Erament. 2.6. Non-Human Primate Studies Involving Pharmacological Challenge Pharmacological challenge studies in

Erament. 2.6. Non-Human Primate Studies Procyanidin B1 custom synthesis Involving Pharmacological Challenge Pharmacological challenge studies in non-human primates can interrogate the role of neurotransmitters and neuropeptides in anxious temperament. To date, two systems have been investigated: gamma-aminobutyric acid (GABA) and the opiate system. Inhibited temperament is believed to be associated with a failure of GABA neurocircuitry, as GABA inhibits amygdala output (Kalin, 2003). GABAergic interneurons, known as intercalated cells, are located between the basolateral amygdala–the main input region of the amygdala –and CeA–the main output region. Intercalated cells are order Lixisenatide required for extinction of learned fear (Likhtik et al., 2008) and stimulation of basolateral neurons that project to inhibitory interneurons results in decreased anxiety behavior (Tye et al., 2011). Additionally, GABA agonists, such as benzodiazepines, are an effective treatment for anxiety disorders. In infant rhesus monkeys, administering diazepam, a GABA agonist, prior to the NEC condition decreased two defensive behaviors, freezing and crouching (Kalin and Shelton, 1989). Diazepam administration increases left-sided frontal EEG activity in monkeys (Davidson et al., 1992) and more inhibited monkeys show the greatest shift (Davidson et al., 1993). The opiate system may regulate features of anxious temperament including vocal distress or cooing (Kalin et al., 1988; Kehoe and Blass, 1986) and freezing, through opioid receptors in the periaqueductal gray, a brainstem region with a critical role in freezing behavior (Pert et al., 1976). Administration of morphine, an opiate agonist, to infant rhesus monkeys, reduced cooing vocalizations across all conditions, and administration of naloxone, an opiate antagonist, increased cooing across all conditions (Kalin and Shelton, 1989). The use of pharmacological manipulations in anxious temperament has been limited thus far, but results from studies of the GABA and opioid systems are promising. Future studies should investigate the effects of novel neurotransmitters and neuropeptides systems, such as endocannabanoids and corticotropin releasing factor. 2.7. Non-Human Primate Studies of Brain Function Neuroimaging methods provide an ideal platform for identifying the common neural substrates of anxious or inhibited temperament across species (for examples, see: Birn et al., 2014; Oler et al., 2012). The majority of neuroimaging studies in non-human primates have used position emotion tomography (PET); in PET, radioactive ligands are taken up by the brain or bound to different receptors, and ligand uptake or binding is quantified. [18F]fluorodeoxyglucose (FDG) is a radioactive form of glucose that is taken up by active neurons. Once the FDG is taken up, the FDG molecule is phosphorylated, which prevents the molecule from leaving the neuron, and provides a stable marker of brain activity (Reivich et al., 1979). In FDG-PET studies of anxious temperament, monkeys are injected with FDG before completing a behavioral assessment (outside the scanner), which providesProg Neurobiol. Author manuscript; available in PMC 2016 April 01.Author Manuscript Author Manuscript Author Manuscript Author ManuscriptClauss et al.Pagea measure of brain activity in a freely moving animal in its natural environment. Seventy percent (70 ) of the FDG is taken up within 30?0 minutes of the injection (Rilling et al., 2001) and after the task is completed, brain activity is measured with a.Erament. 2.6. Non-Human Primate Studies Involving Pharmacological Challenge Pharmacological challenge studies in non-human primates can interrogate the role of neurotransmitters and neuropeptides in anxious temperament. To date, two systems have been investigated: gamma-aminobutyric acid (GABA) and the opiate system. Inhibited temperament is believed to be associated with a failure of GABA neurocircuitry, as GABA inhibits amygdala output (Kalin, 2003). GABAergic interneurons, known as intercalated cells, are located between the basolateral amygdala–the main input region of the amygdala –and CeA–the main output region. Intercalated cells are required for extinction of learned fear (Likhtik et al., 2008) and stimulation of basolateral neurons that project to inhibitory interneurons results in decreased anxiety behavior (Tye et al., 2011). Additionally, GABA agonists, such as benzodiazepines, are an effective treatment for anxiety disorders. In infant rhesus monkeys, administering diazepam, a GABA agonist, prior to the NEC condition decreased two defensive behaviors, freezing and crouching (Kalin and Shelton, 1989). Diazepam administration increases left-sided frontal EEG activity in monkeys (Davidson et al., 1992) and more inhibited monkeys show the greatest shift (Davidson et al., 1993). The opiate system may regulate features of anxious temperament including vocal distress or cooing (Kalin et al., 1988; Kehoe and Blass, 1986) and freezing, through opioid receptors in the periaqueductal gray, a brainstem region with a critical role in freezing behavior (Pert et al., 1976). Administration of morphine, an opiate agonist, to infant rhesus monkeys, reduced cooing vocalizations across all conditions, and administration of naloxone, an opiate antagonist, increased cooing across all conditions (Kalin and Shelton, 1989). The use of pharmacological manipulations in anxious temperament has been limited thus far, but results from studies of the GABA and opioid systems are promising. Future studies should investigate the effects of novel neurotransmitters and neuropeptides systems, such as endocannabanoids and corticotropin releasing factor. 2.7. Non-Human Primate Studies of Brain Function Neuroimaging methods provide an ideal platform for identifying the common neural substrates of anxious or inhibited temperament across species (for examples, see: Birn et al., 2014; Oler et al., 2012). The majority of neuroimaging studies in non-human primates have used position emotion tomography (PET); in PET, radioactive ligands are taken up by the brain or bound to different receptors, and ligand uptake or binding is quantified. [18F]fluorodeoxyglucose (FDG) is a radioactive form of glucose that is taken up by active neurons. Once the FDG is taken up, the FDG molecule is phosphorylated, which prevents the molecule from leaving the neuron, and provides a stable marker of brain activity (Reivich et al., 1979). In FDG-PET studies of anxious temperament, monkeys are injected with FDG before completing a behavioral assessment (outside the scanner), which providesProg Neurobiol. Author manuscript; available in PMC 2016 April 01.Author Manuscript Author Manuscript Author Manuscript Author ManuscriptClauss et al.Pagea measure of brain activity in a freely moving animal in its natural environment. Seventy percent (70 ) of the FDG is taken up within 30?0 minutes of the injection (Rilling et al., 2001) and after the task is completed, brain activity is measured with a.