1
|
Mitchell MC: Alcohol-induced impairment of
central nervous system function: Behavioral skills involved in
driving. J Stud Alcohol Suppl. 10:109–116. 1985.PubMed/NCBI View Article : Google Scholar
|
2
|
Fillmore MT: Drug abuse as a problem of
impaired control: Current approaches and findings. Behav Cogn
Neurosci Rev. 2:179–197. 2003.PubMed/NCBI View Article : Google Scholar
|
3
|
Lee H, Roh S and Kim DJ: Alcohol-induced
blackout. Int J Environ Res Public Health. 6:2783–2792.
2009.PubMed/NCBI View Article : Google Scholar
|
4
|
Marieb EN and Hoehn K: Human anatomy &
physiology. 10th edition. Pearson Education. 2010.
|
5
|
Bardo MT: Neuropharmacological mechanisms
of drug reward: Beyond dopamine in the nucleus accumbens. Crit Rev
Neurobiol. 12:37–67. 1998.PubMed/NCBI
|
6
|
Moselhy HF, Georgiou G and Kahn A: Frontal
lobe changes in alcoholism: A review of the literature. Alcohol
Alcohol. 36:357–368. 2001.PubMed/NCBI View Article : Google Scholar
|
7
|
Vengeliene V, Bilbao A, Molander A and
Spanagel R: Neuropharmacology of alcohol addiction. Br J Pharmacol.
154:299–315. 2008.PubMed/NCBI View Article : Google Scholar
|
8
|
Roberts AJ, McDonald JS, Heyser CJ,
Kieffer BL, Matthes HW, Koob GF and Gold LH: mu-Opioid receptor
knockout mice do not self-administer alcohol. J Pharmacol Exp Ther.
293:1002–1008. 2000.PubMed/NCBI
|
9
|
Kovacs KM, Szakall I, O'brien D, Wang R,
Vinod KY, Saito M, Simonin F, Kieffer BL and Vadasz C: Decreased
oral self-administration of alcohol in kappa-opioid receptor
knock-out mice. Alcohol Clin Exp Res. 29:730–738. 2005.PubMed/NCBI View Article : Google Scholar
|
10
|
Kiefer F, Jiménez-Arriero MA, Klein O,
Diehl A and Rubio G: CLINICAL STUDY: Cloninger's typology and
treatment outcome in alcohol-dependent subjects during
pharmacotherapy with naltrexone. Addict Biol. 13:124–129. 2008.
View Article : Google Scholar
|
11
|
Rubio G, Ponce G, Rodriguez-Jiménez R,
Jiménez-Arriero MA, Hoenicka J and Palomo T: Clinical predictors of
response to naltrexone in alcoholic patients: Who benefits most
from treatment with naltrexone? Alcohol Alcohol. 40:227–233.
2005.PubMed/NCBI View Article : Google Scholar
|
12
|
Aubin HJ, Reimer J, Nutt DJ, Bladström A,
Torup L, François C and Chick J: Clinical relevance of as-needed
treatment with nalmefene in alcohol-dependent patients. Eur Addict
Res. 21:160–168. 2015.PubMed/NCBI View Article : Google Scholar
|
13
|
Gual A, He Y, Torup L, van den Brink W and
Mann K: ESENSE 2 Study Group: A randomised, double-blind,
placebo-controlled, efficacy study of nalmefene, as-needed use, in
patients with alcohol dependence. Eur Neuropsychopharmacol.
23:1432–1442. 2013.PubMed/NCBI View Article : Google Scholar
|
14
|
Diamond I and Gordon AS: Cellular and
molecular neuroscience of alcoholism. Physiol Rev. 77:1–20.
1997.PubMed/NCBI View Article : Google Scholar
|
15
|
Warden AS and Mayfield RD: Gene expression
profiling in the human alcoholic brain. Neuropharmacology.
122:161–174. 2017.PubMed/NCBI View Article : Google Scholar
|
16
|
Steketee JD: Neurotransmitter systems of
the medial prefrontal cortex: Potential role in sensitization to
psychostimulants. Brain Res Brain Res Rev. 41:203–228.
2003.PubMed/NCBI View Article : Google Scholar
|
17
|
Silvers JM, Tokunaga S, Berry RB, White AM
and Matthews DB: Impairments in spatial learning and memory:
Ethanol, allopregnanolone, and the hippocampus. Brain Res Brain Res
Rev. 43:275–284. 2003.PubMed/NCBI View Article : Google Scholar
|
18
|
Oliver P, Forrest R and Keen J: Does the
combined use of heroin or methadone and other substances increase
the risk of overdose. Res Brief. 2007.
|
19
|
Froehlich JC: Genetic factors in alcohol
self-administration. J Clin Psychiatry. 56 (Suppl 7):15–23.
1995.PubMed/NCBI
|
20
|
Ulm RR, Volpicelli JR and Volpicelli LA:
Opiates and alcohol self-administration in animals. J Clin
Psychiatry. 56 (Suppl 7):S5–S14. 1995.PubMed/NCBI
|
21
|
Pfeiffer A, Pasi A, Mehraein P and Herz A:
Opiate receptor binding sites in human brain. Brain Res. 248:87–96.
1982.PubMed/NCBI View Article : Google Scholar
|
22
|
Frost JJ, Douglass KH, Mayberg HS, Dannals
RF, Links JM, Wilson AA, Ravert HT, Crozier WC and Wagner HN Jr:
Multicompartmental analysis of [11C]-carfentanil binding to opiate
receptors in humans measured by positron emission tomography. J
Cereb Blood Flow Metab. 9:398–409. 1989.PubMed/NCBI View Article : Google Scholar
|
23
|
Stromberg MF, Casale M, Volpicelli L,
Volpicelli JR and O'Brien CP: A comparison of the effects of the
opioid antagonists naltrexone, naltrindole, and beta-funaltrexamine
on ethanol consumption in the rat. Alcohol. 15:281–289.
1998.PubMed/NCBI View Article : Google Scholar
|
24
|
Grisel JE, Mogil JS, Grahame NJ,
Rubinstein M, Belknap JK, Crabbe JC and Low MJ: Ethanol oral
self-administration is increased in mutant mice with decreased
beta-endorphin expression. Brain Res. 835:62–67. 1999.PubMed/NCBI View Article : Google Scholar
|
25
|
Eriksson CJ, Kaprio J, Pulkkinen L and
Rose RJ: Testosterone and alcohol use among adolescent male twins:
Testing between-family associations in within-family comparisons.
Behav Genet. 35:359–368. 2005.PubMed/NCBI View Article : Google Scholar
|
26
|
La Grange L, Jones TD, Erb L and Reyes E:
Alcohol consumption: Biochemical and personality correlates in a
college student population. Addict Behav. 20:93–103.
1995.PubMed/NCBI View Article : Google Scholar
|
27
|
Sinclair M, Grossmann M, Gow PJ and Angus
PW: Testosterone in men with advanced liver disease: Abnormalities
and implications. J Gastroenterol Hepatol. 30:244–251.
2015.PubMed/NCBI View Article : Google Scholar
|
28
|
Katz N and Mazer NA: The impact of opioids
on the endocrine system. Clin J Pain. 25:170–175. 2009.PubMed/NCBI View Article : Google Scholar
|
29
|
Hammer RP Jr and Bridges RS: Preoptic area
opioids and opiate receptors increase during pregnancy and decrease
during lactation. Brain Res. 420:48–56. 1987.PubMed/NCBI View Article : Google Scholar
|
30
|
Pluchino N, Ninni F, Casarosa E, Giannini
A, Merlini S, Cubeddu A, Luisi M, Cela V and Genazzani AR: Sex
differences in brain and plasma beta-endorphin content following
testosterone, dihydrotestosterone and estradiol administration to
gonadectomized rats. Neuroendocrinology. 89:411–423.
2009.PubMed/NCBI View Article : Google Scholar
|
31
|
Johansson P, Ray A, Zhou Q, Huang W,
Karlsson K and Nyberg F: Anabolic androgenic steroids increase
beta-endorphin levels in the ventral tegmental area in the male rat
brain. Neurosci Res. 27:185–189. 1997.PubMed/NCBI View Article : Google Scholar
|
32
|
Johansson P, Lindqvist A, Nyberg F and
Fahlke C: Anabolic androgenic steroids affects alcohol intake,
defensive behaviors and brain opioid peptides in the rat. Pharmacol
Biochem Behav. 67:271–279. 2000.PubMed/NCBI View Article : Google Scholar
|
33
|
Schoffelmeer AN, Warden G, Hogenboom F and
Mulder AH: Beta-endorphin: A highly selective endogenous opioid
agonist for presynaptic mu opioid receptors. J Pharmacol Exp Ther.
258:237–242. 1991.PubMed/NCBI
|
34
|
Gillan M and Kosterlitz H: Spectrum of the
mu, delta- and kappa-binding sites in homogenates of rat brain. Br
J Pharmacol. 77:461–469. 1982.PubMed/NCBI View Article : Google Scholar
|
35
|
Herz A: Endogenous opioid systems and
alcohol addiction. Psychopharmacology (Berl). 129:99–111.
1997.PubMed/NCBI
|
36
|
Murphy AZ, Shupnik MA and Hoffman GE:
Androgen and estrogen (alpha) receptor distribution in the
periaqueductal gray of the male rat. Horm Behav. 36:98–108.
1999.PubMed/NCBI View Article : Google Scholar
|
37
|
Hamson DK, Jones BA and Watson NV:
Distribution of androgen receptor immunoreactivity in the brainstem
of male rats. Neuroscience. 127:797–803. 2004.PubMed/NCBI View Article : Google Scholar
|
38
|
Loyd DR and Murphy AZ: Androgen and
estrogen (alpha) receptor localization on periaqueductal gray
neurons projecting to the rostral ventromedial medulla in the male
and female rat. J Chem Neuroanat. 36:216–226. 2008.PubMed/NCBI View Article : Google Scholar
|
39
|
Kren MC, Haller VL and Welch SP: The role
of gonadal hormones on opioid receptor protein density in arthritic
rats. Eur J Pharmacol. 578:177–184. 2008.PubMed/NCBI View Article : Google Scholar
|
40
|
Schlegel PN: Clomiphene citrate for the
treatment of low testosterone associated with chronic opioid pain
medication administration. uriClinicalTrials.govsimpleClinicalTrials.gov
Identifier: NCT01880086. https://clinicaltrials.gov/ct2/show/study/NCT01880086.
Accessed July 17, 2018.
|
41
|
Lee KS, Zhang Y, Asgar J, Auh QS, Chung MK
and Ro JY: Androgen receptor transcriptionally regulates μ-opioid
receptor expression in rat trigeminal ganglia. Neuroscience.
331:52–61. 2016.PubMed/NCBI View Article : Google Scholar
|
42
|
Rosen S, Ham B and Mogil JS: Sex
differences in neuroimmunity and pain. J Neurosci Res. 95:500–508.
2017.PubMed/NCBI View Article : Google Scholar
|
43
|
Aloisi AM: Gonadal hormones and sex
differences in pain reactivity. Clin J Pain. 19:168–174.
2003.PubMed/NCBI
|
44
|
Lee KS, Asgar J, Zhang Y, Chung MK and Ro
JY: The role of androgen receptor in transcriptional modulation of
cannabinoid receptor type 1 gene in rat trigeminal ganglia.
Neuroscience. 254:395–403. 2013.PubMed/NCBI View Article : Google Scholar
|
45
|
Tyagi V, Scordo M, Yoon RS, Liporace FA
and Greene LW: Revisiting the role of testosterone: Are we missing
something? Rev Urol. 19:16–24. 2017.PubMed/NCBI View Article : Google Scholar
|
46
|
Sobas EM, Reinoso R, Cuadrado-Asensio R,
Fernández I, Maldonado MJ and Pastor JC: Reliability of potential
pain biomarkers in the saliva of healthy subjects: Inter-individual
differences and intersession variability. PLoS One.
11(e0166976)2016.PubMed/NCBI View Article : Google Scholar
|
47
|
Macedo CG, Fanton LE, Fischer L and
Tambeli CH: Coactivation of μ-and κ-opioid receptors may mediate
the protective effect of testosterone on the development of
temporomandibular joint nociception in male rats. J Oral Facial
Pain Headache. 30:61–67. 2016.PubMed/NCBI View Article : Google Scholar
|
48
|
Zhang X, Zhang Y, Asgar J, Niu KY, Lee J,
Lee KS, Schneider M and Ro JY: Sex differences in μ-opioid receptor
expression in trigeminal ganglia under a myositis condition in
rats. Eur J Pain. 18:151–161. 2014.PubMed/NCBI View Article : Google Scholar
|
49
|
McEwen BS and Milner TA: Hippocampal
formation: Shedding light on the influence of sex and stress on the
brain. Brain Res Rev. 55:343–355. 2007.PubMed/NCBI View Article : Google Scholar
|
50
|
Cicero TJ, Newman KS and Meyer ER:
Testosterone does not influence opiate binding sites in the male
rat brain. Life Sci. 33:1231–1239. 1983.PubMed/NCBI View Article : Google Scholar
|
51
|
Diez JA and Roberts DL: Evidence
contradicting the notion that gonadal hormones regulate brain
opiate receptors. Biochem Biophys Res Commun. 108:1313–1319.
1982.PubMed/NCBI View Article : Google Scholar
|
52
|
Olasmaa M, Limonta P, Maggi R, Dondi D,
Martini L and Piva F: Further evidence that gonadal steroids do not
modulate brain opiate receptors in male rats. Endocrinol Jpn.
34:521–529. 1987.PubMed/NCBI View Article : Google Scholar
|
53
|
Wilkinson M, Herdon H and Wilson CA:
Gonadal steroid modification of adrenergic and opiate receptor
binding in the central nervous system. ScienceDirect. 253–263.
1981. View Article : Google Scholar
|
54
|
Slamberová R, Rimanóczy A, Schindler CJ
and Vathy I: Cortical and striatal mu-opioid receptors are altered
by gonadal hormone treatment but not by prenatal morphine exposure
in adult male and female rats. Brain Res Bull. 62:47–53.
2003.PubMed/NCBI View Article : Google Scholar
|
55
|
Hahn EF and Fishman J: Changes in rat
brain opiate receptor content upon castration and testosterone
replacement. Biochem Biophys Res Commun. 90:819–823.
1979.PubMed/NCBI View Article : Google Scholar
|
56
|
Hahn EF and Fishman J: Castration affects
male rat brain opiate receptor content. Neuroendocrinology.
41:60–63. 1985.PubMed/NCBI View Article : Google Scholar
|
57
|
Heinz A, Reimold M, Wrase J, Hermann D,
Croissant B, Mundle G, Dohmen BM, Braus DF, Schumann G, Machulla
HJ, et al: Correlation of stable elevations in striatal mu-opioid
receptor availability in detoxified alcoholic patients with alcohol
craving: A positron emission tomography study using carbon
11-labeled carfentanil. Arch Gen Psychiatry. 62:57–64.
2005.PubMed/NCBI View Article : Google Scholar
|
58
|
Weerts EM, Wand GS, Kuwabara H, Munro CA,
Dannals RF, Hilton J, Frost JJ and McCaul ME: Positron emission
tomography imaging of mu- and delta-opioid receptor binding in
alcohol-dependent and healthy control subjects. Alcohol Clin Exp
Res. 35:2162–2173. 2011.PubMed/NCBI View Article : Google Scholar
|
59
|
Steidl S, Wasserman DI, Blaha CD and
Yeomans JS: Opioid-induced rewards, locomotion, and dopamine
activation: A proposed model for control by mesopontine and
rostromedial tegmental neurons. Neurosci Biobehav Rev. 83:72–82.
2017.PubMed/NCBI View Article : Google Scholar
|
60
|
Di Chiara G, Bassareo V, Fenu S, De Luca
MA, Spina L, Cadoni C, Acquas E, Carboni E, Valentini V and Lecca
D: Dopamine and drug addiction: The nucleus accumbens shell
connection. Neuropharmacology. 47 (Suppl 1):S227–S241.
2004.PubMed/NCBI View Article : Google Scholar
|
61
|
Sulzer D: How addictive drugs disrupt
presynaptic dopamine neurotransmission. Neuron. 69:628–649.
2011.PubMed/NCBI View Article : Google Scholar
|
62
|
Apostolinas S, Rajendren G, Dobrjansky A
and Gibson MJ: Androgen receptor immunoreactivity in specific
neural regions in normal and hypogonadal male mice: Effect of
androgens. Brain Res. 817:19–24. 1999.PubMed/NCBI View Article : Google Scholar
|
63
|
Leranth C, Petnehazy O and MacLusky NJ:
Gonadal hormones affect spine synaptic density in the CA1
hippocampal subfield of male rats. J Neurosci. 23:1588–1592.
2003.PubMed/NCBI View Article : Google Scholar
|
64
|
Young WJ and Chang C: Ontogeny and
autoregulation of androgen receptor mRNA expression in the nervous
system. Endocrine. 9:79–88. 1998.PubMed/NCBI View Article : Google Scholar
|
65
|
Mansour A, Khachaturian H, Lewis ME, Akil
H and Watson SJ: Autoradiographic differentiation of mu, delta, and
kappa opioid receptors in the rat forebrain and midbrain. J
Neurosci. 7:2445–2464. 1987.PubMed/NCBI
|
66
|
Mansour A, Fox CA, Burke S, Meng F,
Thompson RC, Akil H and Watson SJ: Mu, delta, and kappa opioid
receptor mRNA expression in the rat CNS: An in situ hybridization
study. J Comp Neurol. 350:412–438. 1994.PubMed/NCBI View Article : Google Scholar
|
67
|
Tempel A and Zukin RS: Neuroanatomical
patterns of the mu, delta, and kappa opioid receptors of rat brain
as determined by quantitative in vitro autoradiography. Proc Natl
Acad Sci USA. 84:4308–4312. 1987.PubMed/NCBI View Article : Google Scholar
|
68
|
Vogt LJ, Sim-Selley LJ, Childers SR, Wiley
RG and Vogt BA: Colocalization of mu-opioid receptors and activated
G-proteins in rat cingulate cortex. J Pharmacol Exp Ther.
299:840–848. 2001.PubMed/NCBI
|
69
|
Jones AK, Qi LY, Fujirawa T, Luthra SK,
Ashburner J, Bloomfield P, Cunningham VJ, Itoh M, Fukuda H and
Jones T: In vivo distribution of opioid receptors in man in
relation to the cortical projections of the medial and lateral pain
systems measured with positron emission tomography. Neurosci Lett.
126:25–28. 1991.PubMed/NCBI View Article : Google Scholar
|
70
|
Williams TM, Davies SJ, Taylor LG, Daglish
MR, Hammers A, Brooks DJ, Nutt DJ and Lingford-Hughes A: Brain
opioid receptor binding in early abstinence from alcohol dependence
and relationship to craving: An [11C]diprenorphine PET study. Eur
Neuropsychopharmacol. 19:740–748. 2009.PubMed/NCBI View Article : Google Scholar
|
71
|
Hiller JM, Angel LM and Simon EJ: Multiple
opiate receptors: Alcohol selectively inhibits binding to delta
receptors. Science. 214:468–469. 1981.PubMed/NCBI View Article : Google Scholar
|
72
|
Pfeiffer A, Seizinger BR and Herz A:
Chronic ethanol imbibition interferes with delta-, but not with
mu-opiate receptors. Neuropharmacology. 20:1229–1232.
1981.PubMed/NCBI
|
73
|
Hoffman PL, Urwyler S and Tabakoff B:
Alterations in opiate receptor function after chronic ethanol
exposure. J Pharmacol Exp Ther. 222:182–189. 1982.PubMed/NCBI
|
74
|
Tabakoff B, Urwyler S and Hoffman PL:
Ethanol alters kinetic characteristics and function of striatal
morphine receptors. J Neurochem. 37:518–521. 1981.PubMed/NCBI View Article : Google Scholar
|