Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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Based on our new finding that an inflammation in which tumor necrosis factor (TNF) is primed or triggered (ontogenic inflammation) can regulate the homeostasis in ontogenesis, we have identified a new lipopolysaccharide from wheat flour (LPSw) that can induce ontogenic inflammation in adult mice. LPSw can prime adult mice to produce TNF when given orally or percutaneously, suggesting that it may maintain homeostasis in adults. LPSw can cure experimental animals of diabetes, hyperlipidemia, ulcer, and herpes. It can also stimulate bone resorption and egg-laying, and shows a strong analgesic effect that is blocked by naloxone. This effect even allows a release from drug addiction. Suppression of serum cholesterol level by oral uptake of LPSw in Watanabe heritable hyperlipidemic (WHHL) rabbit was also observed. Infection of toxoplasma was prevented by oral uptake of LPSw. The realization that a single oral or percutaneous administration of LPSw may be a cure for multiple intractable diseases may lead to the presentation of a nontoxic type of Coley's toxin, which is known to be an efficient cancer treatment, but has high toxicity.
Mol Biother 1992 Dec
PMID:Oral or percutaneous administration of lipopolysaccharide of small molecular size may cure various intractable diseases: a new version of Coley's toxin. 147 70

The additive drugs alcohol, morphine, cocaine, and amphetamine are each associated with the development of tolerance and physical dependence. Changes in gene expression occur in cell culture and in vivo with the administration of these centrally-acting drugs. This article reviews those experiments that have studied drug-induced alterations in gene transcription. Ethanol has diverse effects on the amounts of messenger RNA molecules within the central nervous system. Ion channels, neuropeptides, membrane receptors, and immediate early genes represent several regulated mRNAs. The effects are selective, however, as many other specific products are not altered. Evidence for a genetic predisposition to ethanol use reinforces the importance of the genotype. Opioids, cocaine, and amphetamine also affect gene transcription. Messenger RNAs studied have included many of those demonstrated to be altered by alcohol use. Interestingly, use of any of these drugs alters the expression of immediate early genes. These genes may represent an initial step in the pathway that leads to drug addiction. The composite of drug-induced changes in gene expression results in the cellular responses of tolerance and dependence. The characterization of these changes should provide a better understanding of the molecular mechanisms of drug addiction.
Mol Neurobiol 1991
PMID:The molecular biology of addictive drugs. 172 3

We used the PCR amplification technique in an attempt to characterize further the dopamine D2L receptor expressed in the prolactin-secreting pituitary MMQ cell clone, derived from the prolactin- and ACTH-secreting Buffalo rat 7315 alpha pituitary tumour. By semiquantitative PCR amplification we were unable to detect the mRNA encoding the D2S receptor isoform, which derives from the well-known process of alternative splicing, producing two D2 receptor subtypes (D2L and D2S) in such tissues as the anterior pituitary and the corpus striatum. Although the pharmacology of the D2 receptor has been established in many studies on both native receptors and transfected receptor isoforms, because of the lack of tissues naturally expressing only one receptor isoform, MMQ cells represent the first example of cells uniquely or prevalently expressing only the D2L receptor, conceivably coupled to its native transduction mechanisms. These considerations prompted us to evaluate the pharmacology and the second messenger systems known to be modulated by dopamine. Scatchard analysis of [3H]spiperone binding resulted in a linear plot, consistent with the existence of a single class of binding sites, with a Kd of 0.055 +/- 0.002 nM and a Bmax of 27 +/- 3.5 fmol/mg protein. Competition experiments confirmed the GTP-dependence and the order of potency for agonist and antagonist ligands consistent with binding to a D2 receptor. The inhibitory effects of dopamine on adenylyl cyclase activity, inositol phosphate production and intracellular free calcium concentrations, the latter presumably via the opening of K+ channels, and prolactin secretion, as well as the reversal of the effect by the D2-selective antagonist (-)sulpiride and pretreatment with pertussis toxin, are consistent with the known biological actions of dopamine at D2 receptors. Based on our observations, the MMQ cell line can be considered a useful tool for investigating ligand-receptor interactions to develop new selective dopaminergic D2L ligands for the therapy of dopamine-related disorders such as schizophrenia, depression, Parkinson's disease and drug addiction.
J Mol Endocrinol 1995 Jun
PMID:Absence of D2S dopamine receptor in the prolactin-secreting MMQ pituitary clone: characterization of a wild D2L receptor coupled to native transduction mechanisms. 766 27

The receptors for tetrahydrocannabinol, the active ingredient of marijuana, have been identified. A microsatellite polymorphism (AAT)n at the cannabinoid CB1 (brain) receptor gene (CNR1) consists of 9 alleles. Since the cannabinoid system is part of the reward pathway we examined the hypothesis that genetic variants of the CNR1 gene might be associated with susceptibility to alcohol or drug dependence. The study consisted of 92 subjects on an Addiction Treatment Unit (ATU) and 114 controls. All were non-Hispanic Caucasians. The ATU subjects were screened for all types of substance dependence using the Diagnostic Interview Schedule (DIS), and for a variety of substance abuse symptoms using the Addiction Severity Index (ASI). Since inspection of the distribution of alleles in controls vs i.v. drug use showed a decrease in the frequency of the 4 allele, and the < 4 alleles were rare, the alleles were divided into two groups, < 5 and < or = 5, and three genotypes < 5/< 5, heterozygotes, and > or =/> or = 5. When all variables were subjected to factor analysis, factor 1 showed a clustering of drug dependence variables and factor 2 of alcohol dependence variables. By ANOVA only factor 1 showed significant differences by genotype consistent with a model where homozygosity for the > or = 5 repeat alleles showed the greatest effect. The number of i.v. drugs used was significantly greater for those carrying the > or =/> or = 5 genotype than for other genotypes (P = 0.005). The association with specific types of drug dependence was greatest for cocaine, amphetamine, and cannabis dependence. The results are consistent with a role of cannabinoid receptors in the modulation of dopamine and cannabinoid reward pathways. Independent studies should be designed to further confirm the hypothesis that cannabinoid receptors may contribute to the susceptibility to drug abuse.
Mol Psychiatry 1997 Mar
PMID:Cannabinoid receptor gene (CNR1): association with i.v. drug use. 1082 38

In our prior study we observed a significant association between homozygosity for the > or = alleles of a microsatellite polymorphism of cannabinoid receptor genes (CNR1) and drug dependence. Decreased amplitude of the P300 wave of evoked related potentials (ERP) has long been shown to be associated with alcohol and drug dependence. The P300 wave reflects attentional resource allocation and active working memory. Since marijuana intoxication has a potent blocking effect on short-term memory we examined the association between the CNR1 alleles and the P300 wave amplitude at three electrodes in 35 alcohol and drug addicts, by MANOVA. There was a significant decrease in amplitude of the P300 wave for all three electrodes (P = 0.028) that was most marked for the frontal lobes (P = 0.008) in subjects homozygous for the CNR1 > or = 5 repeat alleles. Multivariate regression analysis indicated the CNR1 gene contributed to 20% of the variance of the frontal lobe P300 wave amplitude.
Mol Psychiatry 1997 Mar
PMID:Association between the cannabinoid receptor gene (CNR1) and the P300 event-related potential. 910 43

Dopamine neurons in the dopamine system that originate in the ventral tegmental area and project to the nucleus accumbens, olfactory tubercle and frontal cortex have long been implicated in reward and motivational processes. The accumulation of substantial neuropharmacological data and recent data from electrophysiological recording studies in primates and recent theoretical modelling studies provide new significant insights into the function of these mesolimbic dopamine neurons that have important implications for psychiatry. Appetitive events and not aversive events activated dopamine neurons in the mesolimbic dopamine system of primates. Modelling studies show that dopamine neurons may be responsible for initiating action associated with significant changes in the value of incentives in the environment and neuropharmacological data show that the activation associated with approach to incentives is abolished by removal to the mesolimbic dopamine system. Based on these three lines of research it is hypothesized that the function of the mesolimbic dopamine system is to allow or actually release species-specific approach responses or modifications in direction toward changes in positive incentives. These results have implications not only for our understanding of the role of dopamine in mental disorders, but also for our understanding of the role of dopamine in specific aspects of drug dependence.
Mol Psychiatry 1996 Jul
PMID:Hedonic valence, dopamine and motivation. 911 42

Despite staggering advances in the neurosciences over the past decade, detailed knowledge of the pathophysiology and pathogenesis of psychiatric disorders remains severely limited. Similarly, the mechanisms by which long-term exposure to psychotropic drugs leads to their clinically relevant actions are not yet known. This relative lack of progress in psychiatric research is due in part to the extraordinary complexity of the brain and the difficulties inherent in studying central nervous system pathology. However, the lack of progress is also due to the limited scope of psychiatric neuroscience, which remains focused to a great extent on traditional neurotransmitters and their receptors as the site of pathophysiological lesions in a disease state and as the ultimate targets for pharmacological treatments of these disorders. This limited focus persists despite our current knowledge that such neurotransmitters and receptors are truly the tip of the iceberg of the brain's complex inter- and intraneuronal regulatory machinery. The goal of this review is to illustrate how our rapidly evolving knowledge of neuronal regulatory mechanisms can be used as a template within which to delineate more complete models of the molecular mechanisms of psychotropic drug action, as well as the role of genetic and environmental factors in determining individual differences in drug responsiveness. The focus of the review is on drug addiction. Repeated exposure to drugs of abuse has been shown to elicit long-term adaptations in post-receptor second messenger and protein phosphorylation pathways in specific brain regions. There is increasing evidence that these adaptations are part of the molecular basis of an addictive state. Individual differences in some of these same signaling proteins also may contribute to individual differences in vulnerability for drug addiction. More recent research has demonstrated that drug-induced adaptations occur in other, non-second messenger-related, post-receptor signaling pathways, specifically, those influenced by neurotrophic factors. Together, these studies provide insight into the complex mechanisms that must be considered in understanding the brain's adaptations to chronic perturbations in general as well as the formation of a neuropsychiatric disorder and its treatment.
Mol Psychiatry 1996 Jul
PMID:Molecular mechanisms of drug addiction: adaptations in signal transduction pathways. 911 43

The mu opioid receptor is implicated in the reward, tolerance and withdrawal effects of alcohol and other drugs of abuse. This hypothesis is supported by the effects of alcohol on beta-endorphin release, of mu opioid receptor agonists and antagonists on alcohol consumption, and by the activation of the dopaminergic reward system by both alcohol and opiates. In addition, the murine mu opioid receptor locus, Oprm, is implicated as the major quantitative trait locus (QTL) affecting the different levels of morphine consumption between two inbred mouse strains that also exhibit differences in alcohol and cocaine consumption. Detection of genetic variation affecting OPRM1 expression or mu opioid receptor function would be an important step towards understanding the origins of inter-individual variation in response to mu opioid receptor ligands and in diseases of substance dependence. We directly sequenced the human mu opioid receptor locus, OPRM1, to detect natural variation that might affect function and/or be associated with psychiatric phenotypes related to opioid function. Four DNA sequence variants were found: three non-synonymous substitutions (Ala6Val [rare], Asn40Asp, [0.10-0.16], Ser147Cys [rare]) and one intronic variant (IVS2+691G/C [0.55-0.63]). OPRM1 alleles, genotypes and haplotypes from three psychiatrically characterized population samples (US Caucasian [USC, n=100], Finnish Caucasian [FC, n=324] and Southwestern American Indian [SAI, n=367]), were used to perform association and sib-pair linkage analyses with alcohol and drug dependence diagnoses. No significant association of OPRM1 genetic variation to phenotype was observed. This analysis has 80% power to detect a small to moderate effect of OPRM1 variation on alcohol dependence and 100% power to detect effects of the magnitude of the ALDH2*2 variant. While these data do not support a role of the mu opioid receptor in susceptibility to alcohol dependence, the potential relationship between OPRM1 genetic variation and response to endogenous opioids and exogenous opiates can now be investigated.
Mol Psychiatry
PMID:Mu opioid receptor gene variants: lack of association with alcohol dependence. 939 94

Chronic opioid treatment of stably mu-opioid receptor transfected human mammary epidermoid A431 carcinoma cells (clone A431/mu 13) results in sensitization of adenylyl cyclase (AC), a cellular adaptation associated with drug dependence. Up-regulation of AC is characterized by significantly increased levels of both basal and post-receptor-stimulated effector activities, which develop without any apparent change in the quantity of stimulatory G proteins and the maximum catalytic activity of AC. Here, we report that detergent extracts from membranes of chronically morphine-treated (10 microM; 2 days) A431/mu 13 cells display higher stimulatory AC activities as assessed in the S49cyc- reconstitution assay. This finding is most likely due to an increased functional activity of Gs alpha because the addition of exogenous G beta gamma subunits, which per se stimulate AC in S49cyc- membranes, failed to affect the difference in reconstitutive AC activity. Moreover, both chemical depalmitoylation by hydroxylamine and inhibition of palmitoyl-CoA transferase in vivo by tunicamycin treatment incresed the reconstitutive activity of detergent extracts and eliminated the differences between native and opioid-dependent cells, indicating that the increase in stimulatory activity is due to depalmitoylation of Gs alpha. Indeed, metabolic labelling studies with [3H]palmitic acid revealed that chronic opioid treatment reduces considerably the fraction of palmitoylated Gs alpha in the plasma membrane. Furthermore, high affinity [3H]forskolin binding experiments demonstrated that depalmitoylated Gs alpha is able to associated directly with AC during the state of opioid dependence even without preceding receptor activation. These results suggest that post-translational palmitoylation of Gs alpha provides a potential regulator of transmembrane signaling. Moreover, accumulation of the depalmitoylated form of Gs alpha in the plasma membrane as reported herein may contribute to the increase in stimulatory AC signaling, as is characteristic for the state of opioid dependence.
Mol Pharmacol 1997 Dec
PMID:Enhanced stimulatory adenylyl cyclase signaling during opioid dependence is associated with a reduction in palmitoylated Gs alpha. 941 9

Abnormalities in monoamine oxidase (MAO) levels have been implicated in a wide range of psychiatric disorders. We have examined a VNTR polymorphism at the X-linked MAOA gene to test two hypotheses: (1) Do variants of the MAOA gene play a role in any of the behavioral disorders associated with Tourette syndrome or drug abuse? (2) If so, is there any correlation between the length of the alleles and the phenotypic effect? We examined two independent groups: 375 TS patients, relatives and controls, and 280 substance abusers and controls. The alleles were divided into four groups of increasing size. There was a significant association between the MAOA gene and behavioral phenotypes in both groups, and in both the longest alleles were associated with the greatest phenotypic effect. The strongest effect was for the diagnosis of drug dependence (P=0.00003). The VNTR allele groups were in significant linkage disequilibrium with the Fnu4H1 polymorphism previously shown to be associated with MAO-A activity. While these results are consistent with the possibility that different-sized alleles of the short-repeat polymorphisms themselves may play a role in gene regulation, further studies directly linking these alleles with enzyme levels need to be done.
Mol Psychiatry 1998 Jan
PMID:Correlation of length of VNTR alleles at the X-linked MAOA gene and phenotypic effect in Tourette syndrome and drug abuse. 949 13


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