General Information of Drug Combination (ID: DCO1IZT)

Drug Combination Name
Sevoflurane Remifentanil
Indication
Disease Entry Status REF
Intra-abdominal and Intrapelvic Surgery Phase 4 [1]
Component Drugs Sevoflurane   DMC9O43 Remifentanil   DMZTXCH
Small molecular drug Small molecular drug
2D MOL 2D MOL
3D MOL 3D MOL

Molecular Interaction Atlas of This Drug Combination

Molecular Interaction Atlas (MIA)
Indication(s) of Sevoflurane
Disease Entry ICD 11 Status REF
Anaesthesia 9A78.6 Approved [2]
Coronavirus Disease 2019 (COVID-19) 1D6Y Phase 3 [3]
Sevoflurane Interacts with 1 DTT Molecule(s)
DTT Name DTT ID UniProt ID Mode of Action REF
Glutamate receptor AMPA (GRIA) TTAN6JD NOUNIPROTAC Antagonist [5]
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Sevoflurane Interacts with 4 DME Molecule(s)
DME Name DME ID UniProt ID Mode of Action REF
Cytochrome P450 3A4 (CYP3A4) DE4LYSA CP3A4_HUMAN Metabolism [6]
Cytochrome P450 2A6 (CYP2A6) DEJVYAZ CP2A6_HUMAN Metabolism [7]
Cytochrome P450 2E1 (CYP2E1) DEVDYN7 CP2E1_HUMAN Metabolism [8]
Cytochrome P450 2B6 (CYP2B6) DEPKLMQ CP2B6_HUMAN Metabolism [9]
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Sevoflurane Interacts with 60 DOT Molecule(s)
DOT Name DOT ID UniProt ID Mode of Action REF
Caspase-3 (CASP3) OTIJRBE7 CASP3_HUMAN Increases Expression [10]
Apoptosis regulator BAX (BAX) OTAW0V4V BAX_HUMAN Increases Expression [11]
Apoptosis regulator Bcl-2 (BCL2) OT9DVHC0 BCL2_HUMAN Decreases Expression [11]
Glycine receptor subunit alpha-1 (GLRA1) OT05Y9ZR GLRA1_HUMAN Increases ADR [12]
Glutamate dehydrogenase 1, mitochondrial (GLUD1) OTXKOCUH DHE3_HUMAN Increases Expression [13]
Myc proto-oncogene protein (MYC) OTPV5LUK MYC_HUMAN Increases Expression [14]
GTPase HRas (HRAS) OTWQN0DP RASH_HUMAN Increases Expression [14]
GTPase KRas (KRAS) OT78QCN8 RASK_HUMAN Decreases Expression [14]
Progonadoliberin-1 (GNRH1) OTH8A44K GON1_HUMAN Increases Expression [14]
Interleukin-1 beta (IL1B) OT0DWXXB IL1B_HUMAN Increases Expression [14]
Fibronectin (FN1) OTB5ZN4Q FINC_HUMAN Increases Expression [14]
Cellular tumor antigen p53 (TP53) OTIE1VH3 P53_HUMAN Increases Expression [10]
Insulin-like growth factor I (IGF1) OTIIZR61 IGF1_HUMAN Increases Expression [14]
Amyloid-beta precursor protein (APP) OTKFD7R4 A4_HUMAN Increases Expression [15]
Integrin beta-3 (ITGB3) OTWCK1K6 ITB3_HUMAN Decreases Expression [14]
Hepatocyte growth factor receptor (MET) OT7K55MU MET_HUMAN Increases Expression [14]
Solute carrier family 2, facilitated glucose transporter member 1 (SLC2A1) OTA675TJ GTR1_HUMAN Increases Expression [13]
Cadherin-1 (CDH1) OTFJMXPM CADH1_HUMAN Decreases Expression [14]
Proto-oncogene tyrosine-protein kinase Src (SRC) OTETYX40 SRC_HUMAN Increases Expression [14]
Hepatocyte growth factor (HGF) OTGHUA23 HGF_HUMAN Increases Expression [14]
Matrix metalloproteinase-9 (MMP9) OTB2QDAV MMP9_HUMAN Increases Expression [14]
Cyclic AMP-dependent transcription factor ATF-2 (ATF2) OTNIZPEA ATF2_HUMAN Increases Phosphorylation [16]
Sphingomyelin phosphodiesterase (SMPD1) OTZSMA54 ASM_HUMAN Decreases Activity [10]
Mitogen-activated protein kinase 3 (MAPK3) OTCYKGKO MK03_HUMAN Increases Phosphorylation [13]
Mitogen-activated protein kinase 1 (MAPK1) OTH85PI5 MK01_HUMAN Increases Phosphorylation [13]
Ephrin type-B receptor 2 (EPHB2) OT8VZ6C5 EPHB2_HUMAN Increases Expression [14]
Macrosialin (CD68) OTOYEY3J CD68_HUMAN Increases Expression [14]
Merlin (NF2) OT6E5ACG MERL_HUMAN Increases Expression [14]
Pigment epithelium-derived factor (SERPINF1) OTWZH98J PEDF_HUMAN Decreases Expression [13]
Serine/threonine-protein kinase mTOR (MTOR) OTHH8KU7 MTOR_HUMAN Decreases Phosphorylation [11]
Cell surface glycoprotein MUC18 (MCAM) OTT8XKGE MUC18_HUMAN Decreases Expression [14]
Collagenase 3 (MMP13) OTY8BZIE MMP13_HUMAN Increases Expression [14]
Proliferation marker protein Ki-67 (MKI67) OTA8N1QI KI67_HUMAN Increases Expression [13]
Dual specificity mitogen-activated protein kinase kinase 3 (MAP2K3) OTI2OREX MP2K3_HUMAN Increases Phosphorylation [16]
Stromal cell-derived factor 1 (CXCL12) OT2QX5LL SDF1_HUMAN Increases Expression [13]
Dual specificity mitogen-activated protein kinase kinase 6 (MAP2K6) OTK13JKC MP2K6_HUMAN Increases Phosphorylation [16]
Caspase-7 (CASP7) OTAPJ040 CASP7_HUMAN Increases Activity [17]
Beta-secretase 1 (BACE1) OTCA7B6A BACE1_HUMAN Increases Expression [15]
C-X-C chemokine receptor type 4 (CXCR4) OTUFSBX2 CXCR4_HUMAN Increases Expression [13]
Protein SET (SET) OTGYYQJO SET_HUMAN Increases Expression [14]
RNA-binding protein EWS (EWSR1) OT7SRHV3 EWS_HUMAN Increases Expression [14]
Urokinase plasminogen activator surface receptor (PLAUR) OTIRKKEQ UPAR_HUMAN Increases Expression [14]
Alpha-1,6-mannosylglycoprotein 6-beta-N-acetylglucosaminyltransferase A (MGAT5) OTU4DD4G MGT5A_HUMAN Increases Expression [14]
Metastasis-associated protein MTA1 (MTA1) OTBHW3S9 MTA1_HUMAN Increases Expression [14]
Sequestosome-1 (SQSTM1) OTGY5D5J SQSTM_HUMAN Decreases Expression [11]
Integrin alpha-7 (ITGA7) OTTBTAYW ITA7_HUMAN Decreases Expression [14]
Interleukin-18 (IL18) OTBB2A8O IL18_HUMAN Increases Expression [14]
Metastasis-suppressor KiSS-1 (KISS1) OT6IE3K2 KISS1_HUMAN Decreases Expression [14]
Mothers against decapentaplegic homolog 2 (SMAD2) OTC6VB4K SMAD2_HUMAN Increases Expression [14]
Hypoxia-inducible factor 1-alpha (HIF1A) OTADSC03 HIF1A_HUMAN Increases Expression [14]
KiSS-1 receptor (KISS1R) OTQA3J6G KISSR_HUMAN Decreases Expression [14]
FXYD domain-containing ion transport regulator 5 (FXYD5) OT81DIOD FXYD5_HUMAN Increases Expression [14]
Mitogen-activated protein kinase kinase kinase 5 (MAP3K5) OTQR6ENW M3K5_HUMAN Increases Phosphorylation [16]
Oxidoreductase HTATIP2 (HTATIP2) OT9MZ4QO HTAI2_HUMAN Increases Expression [14]
Microtubule-associated proteins 1A/1B light chain 3B (MAP1LC3B) OTUYHB84 MLP3B_HUMAN Increases Lipidation [11]
Autophagy protein 5 (ATG5) OT4T5SMS ATG5_HUMAN Increases Expression [11]
Pinin (PNN) OT0HXICH PININ_HUMAN Increases Expression [14]
Programmed cell death 1 ligand 1 (CD274) OTJ0VFDL PD1L1_HUMAN Decreases Expression [18]
Heparanase (HPSE) OTPTK5VS HPSE_HUMAN Increases Expression [14]
Mitochondrial pyruvate carrier 1 (MPC1) OT6DYFUO MPC1_HUMAN Increases Expression [13]
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⏷ Show the Full List of 60 DOT(s)
Indication(s) of Remifentanil
Disease Entry ICD 11 Status REF
Anaesthesia 9A78.6 Approved [4]
Remifentanil Interacts with 1 DTT Molecule(s)
DTT Name DTT ID UniProt ID Mode of Action REF
Opioid receptor mu (MOP) TTKWM86 OPRM_HUMAN Agonist [19]
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Test Results of This Drug Combination in Other Disease Systems

Indication DrugCom ID Cell Line Status REF
Haemodynamic Rebound DC88V2F N. A. Phase 4 [20]
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References

1 ClinicalTrials.gov (NCT01809041) Comparison of Intravenous Anesthetics to Volatile Anesthetics on Postoperative Cognitive Dysfunction
2 URL: http://www.guidetopharmacology.org Nucleic Acids Res. 2015 Oct 12. pii: gkv1037. The IUPHAR/BPS Guide to PHARMACOLOGY in 2016: towards curated quantitative interactions between 1300 protein targets and 6000 ligands. (Ligand id: 7296).
3 Sevoflurane in COVID-19 ARDS (SevCov)
4 URL: http://www.guidetopharmacology.org Nucleic Acids Res. 2015 Oct 12. pii: gkv1037. The IUPHAR/BPS Guide to PHARMACOLOGY in 2016: towards curated quantitative interactions between 1300 protein targets and 6000 ligands. (Ligand id: 7292).
5 Effects of sevoflurane on carrageenan- and fentanyl-induced pain hypersensitivity in Sprague-Dawley rats. Can J Anaesth. 2009 Feb;56(2):126-35.
6 Identification of cytochrome P450 2E1 as the predominant enzyme catalyzing human liver microsomal defluorination of sevoflurane, isoflurane, and methoxyflurane. Anesthesiology. 1993 Oct;79(4):795-807.
7 Human kidney methoxyflurane and sevoflurane metabolism. Intrarenal fluoride production as a possible mechanism of methoxyflurane nephrotoxicity. Anesthesiology. 1995 Mar;82(3):689-99.
8 Inhibition of cytochrome P450 2E1 by propofol in human and porcine liver microsomes. Biochem Pharmacol. 2002 Oct 1;64(7):1151-6.
9 Summary of information on human CYP enzymes: human P450 metabolism data. Drug Metab Rev. 2002 Feb-May;34(1-2):83-448.
10 Different apoptosis ratios and gene expressions in two human cell lines after sevoflurane anaesthesia. Acta Anaesthesiol Scand. 2009 Oct;53(9):1192-9. doi: 10.1111/j.1399-6576.2009.02036.x. Epub 2009 Jun 30.
11 4.8% sevoflurane induces activation of autophagy in human neuroblastoma SH-SY5Y cells by the AMPK/mTOR signaling pathway. Neurotoxicology. 2022 May;90:256-264. doi: 10.1016/j.neuro.2022.04.008. Epub 2022 Apr 23.
12 ADReCS-Target: target profiles for aiding drug safety research and application. Nucleic Acids Res. 2018 Jan 4;46(D1):D911-D917. doi: 10.1093/nar/gkx899.
13 Sevoflurane but not propofol enhances ovarian cancer cell biology through regulating cellular metabolic and signaling mechanisms. Cell Biol Toxicol. 2023 Aug;39(4):1395-1411. doi: 10.1007/s10565-022-09766-6. Epub 2022 Oct 8.
14 The differential cancer growth associated with anaesthetics in a cancer xenograft model of mice: mechanisms and implications of postoperative cancer recurrence. Cell Biol Toxicol. 2023 Aug;39(4):1561-1575. doi: 10.1007/s10565-022-09747-9. Epub 2022 Aug 12.
15 The common inhalational anesthetic sevoflurane induces apoptosis and increases beta-amyloid protein levels. Arch Neurol. 2009 May;66(5):620-31. doi: 10.1001/archneurol.2009.48.
16 Sevoflurane-mediated activation of p38-mitogen-activated stresskinase is independent of apoptosis in Jurkat T-cells. Anesth Analg. 2008 Apr;106(4):1150-60, table of contents. doi: 10.1213/ane.0b013e3181683d37.
17 Sevoflurane-induced oxidative stress and cellular injury in human peripheral polymorphonuclear neutrophils. Food Chem Toxicol. 2006 Aug;44(8):1399-407. doi: 10.1016/j.fct.2006.03.004. Epub 2006 Mar 29.
18 CircRNA VIM silence synergizes with sevoflurane to inhibit immune escape and multiple oncogenic activities of esophageal cancer by simultaneously regulating miR-124/PD-L1 axis. Cell Biol Toxicol. 2022 Oct;38(5):825-845. doi: 10.1007/s10565-021-09613-0. Epub 2021 May 20.
19 The pro-nociceptive effects of remifentanil or surgical injury in mice are associated with a decrease in delta-opioid receptor mRNA levels: Prevent... Pain. 2009 Jan;141(1-2):88-96.
20 ClinicalTrials.gov (NCT02271555) The Effects of Remifentanil on Attenuating the Hemodynamic Responses After Electroconvulsive Therapy