PathWhiz ID | Pathway | Meta Data |
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PW146945View Pathway |
drug action
Acetylene Drug Metabolism Action PathwayHomo sapiens
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Creator: Ray Kruger Created On: October 07, 2023 at 19:24 Last Updated: October 07, 2023 at 19:24 |
PW132169View Pathway |
Acetylene Drug MetabolismHomo sapiens
Acetylene is a drug that is not metabolized by the human body as determined by current research and biotransformer analysis. Acetylene passes through the liver and is then excreted from the body mainly through the kidney.
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Creator: Ray Kruger Created On: September 21, 2023 at 19:48 Last Updated: September 21, 2023 at 19:48 |
PW175960View Pathway |
Acetyldigitoxin Predicted Metabolism Pathway newHomo sapiens
Metabolites of Acetyldigitoxin are predicted with biotransformer.
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Creator: Omolola Created On: November 29, 2023 at 12:49 Last Updated: November 29, 2023 at 12:49 |
PW144630View Pathway |
drug action
Acetyldigitoxin Drug Metabolism Action PathwayHomo sapiens
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Creator: Ray Kruger Created On: October 07, 2023 at 14:04 Last Updated: October 07, 2023 at 14:04 |
PW145663View Pathway |
drug action
Acetylcysteine Drug Metabolism Action PathwayHomo sapiens
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Creator: Ray Kruger Created On: October 07, 2023 at 16:20 Last Updated: October 07, 2023 at 16:20 |
PW126712View Pathway |
drug action
Acetylcysteine Action Pathway (New)Homo sapiens
Acetylcysteine is a medication that can be used as a mucolytic in patients with certain lung conditions and as an antidote for acetaminophen overdose.
A number of possible mechanisms for the mucolytic activity of acetylcysteine have been proposed. Acetylcysteine's sulfhydryl groups may hydrolize disulfide bonds within mucin, breaking down the oligomers, and making the mucin less viscous
Acetaminophen (APAP) is metabolized in 3 main ways: glucuronidation, sulfation and oxidation. Glucuronidation and sulfation of acetaminophen produces non-toxic acetaminophen conjugates (APAP-glucuronide and APAP-sulfate).
In the case of acetaminophen overdoses, a portion of the drug is metabolized by CYP2E1 to form the potentially toxic metabolite N-acetyl-p-benzoquinone imine (NAPQI). The amount of NAPQI produced in an overdose saturates and depletes glutathione stores.
Acetylcysteine can directly conjugate NAPQI or provide cysteine for glutathione production and NAPQI conjugation. Acetylcysteine can also provide sulfur for the sulfate conjugation of acetaminophen. Therefore, acetylcysteine aims to prevent formation of toxic NAPQI and detoxify NAPQI that has already been formed.
NAPQI can cause mitochondrial dysfunction and leading to necrotic cell death. Acetylcysteine may prevent cellular toxicity by increasing oxygen delivery to tissues, increasing mitochondrial ATP production, and altering the microvascular tone to increase the blood flow and oxygen delivery to the liver and other vital organs.
Oral NAC may cause nausea, vomiting, diarrhea, flatus, and gastroesophageal reflux. IV NAC can cause rate related anaphylactoid reactions in up to 18% of patients, which is not an issue with the oral route. Most of the anaphylactoid reactions are mild (6%) or moderate (10%) with severe reactions like bronchospasm and hypotension rare at 1%.
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Creator: Karxena Harford Created On: March 08, 2022 at 01:17 Last Updated: March 08, 2022 at 01:17 |
PW123915View Pathway |
signaling
acetylcholine signalingRattus norvegicus
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Creator: Naveen Singh Created On: June 04, 2020 at 01:23 Last Updated: June 04, 2020 at 01:23 |
PW145524View Pathway |
drug action
Acetylcholine Drug Metabolism Action PathwayHomo sapiens
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Creator: Ray Kruger Created On: October 07, 2023 at 16:00 Last Updated: October 07, 2023 at 16:00 |
PW145852View Pathway |
drug action
Acetylcarnitine Drug Metabolism Action PathwayHomo sapiens
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Creator: Ray Kruger Created On: October 07, 2023 at 16:49 Last Updated: October 07, 2023 at 16:49 |
PW120684View Pathway |
protein
Acetylation and Deacetylation of RelA in The NucleusHomo sapiens
NF-kB transcription factor plays a role in the inflammatory and immune response of mammals. Acetylation of RelA regulates NF-kB activity. Tumor necrosis factor activates tumor necrosis factor receptor, recruiting proteins FADD, TRADD, RIP and TRAF6 to activate the NF-kB pathway. Activation of IKK complex causes the phosphorylation of I-kappa-B-alpha and triggers its degradation. I-kappa-B-alpha normally sequesters KF-kB in the cytoplasm, following its degradation, RELA and p50 (subunits of NF-kB) are liberated can translocate to the nucleus to activate gene expression. RelA and p50 associate with p300 and CREB transcriptional co-activators causing the acetylation of RelA and increase in transcriptional activity. Acetylated RelaA is targeted for deacetylation by transcriptional co-repressor Histone deacetylation 3 (HDAC3). This promotes its binding to I-kappa-B-alpha causing NF-kB's transport out of the nucleus and reduces its activity.
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Creator: Debra Lipton Created On: September 10, 2018 at 14:46 Last Updated: September 10, 2018 at 14:46 |