Pharmacogenetic Tests 2
How do genes vary and how does pharmacogenetic testing work?
genes are the basic units of genetic material, the segments of DNA that usually code for the production of specific proteins, including the proteins known as enzymes. Each person has two copies of most genes: one copy is inherited from the person's mother and one copy is inherited from the person's father. Each gene is made up of a specific genetic code, which is a sequence of nucleotides (A, T, G, or C). For each nucleotide position in the gene, one of the four nucleotides is the predominant nucleotide in the general population. This nucleotide is usually referred to as "wild type." If an individual has a nucleotide that is different from "wild type" in one copy of his or her genes, that person is said to have a heterozygous variant. If an individual has the same variant nucleotide in both copies of his or her genes, that person is said to have a homozygous variant.
Nucleotide or genetic variants (also called polymorphisms or mutations) occur throughout the population. Some genetic variants are benign – do not produce any known negative effect or may be associated with features like height, hair color, and eye color. Other genetic variants may be known to cause specific diseases. Other variants may be associated with variable response to specific medications.
Pharmacogenetic tests look for genetic variants that are associated with variable response to specific medications. These variants occur in genes that code for drug-metabolizing enzymes, drug targets, or proteins involved in immune response. Pharmacogenetic tests have the ability to determine if a variant is heterozygous or homozygous, which can impact an individual's response or reaction to a drug.
When are the tests ordered?
A healthcare practitioner may test a patient's genes for certain variations that are known to be involved in variable response to a medication at any time during treatment (for example, prior to treatment, during initial phase of treatment, or later in the treatment). The results of the testing may be combined with the individual's clinical information, including age, weight, health and other drugs that they are taking, to help tailor therapy. Sometimes, the healthcare practitioner may use this information to adjust the medication dose or sometimes to choose a different drug. Pharmacogenetic testing is intended to give the healthcare practitioner additional information but may not replace the need for therapeutic drug monitoring.
Pharmacogenetic testing for a specific gene is only performed once since a person's genetic makeup does not change over time. Depending on the medication, a single gene may be ordered or multiple genes may be ordered. An example of a medication for which multiple genes are usually evaluated is warfarin, which can be affected by genetic variation in CYP2C9 and VKORC1.
Testing may be ordered prior to starting specific drug therapies or if a person who has started taking a drug is experiencing side effects or having trouble establishing and/or maintaining a stable dose. Sometimes a person may not experience such issues until other medications that affect the metabolism or action of the drug in question are added or discontinued.
© 2017 American Association for Clinical Chemistry, republished from Lab Tests Online.*
Descriptions of clinical laboratory tests were originally prepared for use on Lab Tests Online, an award-winning patient education website on clinical laboratory testing. Lab Tests Online is produced by the American Association for Clinical Chemistry (AACC), a global scientific and medical professional organization dedicated to clinical laboratory science and its application to healthcare. The Lab Tests Online website is developed in collaboration with other laboratory professional societies and is funded in part through corporate sponsorships.