Ratios of Acetaminophen Metabolites Identify New Loci of Pharmacogenetic Relevance in a Genome-Wide Association Study

Thareja, Gaurav; Evans, Anne M.; Wood, Spencer A.; Stephan, Nisha; Zaghlool, Shaza B.; Halama, Anna; Kastenmüller, Gabi; Belkadi, Aziz; Consortium, The Qatar Genome Program Research; Suhre, Karsten

doi:10.3390/metabo12060496

Cited by 4 publications

(3 citation statements)

References 40 publications

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“…Thus, for the three enzymes that should be inhibited in the periphery to boost l -DOPA therapy efficacy, we predict that paracetamol, NAPQI, or both will inhibit two of them (COMT and tyrosinase) while leaving the third (DDC) uninhibited and 3-hydroxyparacetamol will inhibit COMT (in agreement with experimental studies).…”

Section: Resultssupporting

confidence: 93%

“…Paracetamol, 3-hydroxyparacetamol, l -DOPA, and DOPAC also form strong attractive interactions with asparagine. The strong attraction of 3-hydroxy-paracetamol for the COMT active site is in agreement with the experimental observations of Thareja et al 36 In their work they found that 3-methoxyparacetamol is produced in the location of the COMT enzyme; this molecule is made from 3-hydroxyparacetamol, suggesting that it is a substrate for COMT. For tyrosinase, both paracetamol and NAPQI have EBEs within 14% of that of the natural substrate l -DOPA, so they should both be competitive inhibitors for that active site.…”

Section: Resultssupporting

confidence: 90%

“…Thus, to improve the efficacy of l -DOPA therapy, DDC, COMT, and tyrosinase may be inhibited in the periphery. The work of Thareja et al 36 suggests that the paracetamol metabolite 3-hydroxy-paracetamol (see Figure 1 ) may also function as a substrate of COMT, so we have examined that molecule here as well. All inhibition in this section is examined through the proxy value of the EBE, which is different from binding free energy but whose relative values are assumed to follow the same patterns as in vivo binding energies.…”

Section: Resultsmentioning

confidence: 99%

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Investigating Paracetamol’s Role as a Potential Treatment for Parkinson’s Disease: Ab Initio Analysis of Dopamine, l-DOPA, Paracetamol, and NAPQI Interactions with Enzymes Involved in Dopamine Metabolism

Harle,

Slater,

Cafiero

2023

ACS Omega

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Recently, it was found that paracetamol can extend the therapeutic window of l-DOPA treatment for Parkinson’s disease [Golding (2019) BJPharm, 4(2), Article 619]. It has been posited that the effect could be due to paracetamol and its metabolite, NAPQI, inhibiting pain signals in the spinal column. In this work, we examine the possibility that the therapeutic effect of the paracetamol for the Parkinson’s disease patient may be due to an inhibition of the enzymes that metabolize dopamine and/or l-DOPA, thus effectively extending the lifetime of the l-DOPA treatment. In this work, we use the M062X/6-311+G* level of theory to calculate the electronic binding energies (including explicit desolvation) of several ligands (paracetamol, NAPQI, dopamine, and l-DOPA) with a series of enzymes important to the production and metabolism of dopamine and compare them to calculated binding energy values for the natural substrates for those enzymes in order to predict possible inhibition. Benchmark interaction energies for a subset of the systems studied are calculated using the more accurate second-order Møller–Plesset perturbation (MP2) method in order to calibrate the accuracy of the M062X method. If we assume that the interaction energies calculated here can serve as a proxy for in vivo inhibition, then we can predict that paracetamol and NAPQI should not inhibit the natural production of dopamine and may in fact inhibit the metabolism of l-DOPA and dopamine, thus extending the length of l-DOPA treatments.

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Section: Resultssupporting

confidence: 93%

Section: Resultssupporting

confidence: 90%

Section: Resultsmentioning

confidence: 99%

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Investigating Paracetamol’s Role as a Potential Treatment for Parkinson’s Disease: Ab Initio Analysis of Dopamine, l-DOPA, Paracetamol, and NAPQI Interactions with Enzymes Involved in Dopamine Metabolism

Harle,

Slater,

Cafiero

2023

ACS Omega

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Challenges and opportunities associated with rare-variant pharmacogenomics

Zhou¹,

Tremmel²,

Schaeffeler³

et al. 2022

Trends in Pharmacological Sciences

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Metabolic heterogeneity caused by HLA-DRB1*04:05 and protective effect of inosine on autoimmune hepatitis

et al. 2022

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Autoimmune hepatitis (AIH) is an autoimmune disease caused by disruption of liver immune homeostasis. Genetic studies have revealed the predisposition of AIH with the human leukocyte antigen (HLA) region. Recently, metabolomics integrated with genomics has identified many genetic loci of biomedical interest. However, there is no related report in AIH. In the present study, we found that HLA-DRB1*04:05 was linked to the clinical features and prognosis of AIH in Chinese patients. Furthermore, our patients were divided into DRB1*04:05 positive and DRB1*04:05 negative groups and the metabolic profiling was done by HPLC/MS. We chose inosine, one of the highly altered metabolites, to explore the effect on an acute severe hepatitis murine model. The results showed that inosine treatment attenuated hepatocyte apoptosis, enhanced antioxidant ability and inhibited the activation and glycolysis of CD4+ T cell. We propose that inosine participates in the regulation of AIH through its protective effect on hepatocytes and inhibition of overactivated immune cells, which might provide a potential novel approach in treating acute form of AIH.

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Ratios of Acetaminophen Metabolites Identify New Loci of Pharmacogenetic Relevance in a Genome-Wide Association Study

Cited by 4 publications

References 40 publications

Investigating Paracetamol’s Role as a Potential Treatment for Parkinson’s Disease: Ab Initio Analysis of Dopamine, l-DOPA, Paracetamol, and NAPQI Interactions with Enzymes Involved in Dopamine Metabolism

Investigating Paracetamol’s Role as a Potential Treatment for Parkinson’s Disease: Ab Initio Analysis of Dopamine, l-DOPA, Paracetamol, and NAPQI Interactions with Enzymes Involved in Dopamine Metabolism

Challenges and opportunities associated with rare-variant pharmacogenomics

Metabolic heterogeneity caused by HLA-DRB1*04:05 and protective effect of inosine on autoimmune hepatitis

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