Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The learned helpless rat is considered to be one of the better animal models of depression. A genetically inbred strain with a high vulnerability to develop helplessness (LH), as well as a highly resistant strain (NLH) have both been developed. Since the brain peptide neuropeptide Y (NPY) is involved in the regulation of a number of behaviors known to be altered in clinical depression as well as in learned helplessness, we measured the relative level of NPY mRNA in the hippocampus and cortex of control Sprague Dawley (SD), LH and NLH rats. We find that NLH rats have approximately a 30-35% decrease in basal hippocampal NPY mRNA compared with SD and LH rats. By contrast, cortical NPY mRNA and hippocampal pre-proenkephalin and somatostatin mRNA levels were not significantly different in the 3 strains. The data suggest that the regulation of NPY gene expression may be involved in the reduced vulnerability of NLH rats to develop learned helplessness.
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PMID:Hippocampal neuropeptide Y mRNA is reduced in a strain of learned helpless resistant rats. 135 57

Certain developmental abnormalities have been associated with environmental exposure to lead and our previous studies have indicated that the endogenous opioid system is disrupted by this metal. In connection with this we report the ontogeny of proenkephalin products in the rat striatum determined by combined HPLC and bioassay and the effects of low-level lead exposure on this ontogeny. The development of Met-enkephalin levels was dissimilar from that of the other proenkephalin products, Met-enkephalyl-Arg6-Phe7, Met-enkephalyl-Arg6-Gly7-Leu8 and Leu-enkephalin. The ratios of Met-enkephalin containing peptides to Leu-enkephalin was less than the 6:1 ratio predicted from the proenkephalin structure. Lead (administered in the maternal drinking water, from conception to weaning at 100, 300 and 1000 ppm) caused a dose-related depression of the levels of proenkephalin products in rat striatum at 10, 21 and 30 days after birth. The most pronounced effects were observed at 10 days and the most persistent effects were seen with Met-enkephalin. Peak blood lead levels were below 45 micrograms/100 ml in the 100 and 300 ppm lead-dosed groups and in all lead-dosed groups at 10 days after birth. It is suggested that lead may have inhibitory effects on proenkephalin-processing enzymes.
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PMID:Ontogenesis of proenkephalin products in rat striatum and the inhibitory effects of low-level lead exposure. 404 20

In order to elucidate the effects of MPTP on enkephalinergic neurons, dopamine (DA), norepinephrine (NE), proenkephalin (PE) mRNA and met-enkephalin (ME) were measured in striatum, olfactory tubercle, and prefrontal cortex of C57/B16 mice 1 day-2 weeks following treatment with 96 mg/kg MPTP HCl (24 mg/kg i.p., twice/day for 2 days). DA and its metabolites were depleted 70% in striatum and 40% in olfactory tubercle within 1 day. In cortex, DA was unchanged, whereas homovanillic acid and NE were depleted 50 and 40% respectively by 3 days. ME increased in all three brain regions at different times whereas PE mRNA showed a different pattern in each region, with an increase in olfactory tubercle, a decrease in cortex, and in striatum, a decrease at 1 day followed by an increase at 3 days. Thus enkephalinergic neurons in each region respond differently to MPTP treatment. In striatum and olfactory tubercle. DA is depleted sufficiently to release its tonic inhibition on the enkephalinergic neurons, thereby leading to increased enkephalin synthesis. In cortex, the change in NE metabolism appears to cause a decrease of ME release and thereby a depression of PE synthesis. The possible relationship between these results and the changes observed in Parkinson's disease are discussed.
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PMID:1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) effects on enkephalinergic neurons in various regions of mouse brain. 843 70

The present study was designed to find out whether the prolonged administration of imipramine (IMI) or electroconvulsive shock (ECS) influences levels of endogenous enkephalins in the nucleus accumbens (NAS) and the ventral tegmentum (VTA) of the rat. Ressults indicate that treatment with IMI as well as with ECS has a profound effect on the levels of enkephalins in both structures. In the NAS both treatments lead to an increase in the levels of endogenous enkephalins and this effect is accompanied by an increase in mRNA coding for proenkephalin (measured by in situ hybridization) in this structure, indicating the enhancement of biosynthesis of endogenous enkephalinergic peptides following antidepressant treatment. The results are discussed in the light of the hypothesis concerning the influence of endogenous enkephalins on mesolimbic dopamine neurons, the activity of which plays a crucial role in the etiology of depression.
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PMID:The effect of prolonged treatment with imipramine and electroconvulsive shock on the levels of endogenous enkephalins in the nucleus accumbens and the ventral tegmentum of the rat. 878 70

The purpose of this study was to investigate the effects of acute and repeated electroconvulsive shock (ECS) on corticotropin releasing factor (CRF), proopiomelanocortin (POMC) and proenkephalin (PENK) gene expression in selected regions of the brain and pituitary of the rat. Acute ECS increased CRF gene expression in the paraventricular nucleus (PVN) by 20%, an effect that was further enhanced to 38% when rats received repeated ECS treatment. Acute and repeated ECS increased POMC gene expression in the arcuate nucleus (ARC) by 49-59% but failed to alter these mRNA levels in the anterior lobe (AL) of the pituitary gland. PENK gene expression was increased by 35% in the nucleus accumbens (NA) and by 180% the ventromedial nucleus (VMN) after acute or repeated ECS treatment but no significant changes were found in the PVN or striatum (ST). Taken together, these results indicate a differential CRF and opioid gene expression regulation after acute or repeated ECS treatment that may be relevant to their therapeutic or side effects in depression.
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PMID:Acute and repeated ECS treatment increases CRF, POMC and PENK gene expression in selected regions of the rat hypothalamus. 959 51

Cortical Spreading Depression (CSD) is a slowly propagating wave of depolarization and negative interstitial DC potential, that when induced in the rat brain extends across the entire homolateral hemisphere. Despite evidence that CSD does not penetrate into subcortical regions, neurochemical changes in areas anatomically connected to cortex have been reported. In this study in situ hybridization histochemistry was used to examine the levels of cholecystokinin (CCK), proenkephalin (ENK) and prodynorphin (DYN) mRNA in cortex and forebrain basal ganglia following KCl-induced CSD. Unilateral CSD was induced by topical application of 3 M KCl ( approximately 10 microliter) onto the right parietal cortex for 10 min and rats were then killed 1-6 h and 1-28 days later. CCK mRNA levels were increased (P<0.01) in the ipsilateral neocortex 3 h after CSD (13% above levels in contralateral side), reached a peak at 2 days ( approximately 70%) and were still elevated at 7 (30%) but not, 14 or 28 days later. Unilateral CSD also produced a rapid and sustained increase (P<0.05) in ENK mRNA in ipsilateral piriform cortex (from 3 h to 2 days; 70-250% above contralateral), and a delayed increase in caudate putamen and olfactory tubercle at 1 and 2 days ( approximately 25% in both regions), but levels were again equivalent to control at 7 days and beyond. In contrast, no marked changes in neocortical ENK mRNA, or DYN mRNA in both cortex and basal ganglia, were observed under these conditions. These findings demonstrate that CSD has specific, rapid and long-lasting effects on neuropeptide expression in neocortex and subcortical areas. CSD-induced changes in mesostriatal ENK mRNA are proposed to reflect synaptic activation of local neurons via cortical afferent projections.
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PMID:Increased striatal proenkephalin mRNA subsequent to production of spreading depression in rat cerebral cortex: activation of corticostriatal pathways? 979 15

Recent studies have demonstrated a loss of cannabinoid CB1 receptors in the postmortem basal ganglia of patients affected by Huntington's disease (HD) and in transgenic mouse models for this disease. These studies have led to the notion that substances that increase the endocannabinoid activity, such as receptor agonists or inhibitors of endocannabinoid uptake and/or metabolism, might be useful in the treatment of hyperkinetic symptoms of this disease. In the present study, we employed a rat model of HD generated by bilateral intrastriatal injections of 3-nitropropionic acid (3-NP), a toxin that selectively damages striatal GABAergic efferent neurons. These rats exhibited biphasic motor disturbances, with an early (1-2 weeks) hyperactivity followed by a late (3-4 weeks) motor depression. Analysis of GABA, dopamine, and their related enzymes, glutamic acid decarboxylase and tyrosine hydroxylase, in the basal ganglia proved marked decreases compatible with the motor hyperkinesia. In addition, mRNA levels for CB1 receptor, neuronal-specific enolase, proenkephalin, and substance P decreased in the caudate-putamen of 3-NP-injected rats. There were also reductions in CB1 receptor binding in the caudate putamen, the globus pallidus, and, to a lesser extent, the substantia nigra. By contrast, mRNA levels for tyrosine hydroxylase in the substantia nigra remained unaffected. Interestingly, the administration of AM404, an inhibitor of endocannabinoid uptake, to 3-NP-injected rats attenuated motor disturbances observed in the early phase of hyperactivity. Administration of AM404 also tended to induce recovery from the neurochemical deficits caused by the toxin in GABA and dopamine indices in the basal ganglia. In summary, morphological, behavioral, and biochemical changes observed in rats intrastriatally lesioned with 3-NP acid were compatible with a profound degeneration of striatal efferent GABAergic neurons, similar to that occurring in the brain of HD patients. As expected, a loss of CB1 receptors was evident in the basal ganglia of these rats. However, the administration of substances that increase endocannabinoid activity, by inhibiting the uptake process, allowed an activation of the remaining population of CB1 receptors, resulting in a significant improvement of motor disturbances and neurochemical deficits. These observations might be relevant to the treatment of hyperkinetic symptoms in HD, a human disorder with unsatisfactory symptomatic treatment for most patients.
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PMID:Alleviation of motor hyperactivity and neurochemical deficits by endocannabinoid uptake inhibition in a rat model of Huntington's disease. 1184 43

Since the first description of their opioid properties three decades ago, dynorphins have increasingly been thought to play a regulatory role in numerous functional pathways of the brain. Dynorphins are members of the opioid peptide family and preferentially bind to kappa opioid receptors. In line with their localization in the hippocampus, amygdala, hypothalamus, striatum and spinal cord, their functions are related to learning and memory, emotional control, stress response and pain. Pathophysiological mechanisms that may involve dynorphins/kappa opioid receptors include epilepsy, addiction, depression and schizophrenia. Most of these functions were proposed in the 1980s and 1990s following histochemical, pharmacological and electrophysiological experiments using kappa receptor-specific or general opioid receptor agonists and antagonists in animal models. However, at that time, we had little information on the functional relevance of endogenous dynorphins. This was mainly due to the complexity of the opioid system. Besides actions of peptides from all three classical opioid precursors (proenkephalin, prodynorphin, proopiomelanocortin) on the three classical opioid receptors (delta, mu and kappa), dynorphins were also shown to exert non-opioid effects mainly through direct effects on NMDA receptors. Moreover, discrepancies between the distribution of opioid receptor binding sites and dynorphin immunoreactivity contributed to the difficulties in interpretation. In recent years, the generation of prodynorphin- and opioid receptor-deficient mice has provided the tools to investigate open questions on network effects of endogenous dynorphins. This article examines the physiological, pathophysiological and pharmacological implications of dynorphins in the light of new insights in part obtained from genetically modified animals.
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PMID:30 years of dynorphins--new insights on their functions in neuropsychiatric diseases. 1948 70

The transition to motherhood involves CNS changes that modify sociability and affective state. However, these changes also put females at risk for post-partum depression and psychosis, which impairs parenting abilities and adversely affects children. Thus, changes in expression and interactions in a core subset of genes may be critical for emergence of a healthy maternal phenotype, but inappropriate changes of the same genes could put women at risk for post-partum disorders. This study evaluated microarray gene expression changes in medial prefrontal cortex (mPFC), a region implicated in both maternal behavior and psychiatric disorders. Post-partum mice were compared to virgin controls housed with females and isolated for identical durations. Using the Modular Single-set Enrichment Test (MSET), we found that the genetic landscape of maternal mPFC bears statistical similarity to gene databases associated with schizophrenia (5 of 5 sets) and bipolar disorder (BPD, 3 of 3 sets). In contrast to previous studies of maternal lateral septum (LS) and medial preoptic area (MPOA), enrichment of autism and depression-linked genes was not significant (2 of 9 sets, 0 of 4 sets). Among genes linked to multiple disorders were fatty acid binding protein 7 (Fabp7), glutamate metabotropic receptor 3 (Grm3), platelet derived growth factor, beta polypeptide (Pdgfrb), and nuclear receptor subfamily 1, group D, member 1 (Nr1d1). RT-qPCR confirmed these gene changes as well as FMS-like tyrosine kinase 1 (Flt1) and proenkephalin (Penk). Systems-level methods revealed involvement of developmental gene networks in establishing the maternal phenotype and indirectly suggested a role for numerous microRNAs and transcription factors in mediating expression changes. Together, this study suggests that a subset of genes involved in shaping the healthy maternal brain may also be dysregulated in mental health disorders and put females at risk for post-partum psychosis with aspects of schizophrenia and BPD.
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PMID:Medial prefrontal cortex: genes linked to bipolar disorder and schizophrenia have altered expression in the highly social maternal phenotype. 2476 68

Enhanced stress reactivity or sensitivity to chronic stress increases the susceptibility to mood pathologies such as major depression. The opioid peptide enkephalin is an important modulator of the stress response. Previous studies using preproenkephalin knockout (PENK KO) mice showed that these animals exhibit abnormal stress reactivity and show increased anxiety behavior in acute stress situations. However, the consequence of enkephalin deficiency in the reactivity to chronic stress conditions is not known. In this study, we therefore submitted wild-type (WT) and PENK KO male mice to chronic stress conditions, using the chronic mild stress (CMS) protocol. Subsequently, we studied the CMS effects on the behavioral and hormonal level and also performed gene expression analyses. In WT animals, CMS increased the expression of the enkephalin gene in the paraventricular nucleus (PVN) of the hypothalamus and elevated the corticosterone levels. In addition, WT mice exhibited enhanced anxiety in the zero-maze test and depression-related behaviors in the sucrose preference and forced swim tests. Surprisingly, in PENK KO mice, we did not detect anxiety and depression-related behavioral changes after the CMS procedure, and even measured a decreased hormonal stress response. These results indicate that PENK KO mice are resistant to the CMS effects, suggesting that enkephalin enhances the reactivity to chronic stress.
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PMID:Enkephalin knockout male mice are resistant to chronic mild stress. 2480 98


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