Late-stage results from the probe development effort to identify antagonists of OPRK1: LCMS-based in vivo plasma and brain levels
Name: Late-stage results from the probe development effort to identify antagonists of OPRK1: LCMS-based in vivo plasma and brain levels. ..more
BioActive Compound: 1
Depositor Specified Assays
Source (MLPCN Center Name): The Scripps Research Institute Molecular Screening Center (SRIMSC)
Affiliation: The Scripps Research Institute, TSRI
Assay Provider: Lakshmi A. Devi, Mount Sinai School of Medicine
Network: Molecular Library Probe Production Centers Network (MLPCN)
Grant Proposal Number: R03NS053751
Grant Proposal PI: Lakshmi A. Devi, Mount Sinai School of Medicine
External Assay ID: OPRK1_ANT_LCMS_PK
Name: Late-stage results from the probe development effort to identify antagonists of OPRK1: LCMS-based in vivo plasma and brain levels.
Potent and selective OPRK antagonists will be useful for studying the mechanisms involved in OPRK-mediated analgesia and may have therapeutic value as novel analgesics with an improved side effect profile to currently available drugs. Studies have identified a role for dynorphin and OPRK stimulation in neuropathic pain (1). The dynorphins act as endogenous agonists at the opioid receptors, including OPRK (2), and the increased dynorphin expression in neuropathic pain also leads to a sustained activation of OPRK (1, 3). The mechanisms and neural circuits in OPRK-mediated analgesia are active areas of study; it is hoped those studies will assist in the development of novel analgesics that bypass OPRK-mediated depression (4-5). A role for dynorphin/OPRK in modulating drug addiction has been proposed (for review, see (6-7)). The function of dynorphin/OPRK systems in addiction appears to be diverse, and may modulate drug-seeking behavior depending on factors such as drug history, pattern of intake, and stress (for review, see (6)). The availability of potent and selective OPRK ligands may help unravel these mechanisms, as well as prove to be of therapeutic utility. Evidence from preclinical studies indicates that the dynorphin/OPRK system may be dysregulated in affective psychiatric disorders (for review, see (6, 8)). However, solid evidence from clinical studies is lacking. There is increasing evidence for a potential involvement of dynorphin/OPRK in schizophrenia; OPRK agonists appear to induce symptoms in humans and animals that are present in schizophrenia (8-10). Thus, the availability of new research tools such as potent and selective OPRK antagonists will facilitate understanding the physiological and pathophysiological mechanisms of dynorphin/OPRK systems and their roles in psychiatric disease in humans.
1. Xu, M., et al., Neuropathic pain activates the endogenous kappa opioid system in mouse spinal cord and induces opioid receptor tolerance. J Neurosci, 2004. 24(19): p. 4576-84.
2. Chavkin, C., I.F. James, and A. Goldstein, Dynorphin is a specific endogenous ligand of the kappa opioid receptor. Science, 1982. 215(4531): p. 413-5.
3. Xu, M., et al., Sciatic nerve ligation-induced proliferation of spinal cord astrocytes is mediated by kappa opioid activation of p38 mitogen-activated protein kinase. J Neurosci, 2007. 27(10): p. 2570-81.
4. Al-Hasani, R. and M.R. Bruchas, Molecular mechanisms of opioid receptor-dependent signaling and behavior. Anesthesiology, 2011. 115(6): p. 1363-81.
5. Muschamp, J.W., A. Van't Veer, and W.A. Carlezon, Jr., Tracking down the molecular substrates of stress: new roles for p38alpha MAPK and kappa-opioid receptors. Neuron, 2011. 71(3): p. 383-5.
6. Tejeda, H.A., T.S. Shippenberg, and R. Henriksson, The dynorphin/kappa-opioid receptor system and its role in psychiatric disorders. Cell Mol Life Sci, 2012. 69(6): p. 857-96.
7. Yoo, J.H., I. Kitchen, and A. Bailey, The endogenous opioid system in cocaine addiction: what lessons have opioid peptide and receptor knockout mice taught us? Br J Pharmacol, 2012. 166(7): p. 1993-2014.
8. Schwarzer, C., 30 years of dynorphins--new insights on their functions in neuropsychiatric diseases. Pharmacol Ther, 2009. 123(3): p. 353-70.
9. Bortolato, M. and M.V. Solbrig, The price of seizure control: dynorphins in interictal and postictal psychosis. Psychiatry Res, 2007. 151(1-2): p. 139-43.
10. Sheffler, D.J. and B.L. Roth, Salvinorin A: the "magic mint" hallucinogen finds a molecular target in the kappa opioid receptor. Trends Pharmacol Sci, 2003. 24(3): p. 107-9.
OPRK1, kappa, opioid, receptor, mouse, pharmacokinetics, PK assay, compound concentration, plasma level, brain level, in vivo, LCMS, LC-MS/MS, antagonist, inhibitor, inhibit, pain, analgesic, neuropathic pain, drug addiction, addiction, Scripps, Scripps DMPK Laboratory, The Scripps Research Institute Molecular Screening Center, SRIMSC, Molecular Libraries Probe Production Centers Network, MLPCN.
The purpose of this assay is to assess the level of a lead OPRK antagonist test compound in mouse plasma and brain at 30 minutes and 120 minutes after dosing.
Compounds are dosed IP at 10 mg/kg in a 1 mg/ml solution containing 1 part DMSO, 1 part tween 80, and 8 parts water into C57Bl6 mice (n = 6). Blood and brain were taken at 30 minutes and 120 minutes. Blood was collected into EDTA-containing tubes and plasma was generated using standard centrifugation techniques. Brain was homogenized and proteins are precipitated with acetonitrile and compound concentrations were determined by LC-MS/MS. Data are fit by WinNonLin using a noncompartmental model and compound concentration in plasma and brain is calculated.
PubChem Activity Outcome and Score:
The following applies to each panel in this assay:
Compounds that exhibit a brain to plasma ratio of greater than 1 are considered active. Compounds that exhibit a brain to plasma ratio of less than or equal to 1 are considered inactive.
Overall Outcome and Score:
Compounds that are active in both panels are active, otherwise inactive.
The PubChem Activity Score is assigned a value of 100 for active compounds, and 0 for inactive compounds.
The PubChem Activity Score range for active compounds is 100-100. There are no inactive compounds.
List of Reagents:
Reagents were provided by the DMPK Laboratory at The Scripps Research Institute in Florida.
This assay was performed by the DMPK Laboratory at The Scripps Research Institute in Florida with powder samples of synthesized compound.