Social environment modulates morphine sensitivity: A partial role of vasopressin V1b receptor

Hofford, Rebecca 1983-

14 March 2013

Social factors influence drug abuse in adolescents; this is partially attributed to peer pressure in humans. Similarly, using rodent models, some research suggests that social housing condition can influence rodents' drug taking behavior. Despite this, few studies have examined the role that intoxicated peers have on drug-naive cage-mates. This dissertation examined how social environment affects opioid sensitivity and hormone production. This was accomplished by comparing the opioid sensitivity of mice housed in mixed cages (some animals received opioids and some were drug-naive) to cages where all the mice were treated with the same drug (all saline or all morphine). These studies identified an adolescent-specific vulnerability to social environment-induced alteration of morphine sensitivity. Interaction with drug-intoxicated cage-mates enhanced locomotor sensitivity in previously drug-naive males and altered their production of testosterone. Conversely, interaction of morphine experienced mice with drug-naive cage-mates afforded protection from the rewarding properties of morphine. In other words, morphine-treated mice housed with drug-naive cage-mates demonstrated attenuated reward compared to morphine-treated mice housed with other morphine-treated mice. In addition, part of the neurobiological basis of the social-environment effect was identified. Antagonism of V1b receptors decreased morphine reward in morphine-treated mice housed only with other morphine-treated mice. These results suggest a role of vasopressin in the peer influence on drug sensitivity observed in adolescents. This body of work further elucidates the role of peer influence on opioid sensitivity. Future studies should further reveal the role of healthy peer relationships and should aid in combating drug abuse in this at-risk demographic.

social environment

drug abuse

morphine

mice

Adolescence

Ventral Tegmental Area GABAA Receptors Mediate the Change from a Drug-naive to an Opiate- or Ethanol-deprived Motivational State

Ting-A-Kee, Ryan Anthony

31 August 2012

A crucial question in drug addiction research concerns whether the varying reports of dopamine-independent and dopamine-dependent motivation can be integrated. According to one theory, the prior drug history of a subject — that is to say, whether they have received minimal or chronic drug exposure — determines whether opiate motivation is dependent upon the brainstem tegmental pedunculopontine nucleus (TPP) or dopamine neurotransmission. The biological analogue of this change is thought to be a switch in the signalling properties (from hyperpolarizing to depolarizing) of ventral tegmental area (VTA) gamma-aminobutyric acid subtype-A (GABAA) receptors. In this thesis, I demonstrate that the mechanisms underlying opiate motivation can be selected artificially by manipulating the signalling properties of VTA GABAA receptors, irrespective of the past drug history of the subject. Furthermore, I suggest that these same VTA GABAA receptors also play a similar role in controlling ethanol motivation. Indeed, the mechanisms underlying ethanol motivation can be doubly dissociated in a manner similar to that observed with opiates. However, whereas opiate motivation is TPP-dependent in the drug-naive state, I found that ethanol motivation was dependent on dopamine neurotransmission (via the D2 receptor) in drug-naive animals. Conversely, ethanol motivation was TPP-dependent in ethanol-deprived mice (as opposed to opiate motivation being dopamine-dependent in opiate-deprived animals). These effects are consistent with a VTA GABAA receptor switching mechanism identical to the one seen in the case of opiate motivation.

motivation

morphine

ethanol

ventral tegmental area

0384

The Angiogenic Effects of £]-endorphin in Endothelial Cells

Chen, Yu-Shan

28 August 2011

Angiogenesis is a fundamental process in reproduction and wound healing. Angiogenesis is also indispensable for solid tumor growth and metastasis, and also associated with angiogenic diseases. Beta-endorphin (£]-EP), derived from its precursor pro-opiomelancortin (POMC), is well known for its role in nociception and immune regulation. However, the function of morphine and £]-EP during angiogenesis remains characterization. One previous study indicated that morphine inhibited the proliferation and hypoxia-induced vascular endothelial growth factor (VEGF) release of endothelial cells. Contrastingly, another report found that morphine via Ras/PI3k/MAPK/ERK signaling promotes the survival and angiogenesis in endothelial cells. Besides, endogenous opioid peptides stimulated angiogenesis in chicken allantoic membrane assay through opioid receptors. Thus, the function and mechanism of £]-EP and opioid receptors in angiogenesis are controversial. This study evaluated the culture effects of £]-EP and morphine on angiogenesis . It was found that £]-EP stimulated the proliferation, migration, and tube formation of endothelial cells in a dose-dependent manner. Morphine at a high dose inhibited the proliferation, migration, and tube formation of endothelial cells. In the ex vivo rat aortic ring assay, £]-EP enhanced, whereas morphine perturbed, the microvessel sprouting. We also confirmed the expression of MOR¡ADOR¡AKOR opioid receptor in endothelial cells. Application of naloxone, a selective opioid antagonist, and neutralizing antibodies of MOR abolished the angiogenic effect of £]-EP and morphine. Thus £]-EP and morphine exert the pro- and anti-angiogenic effect via MOR, respectively .Besides, £]-EP can be regarded as a novel angiogenic factor.

angiogenesis

morphine

opioid receptor

endothelial cells

£]-EP

Effets d'un traitement chronique par la morphine sur le protéome des cellules de neuroblastome humain SH-SY5Y

Moulédous, Lionel Dossin, Olivier

January 2007

Reproduction de : Thèse d'exercice : Médecine vétérinaire : Toulouse 3 : 2007. / Titre provenant de l'écran titre. Bibliogr. p. 59-64.

Effects of d-amphetamine and morphine on behavior maintained by fixed-interval schedules

Johnson, Jennifer L.

January 1900

Thesis (Ph. D.)--West Virginia University, 2002. / Title from document title page. Document formatted into pages; contains vi, 85 p. : ill. Includes abstract. Includes bibliographical references (p. 78-85).

Effects of morphine and adrenal hormones on glucose uptake of the isolated rat diaphragm in presence of varying magnesium ion concentration.

Poon, Mae-wan, Vivian.

January 1967

Thesis (Ph. D.)--University of Hong Kong, 1967. / Typewritten.

Biochemical and electrophysiological studies on the effects of morphine on dopaminergic neurotransmission in the caudate nucleus ofrats

Lee, Chi-ming, Dany, 李志明

January 1977

published_or_final_version / Biochemistry / Master / Master of Philosophy

Rats - Physiology.

Neural transmission.

Morphine - Physiological effect.

The possible role of brain histamine receptors in the mechanisms of morphine tolerance and physical dependence in mice

黃澤霖, Wong, Chak-lam, John.

January 1976

published_or_final_version / Pharmacology / Master / Master of Philosophy

Histamine.

Morphine - Physiological effect.

Mice - Physiology.

BEHAVIOR AND ADDICTION: EXPERIMENTAL STUDIES OF MORPHINE DEPENDENCE

Downey, Danniel James, 1947-

January 1975

No description available.

Morphine abuse.

Operant conditioning.

Narcotics -- Psychological aspects.

The Role of EphB2 Receptors in the Development of Morphine Tolerance

Kanawaty, Ashlin

27 November 2013

Recently we have begun to investigate a novel role of EphB receptors in opiate-dependant analgesia. EphB2-β-galactosidase knockins demonstrate that EphB2 is persistently expressed within a number of neural pathways involved in MOR-mediated nociception in vivo and that EphB2 colocalizes with markers of the MOR at the cellular level in the spinal cord and dorsal root ganglia. Despite demonstrating wild-type levels of sensory and motor activity, EphB2 null mice exhibit a significantly altered analgesic response to repeated (but not naive) opiate exposure compared to controls. Investigation of EphB2 null mice and wild type animals revealed no differences in MOR protein levels or affinity. Analysis of this opiate-mediated tolerance suggests that associative phenomena play a substantial role in mediating the analgesic effects observed, possibly due to defeciencies in CA1-mediated learning. Therefore, loss of EphB2 may diminish context-dependent learning and that such learning plays a substantial role in regulating morphine-dependent tolerance.

Eph receptor

Morphine

Mu opioid receptor

0317