Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20366 (substance P)
 21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dopamine-induced changes in striatal gene expression are thought to play an important role in drug addiction and compulsive behaviour. In this study we report that dopamine induces the expression of the transcription factor CCAAT/Enhancer Binding Protein beta (C/EBP)-beta in primary cultures of striatal neurones. We identified the preprotachykinin-A (PPT-A) gene coding for substance P and neurokinin-A as a potential target gene of C/EBPbeta. We demonstrated that C/EBPbeta physically interacts with an element of the PPT-A promoter, thereby facilitating substance P precursor gene transcription. The regulation of PPT-A gene by C/EBPbeta could subserve many important physiological processes involving substance P, such as nociception, neurogenic inflammation and addiction. Given that substance P is known to increase dopamine signalling in the striatum and, in turn, dopamine increases substance P expression in medium spiny neurones, our results implicate C/EBPbeta in a positive feedback loop, changes of which might contribute to the development of drug addiction.
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PMID:C/EBPbeta couples dopamine signalling to substance P precursor gene expression in striatal neurones. 1677 29

Adaptations to the chronic administration of opioids reduce the utility of these drugs in treating pain and support addiction. Recent genetics-based approaches have implicated the beta2 adrenergic receptor (beta2-AR) in controlling some of these responses. We do not know, however, whether this receptor can modulate tolerance, dependence or changes in gene expression caused by chronic opioid administration. For our studies we used C57BL/6 mice and beta2-AR knockout mice in the FVB background. Morphine dose-response relationships were established both prior to and after chronic morphine treatment. In some cases, the selective beta2-AR antagonist butoxamine was administered along with or after morphine. Physical dependence was assessed using naloxone-precipitated withdrawal. The expression of calcitonin gene related peptide (CGRP) and substance P (SP) were measured in spinal cord and dorsal root ganglion (DRG) tissues using both real-time PCR and enzyme-linked immunoassay (ELISA). Both the co-administration of butoxamine with morphine and the administration of butoxamine after chronic morphine reversed morphine tolerance. Morphine failed to cause tolerance in beta2-AR knockout mice. Physical dependence was reduced under the same circumstances. The chronic administration of butoxamine with morphine reduced or eliminated the normally observed up-regulation of CGRP and SP in spinal cord and DRG tissues. Our results suggest that the beta2-AR modulates both opioid tolerance and physical dependence. Activation of beta2-ARs appears to be required for some of the key neurochemical changes which characterize chronic opioid administration. Therefore, beta2-AR antagonists show some promise as agents to enhance chronic opioid analgesic therapy.
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PMID:The beta2 adrenergic receptor regulates morphine tolerance and physical dependence. 1749 18

Current cocaine users show little evidence of cognitive impairment and may perform better when using cocaine, yet withdrawal from prolonged cocaine use unmasks dramatic cognitive deficits. It has been suggested that such impairments arise in part through drug-induced dysfunction within the orbitofrontal cortex (OFC), yet the neurobiological mechanisms remain unknown. We observed that chronic cocaine self-administration increased expression of the transcription factor deltaFosB within both medial and orbitofrontal regions of the rat prefrontal cortex. However, the increase in OFC deltaFosB levels was more pronounced after self-administered rather than experimenter-administered cocaine, a pattern that was not observed in other regions. We then used rodent tests of attention and decision making to determine whether deltaFosB within the OFC contributes to drug-induced alterations in cognition. Chronic cocaine treatment produced tolerance to the cognitive impairments caused by acute cocaine. Overexpression of a dominant-negative antagonist of deltaFosB, deltaJunD, in the OFC prevented this behavioral adaptation, whereas locally overexpressing deltaFosB mimicked the effects of chronic cocaine. Gene microarray analyses identified potential molecular mechanisms underlying this behavioral change, including an increase in transcription of metabotropic glutamate receptor subunit 5 and GABA(A) receptors as well as substance P. Identification of deltaFosB in the OFC as a mediator of tolerance to the effects of cocaine on cognition provides fundamentally new insight into the transcriptional modifications associated with addiction.
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PMID:DeltaFosB induction in orbitofrontal cortex mediates tolerance to cocaine-induced cognitive dysfunction. 1789 21

Previous studies have suggested that sensory mechanisms may be important components of addiction to, and withdrawal from, cigarette smoking. The sensory and respiratory responses to nicotine are mediated, in part, by bronchopulmonary C-fiber afferents. Nicotine has a direct stimulatory effect on pulmonary sensory neurons, and nicotinic cholinergic receptors (nAChRs) composed of various combinations of alpha and beta subunits are known to be present in pulmonary ganglia. At the subcellular level, however, little is known about expression of nAChRs on sensory fibers in the intrapulmonary airways. The present study was therefore designed to evaluate the expression of nAChRs on a subset of intrapulmonary sensory nerve endings known to exhibit immunoreactivity for substance P (SP). The presence of nAChR subunits was first confirmed at the mRNA and protein levels in rat lung tissues by using RT-PCR and Western blot techniques. Then, double labeling of SP-immunoreactive (-IR) C-fibers and different nAChR subunits was performed. Alpha2, alpha3, alpha4, alpha5, alpha7, and beta2 subunits were detected at all levels of the intrapulmonary airways; including bronchi, terminal and respiratory bronchioles, alveolar walls, and alveolar macrophages. None of the nAChR subunits studied was expressed by the SP-IR C-fibers. However, SP-expressing C-fibers were observed in close proximity to and intermingling with nAChR-expressing airway epithelial cells. The close proximity of C-fibers to nAChR-expressing airway epithelial cells suggests that a component of nicotinic stimulation of SP-IR C-fiber afferents may be mediated by endogenous chemical substances released by nAChR-expressing epithelial cells.
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PMID:Neuroanatomical relationships of substance P-immunoreactive intrapulmonary C-fibers and nicotinic cholinergic receptors. 1911

Accumulating evidence suggests that glutamate, as one of the most important excitatory neurotransmitters in the brain, plays a key role in drug addiction including opioid addiction. There is substantial evidence for glutamatergic projections into mesocorticolimbic dopaminergic neurons, which are associated with opioid psychological dependence and are also the key regions of enhancement effect. Glutamate may be involved in the process of opioid addiction not only by acting on its ionotropic and metabotropic glutamate receptors that activate several signal transduction pathways, but also by interacting with other neurotransmitters or neuropeptides such as opioids, dopamine, gamma-aminobutyric acid and substance P in the mesocorticolimbic dopaminergic regions. Studies on the role of glutamate and its receptors in opioid addiction will provide a new strategy for the exploitation of drugs for the treatment of opioid addiction.
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PMID:The role of glutamate and its receptors in mesocorticolimbic dopaminergic regions in opioid addiction. 1942 97

Cancer pain impairs the quality of life of cancer patients, but opioid analgesics can not only cause inhibition of respiratory function, and constipation, but also other significant side effects such as addiction and tolerance that further decrease quality of life. Thus, in the present study, the effects of electro-acupuncture treatment (EA) on mechanical allodynia were examined in cancer pain mouse model. In order to induce neuropathic cancer pain model, S-180 sarcoma cells were inoculated around the sciatic nerve of left legs of Balb/c mice. The mass of S-180 cancer cells embedded around sciatic nerve in a time course was confirmed by Magnetic Resonance Imaging (MRI) scanning. Mechanical allodynia was most consistently induced in mouse sarcoma cell line S-180 (2 x 10(6) sarcoma cells) treated group among all groups. EA stimulation (2Hz) was daily given to ST36 (Zusanli) of S-180 bearing mice for 30 min for 9 days after S-180 inoculation. EA treatment significantly prolonged paw withdrawal latency from 5 days after inoculation as well as shortened cumulative lifting duration from 7 days after inoculation compared with tumor control. In addition, the overexpressions of pain peptide substance P in dorsal horn of spinal cord were significantly decreased in EA treated group compared with tumor control on Day 9 after inoculation. Furthermore, EA treatment effectively increased the concentration of beta endorphin in blood and brain of mice more than tumor control as well as normal group. The concentration of beta-endorphin for EA treatment group increased by 51.457% in blood 12.6% in brain respectively, compared with tumor control group. These findings suggest that S-180 cancer pain model can be a consistent and short time animal model and also EA treatment can be an alternative therapeutic method for cancer pain via decreased substance P and increased beta endorphin.
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PMID:Substance P and beta endorphin mediate electroacupuncture induced analgesic activity in mouse cancer pain model. 1971 73

Accumulating evidence suggests that the neuropeptide substance P (SP) and its principal receptor neurokinin 1 (NK1) play a specific role in the behavioral response to opioids and stress that may help to initiate and maintain addictive behavior. In animal models, the NK1 receptor is required for opioids to produce their rewarding and motivational effects. SP neurotransmission is also implicated in the behavioral response to stress and in the process of drug sensitization, potentially contributing to vulnerability to addiction or relapse. However, SP neurotransmission only plays a minor role in opioid-mediated antinociception and the development of opioid tolerance. Moreover, the effects of SP on addiction-related behavior are selective for opioids and evidence supporting a role in the response to cocaine or psychostimulants is less compelling. This review will summarize the effects of SP neurotransmission on opioid-dependent behaviors and correlate them with potential contributing neural pathways. Specifically, SP neurotransmission within components of the basal forebrain particularly the nucleus accumbens and ventral pallidum as well as actions within the ascending serotonin system will be emphasized. In addition, cellular- or network-level interactions between opioids and SP signaling that may underlie the specificity of their relationship will be reviewed.
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PMID:Neuronal pathways linking substance P to drug addiction and stress. 1991 20

Understanding the pathophysiology of addictive disorders is critical for development of new treatments. A major focus of addiction research has for a long time been on systems that mediate acute positively reinforcing effects of addictive drugs, most prominently the mesolimbic dopaminergic (DA) system and its connections. This research line has been successful in shedding light on the physiology of both natural and drug reward, but has not led to therapeutic breakthroughs. The role of classical reward systems is perhaps least clear in alcohol addiction. Here, recent work is summarized that points to some clinically important conclusions. First, important pharmacogenetic differences exist with regard to positively reinforcing effects of alcohol and the ability of this drug to activate classical reward pathways. This offers an opportunity for personalized treatment approaches in alcoholism. Second, brain stress and fear systems become pathologically activated in later stages of alcoholism and their activation is a major influence in escalation of alcohol intake, sensitization of stress responses, and susceptibility to relapse. These findings offer a new category of treatment mechanisms. Corticotropin-releasing hormone (CRH) signaling through CRH1 receptors is a major candidate target in this category, but recent data indicate that antagonists for substance P (SP) neurokinin 1 (NK1) receptors may have a similar potential.
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PMID:Translating the neuroscience of alcoholism into clinical treatments: from blocking the buzz to curing the blues. 1994 95

Stress plays a major role in the process of drug addiction and various stressors are known to increase measures of craving in drug dependent human laboratory subjects. Animal models of stress-induced reinstatement of drug-seeking have also been developed in order to determine the neuropharmacological and neurobiological features of stress-induced relapse. Here, we review experimental approaches that use various pharmacological agents to induce a stress response and subsequent craving or drug-seeking for drugs of abuse. The advantages of such an approach are that the exact same stressor can be used in different species, pharmacological stress activation works on identifiable pathways, and stress levels can be varied via dose dependent manipulations. To date, successful use of such probes in both humans and experimental animals have been achieved with noradrenergic compounds and corticotrophin-releasing hormone (CRH). Other possible approaches, such as neuroactive peptides related to central stress responses (e.g., vasopressin and substance P) and inverse benzodiazepine agonists show some promise, and we discuss recent experiments using these compounds. Future development and application of pharmacological stressors across species will be useful in assessing stress-induced craving and relapse in both human drug addiction and animal models of relapse. Through this translational approach, novel treatment interventions for addiction may be designed and tested.
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PMID:Pharmacologically-induced stress: a cross-species probe for translational research in drug addiction and relapse. 2113 8

The neuropeptide substance P (SP) shows a widespread distribution in both the central and peripheral nervous systems and it is known that after binding to the neurokinin-1 (NK-1) receptors, SP regulates many biological functions in the central nervous system such as emotional behaviour, stress, depression, anxiety, emesis, migraine, alcohol addiction and neurodegeneration. SP has been also implicated in pain, inflammation, hepatotoxicity and in virus proliferation, and it plays an important role in cancer (e.g., tumour cell proliferation, angiogenesis, and the migration of tumour cells for invasion and metastasis). By contrast, it is known that after binding to NK-1 receptors, NK-1 receptor antagonists specifically inhibit the above-mentioned biological functions mediated by SP. Thus, these antagonists exert an anxyolitic, antidepressant, antiemetic, antimigraine, antialcohol addiction or neuroprotector effect in the central nervous system, and they play a role in analgesic, antiinflammatory, hepatoprotector processes and in antivirus proliferation. Regarding cancer, NK-1 receptor antagonists exert an antitumour action (inducing tumour cell death by apoptosis), and induce antiangiogenesis and inhibit the migration of tumour cells. It is also known that NK-1 receptors have a widespread distribution and that they are overexpressed in tumour cells. Thus, NK-1 receptor antagonists are molecularly targeted agents. In general, current drugs have a single therapeutic effect, although less commonly they may exert several. However, the data reported above indicate that NK-1 receptor antagonists are promising drugs, exerting many therapeutic effects (the action of such antagonists is dose-dependent and, depending on the concentration, has more positive effects). In this review, we update the multiple therapeutic effects exerted by NK-1 receptor antagonists.
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PMID:NK-1 receptor antagonists: a new paradigm in pharmacological therapy. 2146 70


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