Receptor Pharmacogenomics: Deciphering Genetic Influence on Drug Response.
Sorina Andreea AnghelCristina-Elena Dinu-PirvuMihaela-Andreea CostacheAna Maria VoiculescuMihaela Violeta GhicaValentina AnuțaLăcrămioara PopaPublished in: International journal of molecular sciences (2024)
The paradigm "one drug fits all" or "one dose fits all" will soon be challenged by pharmacogenetics research and application. Drug response-efficacy or safety-depends on interindividual variability. The current clinical practice does not include genetic screening as a routine procedure and does not account for genetic variation. Patients with the same illness receive the same treatment, yielding different responses. Integrating pharmacogenomics in therapy would provide critical information about how a patient will respond to a certain drug. Worldwide, great efforts are being made to achieve a personalized therapy-based approach. Nevertheless, a global harmonized guideline is still needed. Plasma membrane proteins, like receptor tyrosine kinase (RTK) and G protein-coupled receptors (GPCRs), are ubiquitously expressed, being involved in a diverse array of physiopathological processes. Over 30% of drugs approved by the FDA target GPCRs, reflecting the importance of assessing the genetic variability among individuals who are treated with these drugs. Pharmacogenomics of transmembrane protein receptors is a dynamic field with profound implications for precision medicine. Understanding genetic variations in these receptors provides a framework for optimizing drug therapies, minimizing adverse reactions, and advancing the paradigm of personalized healthcare.
Keyphrases
- adverse drug
- tyrosine kinase
- clinical practice
- healthcare
- genome wide
- drug induced
- copy number
- emergency department
- epidermal growth factor receptor
- stem cells
- small molecule
- gene expression
- clinical decision support
- case report
- autism spectrum disorder
- minimally invasive
- cell therapy
- smoking cessation
- health insurance