Hmdb loader

HMDBP02444 (Delta-type opioid receptor) Metabolite Associations

Displaying all 20 metabolite protein links
HMDB ID Name CAS NumberStructureFormula Average Mass
Monoisotopic Mass 		References
HMDB0000464Calcium7440-70-2ThumbCa40.078
39.962591155		Not Available
HMDB0004995Codeine76-57-3ThumbC18H21NO3299.3642
299.152143543
  1. Chen X, Ji ZL, Chen YZ: TTD: Therapeutic Target Database. Nucleic Acids Res. 2002 Jan 1;30(1):412-5. [PubMed:11752352 ]
  2. Ortiz MI, Castro-Olguin J, Pena-Samaniego N, Castaneda-Hernandez G: Probable activation of the opioid receptor-nitric oxide-cyclic GMP-K+ channels pathway by codeine. Pharmacol Biochem Behav. 2005 Dec;82(4):695-703. Epub 2006 Jan 4. [PubMed:16386786 ]
  3. Mignat C, Wille U, Ziegler A: Affinity profiles of morphine, codeine, dihydrocodeine and their glucuronides at opioid receptor subtypes. Life Sci. 1995;56(10):793-9. [PubMed:7885194 ]
  4. Loghin F, Popa DS, Socaciu C: Influence of glutethimide on rat brain mononucleotides by sub-chronic codeine treatment. J Cell Mol Med. 2001 Oct-Dec;5(4):409-16. [PubMed:12067475 ]
  5. Advenier C, Girard V, Naline E, Vilain P, Emonds-Alt X: Antitussive effect of SR 48968, a non-peptide tachykinin NK2 receptor antagonist. Eur J Pharmacol. 1993 Nov 30;250(1):169-71. [PubMed:8119316 ]
  6. Karlsson JA, Lanner AS, Persson CG: Airway opioid receptors mediate inhibition of cough and reflex bronchoconstriction in guinea pigs. J Pharmacol Exp Ther. 1990 Feb;252(2):863-8. [PubMed:2156065 ]
HMDB0004999Loperamide53179-11-6ThumbC29H33ClN2O2477.038
476.223056017		Not Available
HMDB0014339Tramadol27203-92-5ThumbC16H25NO2263.3752
263.188529049
  1. Wentland MP, Lou R, Lu Q, Bu Y, VanAlstine MA, Cohen DJ, Bidlack JM: Syntheses and opioid receptor binding properties of carboxamido-substituted opioids. Bioorg Med Chem Lett. 2009 Jan 1;19(1):203-8. doi: 10.1016/j.bmcl.2008.10.134. Epub 2008 Nov 7. [PubMed:19027293 ]
HMDB0014440Morphine57-27-2ThumbC17H19NO3285.3377
285.136493479
  1. Chen X, Ji ZL, Chen YZ: TTD: Therapeutic Target Database. Nucleic Acids Res. 2002 Jan 1;30(1):412-5. [PubMed:11752352 ]
  2. Yamada H, Shimoyama N, Sora I, Uhl GR, Fukuda Y, Moriya H, Shimoyama M: Morphine can produce analgesia via spinal kappa opioid receptors in the absence of mu opioid receptors. Brain Res. 2006 Apr 14;1083(1):61-9. Epub 2006 Mar 10. [PubMed:16530171 ]
  3. Dortch-Carnes J, Russell KR: Morphine-induced reduction of intraocular pressure and pupil diameter: role of nitric oxide. Pharmacology. 2006;77(1):17-24. Epub 2006 Mar 13. [PubMed:16534251 ]
  4. Koch T, Wu DF, Yang LQ, Brandenburg LO, Hollt V: Role of phospholipase D2 in the agonist-induced and constitutive endocytosis of G-protein coupled receptors. J Neurochem. 2006 Apr;97(2):365-72. Epub 2006 Mar 15. [PubMed:16539674 ]
  5. Galeotti N, Stefano GB, Guarna M, Bianchi E, Ghelardini C: Signaling pathway of morphine induced acute thermal hyperalgesia in mice. Pain. 2006 Aug;123(3):294-305. Epub 2006 May 2. [PubMed:16650582 ]
  6. Asensio VJ, Miralles A, Garcia-Sevilla JA: Stimulation of mitogen-activated protein kinase kinases (MEK1/2) by mu-, delta- and kappa-opioid receptor agonists in the rat brain: regulation by chronic morphine and opioid withdrawal. Eur J Pharmacol. 2006 Jun 6;539(1-2):49-56. Epub 2006 Apr 6. [PubMed:16678156 ]
  7. Kieffer BL, Gaveriaux-Ruff C: Exploring the opioid system by gene knockout. Prog Neurobiol. 2002 Apr;66(5):285-306. [PubMed:12015197 ]
HMDB0014477Methadone76-99-3ThumbC21H27NO309.4452
309.209264491
  1. Gross ER, Hsu AK, Gross GJ: Acute methadone treatment reduces myocardial infarct size via the delta-opioid receptor in rats during reperfusion. Anesth Analg. 2009 Nov;109(5):1395-402. doi: 10.1213/ANE.0b013e3181b92201. [PubMed:19843777 ]
HMDB0014640Oxycodone76-42-6ThumbC18H21NO4315.3636
315.147058165
  1. Chen X, Ji ZL, Chen YZ: TTD: Therapeutic Target Database. Nucleic Acids Res. 2002 Jan 1;30(1):412-5. [PubMed:11752352 ]
  2. Ordonez Gallego A, Gonzalez Baron M, Espinosa Arranz E: Oxycodone: a pharmacological and clinical review. Clin Transl Oncol. 2007 May;9(5):298-307. [PubMed:17525040 ]
HMDB0014749Butorphanol58786-99-5ThumbC21H29NO2327.4605
327.219829177
  1. Chen X, Ji ZL, Chen YZ: TTD: Therapeutic Target Database. Nucleic Acids Res. 2002 Jan 1;30(1):412-5. [PubMed:11752352 ]
  2. Picker MJ, Benyas S, Horwitz JA, Thompson K, Mathewson C, Smith MA: Discriminative stimulus effects of butorphanol: influence of training dose on the substitution patterns produced by Mu, Kappa and Delta opioid agonists. J Pharmacol Exp Ther. 1996 Dec;279(3):1130-41. [PubMed:8968334 ]
  3. Fan LW, Tanaka S, Tien LT, Ma T, Rockhold RW, Ho IK: Withdrawal from dependence upon butorphanol uniquely increases kappa(1)-opioid receptor binding in the rat brain. Brain Res Bull. 2002 Jun;58(2):149-60. [PubMed:12127012 ]
  4. Fan LW, Tanaka S, Park Y, Sasaki K, Ma T, Tien LT, Rockhold RW, Ho IK: Butorphanol dependence and withdrawal decrease hippocampal kappa 2-opioid receptor binding. Brain Res. 2002 Dec 27;958(2):277-90. [PubMed:12470863 ]
  5. Commiskey S, Fan LW, Ho IK, Rockhold RW: Butorphanol: effects of a prototypical agonist-antagonist analgesic on kappa-opioid receptors. J Pharmacol Sci. 2005 Jun;98(2):109-16. Epub 2005 Jun 8. [PubMed:15942128 ]
  6. Wakabayashi H, Tokuyama S, Ho IK: Simultaneous measurement of biogenic amines and their metabolites in rat brain regions after acute administration of and abrupt withdrawal from butorphanol or morphine. Neurochem Res. 1995 Oct;20(10):1179-85. [PubMed:8746803 ]
  7. Narita M, Feng Y, Makimura M, Hoskins B, Ho IK: Repeated administration of opioids alters characteristics of membrane-bound phorbol ester binding in rat brain. Eur J Pharmacol. 1994 Dec 27;271(2-3):547-50. [PubMed:7705457 ]
  8. Walsh SL, Chausmer AE, Strain EC, Bigelow GE: Evaluation of the mu and kappa opioid actions of butorphanol in humans through differential naltrexone blockade. Psychopharmacology (Berl). 2008 Jan;196(1):143-55. Epub 2007 Oct 2. [PubMed:17909753 ]
HMDB0014785Propoxyphene469-62-5ThumbC22H29NO2339.4712
339.219829177
  1. Neil A: Affinities of some common opioid analgesics towards four binding sites in mouse brain. Naunyn Schmiedebergs Arch Pharmacol. 1984 Nov;328(1):24-9. [PubMed:6151117 ]
HMDB0014842Naltrexone16590-41-3ThumbC20H23NO4341.4009
341.162708229
  1. Chen X, Ji ZL, Chen YZ: TTD: Therapeutic Target Database. Nucleic Acids Res. 2002 Jan 1;30(1):412-5. [PubMed:11752352 ]
  2. Barrios de Tomasi E, Juarez-Gonzalez J: [Opioid antagonists and alcohol consumption]. Rev Neurol. 2007 Aug 1-15;45(3):155-62. [PubMed:17661275 ]
  3. Weerts EM, Kim YK, Wand GS, Dannals RF, Lee JS, Frost JJ, McCaul ME: Differences in delta- and mu-opioid receptor blockade measured by positron emission tomography in naltrexone-treated recently abstinent alcohol-dependent subjects. Neuropsychopharmacology. 2008 Feb;33(3):653-65. Epub 2007 May 9. [PubMed:17487229 ]
  4. Herz A: Opioid reward mechanisms: a key role in drug abuse? Can J Physiol Pharmacol. 1998 Mar;76(3):252-8. [PubMed:9673788 ]
  5. Roy S, Guo X, Kelschenbach J, Liu Y, Loh HH: In vivo activation of a mutant mu-opioid receptor by naltrexone produces a potent analgesic effect but no tolerance: role of mu-receptor activation and delta-receptor blockade in morphine tolerance. J Neurosci. 2005 Mar 23;25(12):3229-33. [PubMed:15788780 ]
  6. Herz A: Endogenous opioid systems and alcohol addiction. Psychopharmacology (Berl). 1997 Jan;129(2):99-111. [PubMed:9040115 ]
HMDB0014846Sufentanil56030-54-7ThumbC22H30N2O2S386.551
386.202798904
  1. Freye E, Latasch L, Portoghese PS: The delta receptor is involved in sufentanil-induced respiratory depression--opioid subreceptors mediate different effects. Eur J Anaesthesiol. 1992 Nov;9(6):457-62. [PubMed:1330549 ]
  2. Zhu J, Xue JC, Law PY, Claude PA, Luo LY, Yin J, Chen C, Liu-Chen LY: The region in the mu opioid receptor conferring selectivity for sufentanil over the delta receptor is different from that over the kappa receptor. FEBS Lett. 1996 Apr 15;384(2):198-202. [PubMed:8612823 ]
HMDB0014951Fentanyl437-38-7ThumbC22H28N2O336.4705
336.220163528
  1. Hajiha M, DuBord MA, Liu H, Horner RL: Opioid receptor mechanisms at the hypoglossal motor pool and effects on tongue muscle activity in vivo. J Physiol. 2009 Jun 1;587(Pt 11):2677-92. doi: 10.1113/jphysiol.2009.171678. Epub 2009 Apr 29. [PubMed:19403616 ]
  2. Rodrigues AR, Castro MS, Francischi JN, Perez AC, Duarte ID: Participation of ATP-sensitive K+ channels in the peripheral antinociceptive effect of fentanyl in rats. Braz J Med Biol Res. 2005 Jan;38(1):91-7. Epub 2005 Jan 18. [PubMed:15665994 ]
  3. Poonawala T, Levay-Young BK, Hebbel RP, Gupta K: Opioids heal ischemic wounds in the rat. Wound Repair Regen. 2005 Mar-Apr;13(2):165-74. [PubMed:15828941 ]
  4. Sahin AS, Duman A, Atalik EK, Ogun CO, Sahin TK, Erol A, Ozergin U: The mechanisms of the direct vascular effects of fentanyl on isolated human saphenous veins in vitro. J Cardiothorac Vasc Anesth. 2005 Apr;19(2):197-200. [PubMed:15868528 ]
  5. Darwish M, Tempero K, Kirby M, Thompson J: Pharmacokinetics and dose proportionality of fentanyl effervescent buccal tablets in healthy volunteers. Clin Pharmacokinet. 2005;44(12):1279-86. [PubMed:16372825 ]
  6. Darwish M, Kirby M, Robertson P Jr, Tracewell W, Jiang JG: Pharmacokinetic properties of fentanyl effervescent buccal tablets: a phase I, open-label, crossover study of single-dose 100, 200, 400, and 800 microg in healthy adult volunteers. Clin Ther. 2006 May;28(5):707-14. [PubMed:16861092 ]
HMDB0014982Nalbuphine20594-83-6ThumbC21H27NO4357.4434
357.194008357
  1. Chen X, Ji ZL, Chen YZ: TTD: Therapeutic Target Database. Nucleic Acids Res. 2002 Jan 1;30(1):412-5. [PubMed:11752352 ]
  2. Chen JC, Smith ER, Cahill M, Cohen R, Fishman JB: The opioid receptor binding of dezocine, morphine, fentanyl, butorphanol and nalbuphine. Life Sci. 1993;52(4):389-96. [PubMed:8093631 ]
  3. De Souza EB, Schmidt WK, Kuhar MJ: Nalbuphine: an autoradiographic opioid receptor binding profile in the central nervous system of an agonist/antagonist analgesic. J Pharmacol Exp Ther. 1988 Jan;244(1):391-402. [PubMed:2826773 ]
HMDB0014992Levorphanol77-07-6ThumbC17H23NO257.3706
257.177964363
  1. Prommer E: Levorphanol: the forgotten opioid. Support Care Cancer. 2007 Mar;15(3):259-64. Epub 2006 Oct 13. [PubMed:17039381 ]
HMDB0015036Remifentanil132875-61-7ThumbC20H28N2O5376.4467
376.199822016
  1. Rodrigues AR, Castro MS, Francischi JN, Perez AC, Duarte ID: Participation of ATP-sensitive K+ channels in the peripheral antinociceptive effect of fentanyl in rats. Braz J Med Biol Res. 2005 Jan;38(1):91-7. Epub 2005 Jan 18. [PubMed:15665994 ]
  2. Poonawala T, Levay-Young BK, Hebbel RP, Gupta K: Opioids heal ischemic wounds in the rat. Wound Repair Regen. 2005 Mar-Apr;13(2):165-74. [PubMed:15828941 ]
  3. Sahin AS, Duman A, Atalik EK, Ogun CO, Sahin TK, Erol A, Ozergin U: The mechanisms of the direct vascular effects of fentanyl on isolated human saphenous veins in vitro. J Cardiothorac Vasc Anesth. 2005 Apr;19(2):197-200. [PubMed:15868528 ]
  4. Darwish M, Tempero K, Kirby M, Thompson J: Pharmacokinetics and dose proportionality of fentanyl effervescent buccal tablets in healthy volunteers. Clin Pharmacokinet. 2005;44(12):1279-86. [PubMed:16372825 ]
  5. Darwish M, Kirby M, Robertson P Jr, Tracewell W, Jiang JG: Pharmacokinetic properties of fentanyl effervescent buccal tablets: a phase I, open-label, crossover study of single-dose 100, 200, 400, and 800 microg in healthy adult volunteers. Clin Ther. 2006 May;28(5):707-14. [PubMed:16861092 ]
  6. Stucke AG, Zuperku EJ, Sanchez A, Tonkovic-Capin M, Tonkovic-Capin V, Mustapic S, Stuth EA: Opioid receptors on bulbospinal respiratory neurons are not activated during neuronal depression by clinically relevant opioid concentrations. J Neurophysiol. 2008 Nov;100(5):2878-88. doi: 10.1152/jn.90620.2008. Epub 2008 Sep 24. [PubMed:18815346 ]
HMDB0015091Hydrocodone125-29-1ThumbC18H21NO3299.3642
299.152143543
  1. Chen X, Ji ZL, Chen YZ: TTD: Therapeutic Target Database. Nucleic Acids Res. 2002 Jan 1;30(1):412-5. [PubMed:11752352 ]
  2. Peckham EM, Traynor JR: Comparison of the antinociceptive response to morphine and morphine-like compounds in male and female Sprague-Dawley rats. J Pharmacol Exp Ther. 2006 Mar;316(3):1195-201. Epub 2005 Nov 16. [PubMed:16291875 ]
  3. Thompson CM, Wojno H, Greiner E, May EL, Rice KC, Selley DE: Activation of G-proteins by morphine and codeine congeners: insights to the relevance of O- and N-demethylated metabolites at mu- and delta-opioid receptors. J Pharmacol Exp Ther. 2004 Feb;308(2):547-54. Epub 2003 Nov 4. [PubMed:14600248 ]
HMDB0015213Diphenoxylate915-30-0ThumbC30H32N2O2452.5873
452.246378278
  1. Coupar IM: The peristaltic reflex in the rat ileum: evidence for functional mu- and delta-opiate receptors. J Pharm Pharmacol. 1995 Aug;47(8):643-6. [PubMed:8583364 ]
HMDB0015314Naloxone465-65-6ThumbC19H21NO4327.3743
327.147058165
  1. Helm S, Trescot AM, Colson J, Sehgal N, Silverman S: Opioid antagonists, partial agonists, and agonists/antagonists: the role of office-based detoxification. Pain Physician. 2008 Mar-Apr;11(2):225-35. [PubMed:18354714 ]
  2. van Dorp E, Yassen A, Dahan A: Naloxone treatment in opioid addiction: the risks and benefits. Expert Opin Drug Saf. 2007 Mar;6(2):125-32. [PubMed:17367258 ]
  3. Moncada A, Cendan CM, Baeyens JM, Del Pozo E: Effects of serine/threonine protein phosphatase inhibitors on morphine-induced antinociception in the tail flick test in mice. Eur J Pharmacol. 2003 Mar 28;465(1-2):53-60. [PubMed:12650833 ]
  4. Kakinohana M, Marsala M, Carter C, Davison JK, Yaksh TL: Neuraxial morphine may trigger transient motor dysfunction after a noninjurious interval of spinal cord ischemia: a clinical and experimental study. Anesthesiology. 2003 Apr;98(4):862-70. [PubMed:12657847 ]
  5. Breljak D, Boranic M, Horvat S: Oligopeptide fragments of the enkephalin molecule interfere with hematopoietic cell colony formation. Int J Immunopathol Pharmacol. 2000 Jan-Apr;13(1):13-19. [PubMed:12749773 ]
  6. Chudapongse N, Kim SY, Kramer RE, Ho IK: Nonspecific effects of the selective kappa-opioid receptor agonist U-50,488H on dopamine uptake and release in PC12 cells. J Pharmacol Sci. 2003 Nov;93(3):372-5. [PubMed:14646257 ]
  7. Osman AM, Gomma M, Saad AH: A possible role for an enkephalinergic system in the internal defense mechanism of Biomphalaria alexandrina exposed to Schistosoma mansoni. J Egypt Soc Parasitol. 2003 Dec;33(3):841-61. [PubMed:14708857 ]
HMDB0015323Oxymorphone76-41-5ThumbC17H19NO4301.3371
301.131408101
  1. Chamberlin KW, Cottle M, Neville R, Tan J: Oral oxymorphone for pain management. Ann Pharmacother. 2007 Jul;41(7):1144-52. Epub 2007 Jun 26. [PubMed:17595308 ]
  2. Ananthan S, Khare NK, Saini SK, Seitz LE, Bartlett JL, Davis P, Dersch CM, Porreca F, Rothman RB, Bilsky EJ: Identification of opioid ligands possessing mixed micro agonist/delta antagonist activity among pyridomorphinans derived from naloxone, oxymorphone, and hydromorphone [correction of hydropmorphone]. J Med Chem. 2004 Mar 11;47(6):1400-12. [PubMed:14998329 ]
HMDB0015631Alvimopan156053-89-3ThumbC25H32N2O4424.5326
424.236207522
  1. Neary P, Delaney CP: Alvimopan. Expert Opin Investig Drugs. 2005 Apr;14(4):479-88. [PubMed:15882122 ]
  2. Beattie DT, Cheruvu M, Mai N, O'Keefe M, Johnson-Rabidoux S, Peterson C, Kaufman E, Vickery R: The in vitro pharmacology of the peripherally restricted opioid receptor antagonists, alvimopan, ADL 08-0011 and methylnaltrexone. Naunyn Schmiedebergs Arch Pharmacol. 2007 May;375(3):205-20. Epub 2007 Mar 6. [PubMed:17340127 ]
Displaying all 20 metabolite protein links