencies (1, 5, 10 and 20 Hz) for each neuron (n=8). The data also includes TTL signal for generating the light pulse.</p
Photoinhibition of NpHR-transduced PL neuron activity
<p>This dataset includes the results of photoinhibition of spontaneous activity of NpHR-transduced PL neuron using 10-s continuous green laser illumination. Raw data includes the neural signal and TTL signal for generating continuous light illumination. Timestamp data of spike events were used for calculating the averaged firing rates and the autocorrelation histograms.</p