A Pharmacogenomics-Based In Silico Investigation of Opioid Prescribing in Post-operative Spine Pain Management and Personalized Therapy

Author:

Lewandrowski Kai-UweORCID,Sharafshah AlirezaORCID,Elfar JohnORCID,Schmidt Sergio LuisORCID,Blum KennethORCID,Wetzel Franklin Todd

Abstract

Abstract Considering the variability in individual responses to opioids and the growing concerns about opioid addiction, prescribing opioids for postoperative pain management after spine surgery presents significant challenges. Therefore, this study undertook a novel pharmacogenomics-based in silico investigation of FDA-approved opioid medications. The DrugBank database was employed to identify all FDA-approved opioids. Subsequently, the PharmGKB database was utilized to filter through all variant annotations associated with the relevant genes. In addition, the dpSNP (https://www.ncbi.nlm.nih.gov/snp/), a publicly accessible repository, was used. Additional analyses were conducted using STRING-MODEL (version 12), Cytoscape (version 3.10.1), miRTargetLink.2, and NetworkAnalyst (version 3). The study identified 125 target genes of FDA-approved opioids, encompassing 7019 variant annotations. Of these, 3088 annotations were significant and pertained to 78 genes. During variant annotation assessments (VAA), 672 variants remained after filtration. Further in-depth filtration based on variant functions yielded 302 final filtered variants across 56 genes. The Monoamine GPCRs pathway emerged as the most significant signaling pathway. Protein–protein interaction (PPI) analysis revealed a fully connected network comprising 55 genes. Gene–miRNA Interaction (GMI) analysis of these 55 candidate genes identified miR-16-5p as a pivotal miRNA in this network. Protein–Drug Interaction (PDI) assessment showed that multiple drugs, including Ibuprofen, Nicotine, Tramadol, Haloperidol, Ketamine, l-Glutamic Acid, Caffeine, Citalopram, and Naloxone, had more than one interaction. Furthermore, Protein–Chemical Interaction (PCI) analysis highlighted that ABCB1, BCL2, CYP1A2, KCNH2, PTGS2, and DRD2 were key targets of the proposed chemicals. Notably, 10 chemicals, including carbamylhydrazine, tetrahydropalmatine, Terazosin, beta-methylcholine, rubimaillin, and quinelorane, demonstrated dual interactions with the aforementioned target genes. This comprehensive review offers multiple strong, evidence-based in silico findings regarding opioid prescribing in spine pain management, introducing 55 potential genes. The insights from this report can be applied in exome analysis as a pharmacogenomics (PGx) panel for pain susceptibility, facilitating individualized opioid prescribing through genotyping of related variants. The article also points out that African Americans represent an important group that displays a high catabolism of opioids and suggest the need for a personalized therapeutic approach based on genetic information. Graphical Abstract

Publisher

Springer Science and Business Media LLC

Reference82 articles.

1. Aaron D (2023) The fall of FDA review. Yale J Health Policy Law Ethics 95

2. Bajaj A, Blum K, Bowirrat A, Gupta A, Baron D, Fugel D, Nicholson A, Fitch T, Downs BW, Bagchi D (2022) DNA directed pro-dopamine regulation coupling subluxation repair, H-Wave® and other neurobiologically based modalities to address complexities of chronic pain in a female diagnosed with reward deficiency syndrome (RDS): emergence of Induction of “Dopamine Homeostasis” in the face of the opioid crisis. J Pers Med 12(9):1416. https://doi.org/10.3390/jpm12091416

3. Blum K, Lott L, Siwicki D, Fried L, Hauser M, Simpatico T, Baron D, Howeedy A, Badgaiyan RD (2018) Genetic addiction risk score (GARS™) as a predictor of substance use disorder: identifying predisposition not diagnosis. Curr Trends Med Diagn Methods. https://doi.org/10.29011/CTMDM-101.100001

4. Blum K, Bowirrat A, Baron D, Lott L, Ponce J, Brewer R, Siwicki D, Boyett B, Gondre-Lewis M, Smith D (2020) Biotechnical development of genetic addiction risk score (GARS) and selective evidence for inclusion of polymorphic allelic risk in substance use disorder (SUD). J Syst Integr Neurosci. https://doi.org/10.15761/JSIN.1000221

5. Blum K, Bowirrat A, Lewis MCG, Simpatico TA, Ceccanti M, Steinberg B, Modestino EJ, Thanos PK, Baron D, McLaughlin T (2021) Exploration of epigenetic state hyperdopaminergia (Surfeit) and genetic trait hypodopaminergia (Deficit) during adolescent brain development. Curr Psychopharmacol. https://doi.org/10.2174/2211556010666210215155509

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