The CYP2D6 allele functionality file has been re-evaluated and updated by experts involved in CYP2D6-related CPIC guidelines. CYP2D6 functions are now assigned up to star allele 163.
Monday, March 20, 2023
CYP2D6 allele function update
Monday, March 13, 2023
ClinGen Pharmacogenomics Working Group (PGxWG) Follow-Up Survey
The ClinGen Pharmacogenomics Working Group (PGxWG) has just launched a second survey to solicit feedback about the criteria and terminology that should be used to define clinical validity and actionability for pharmacogenes and variants from both the PGx community and the wider genetics and medical communities. Please note that this second survey is not independent of the first, and if you’ve taken the previous survey and have significant PGx familiarity or expertise, there is no need to take this iteration, as it would be redundant due to the overlap in questions.
The ClinGen PGxWG is a multi-disciplinary team of researchers and professionals with expertise in pharmacogenomics (PGx), clinical pharmacology, medical genetics, regulatory affairs, and molecular diagnostics. It was launched in February 2022 with the goal of developing a framework of tiered standard terminology and definitions that reflect clinical significance for genes and genomic variants implicated in drug response, in order to facilitate the incorporation of PGx knowledge into ClinGen and more consistent interpretation of PGx variants identified by panel testing and/or sequencing.
The survey is open now and can be accessed at: https://stanforduniversity.qualtrics.com/jfe/form/SV_1IdrrPWBXsV2Xt4. All responses are greatly appreciated, no matter who you are or where you are in the world. Unlike the previous survey, this survey does not assume PGx familiarity, though if you have not taken the previous survey and have PGx familiarity, your feedback is still greatly appreciated. The survey takes approximately 15 minutes to complete. We sincerely appreciate your time and attention, and your willingness to help.
Monday, February 6, 2023
ClinGen Pharmacogenomics Working Group (PGxWG) Survey
Thursday, January 26, 2023
PharmVar updates for CYP3A4 star allele definitions
PharmVar announces several updates for CYP3A4 star allele definitions.
Retirement of the CYP3A4*1G allele: this allele was defined by a common variant in intron 10 (c.1026+12G>A) which was also found on many other haplotypes (or star alleles). PharmVar transiently designated the CYP3A4*1G allele as *36 due to a possible role of c.1025+12G>A being involved in the regulation of CYP3A4 expression. However, owing to the growing body of inconsistent findings regarding associations of c.1026+12G>A and higher or lower expression levels and/or CYP3A4 activity, PharmVar withdrew this redesignation in January 2023 (v5.2.17) which led to the retirement of the CYP3A4*36 (former *1G) allele. Per PharmVar rules, intronic variants are only utilized for star allele definitions if there is convincing evidence that the variant impacts protein function. Therefore, c.1026+12G>A was also removed from all other star allele definitions.
CYP3A4 gene regulation is complex and appears to be governed by a layer of processes, among them long noncoding RNAs, microRNAs and transcription factors which may also influence CYP3A5 activity. Furthermore, there is substrate overlap between CYP3A4 and CYP3A5 and thus, variation in the CYP3A5 gene, further complicates the characterization of CYP3A4 allele function. Investigators are encouraged to include c.1026+12G>A in their carefully designed investigations to produce conclusive evidence regarding the functional impact of c.1026+12G>A.
We would also like to highlight the addition of a novel star allele, CYP3A4*38 which is characterized by two variants which on their own define CYP3A4*3 and *11. Noteworthy, the CYP3A4*3-defining variant c.1334T>C (p.M445T) has also been found together with the intronic SNP defining CYP3A4*22; this allele was designated CYP3A4*37. Consequently, samples heterozygous for these SNPs could have CYP3A4*1/*37 or *3/*22 or *1/*38 or *3/*11 genotypes, respectively. Since the functional impact of c.1334T>C (p.M445T) remains elusive it is unknown whether alternate genotypes differ in function.
Lastly, the evidence level of several alleles has been updated from ‘Limited’ or ‘Moderate’ to ‘Definitive’ indicating that these alleles are now fully characterized.
These efforts were only possible by the dedicated work of the PharmVar Team and the CYP3A4 gene experts for volunteering their time and expertise.
Tuesday, January 24, 2023
CYP4F2 is now fully curated by PharmVar
CYP4F2 contributes to the synthesis of cholesterol, steroids and other lipids. It has been shown to regulate the bioavailability of vitamin E and vitamin K, a co-factor that is critical to blood clotting. Variations in this important pharmacogene can affect vitamin K levels and thus, the dosing of vitamin K antagonists such as the widely used anticoagulant drug warfarin (CPIC level A and PharmGKB 1A evidence level) among others.
We are excited to announce that CYP4F2 is now fully curated by PharmVar and its gene page content reviewed by an international expert panel. Furthermore, the PharmVar Team has generated new data to provide a more comprehensive catalog of genetic variation of this gene. Not only have the two previously defined CYP4F2*2 and *3 now been fully characterized, several other novel haplotypes (or star alleles) have been identified and designated by PharmVar. Notably, the new and relatively commonly observed CYP4F2*4 allele has both sequence variants that otherwise define *2 (c.34T>G, W12G) and *3(c.1297G>A, V433M), respectively while the other three novel star alleles (CYP4F2*5, *6 and *7) are each characterized by a single amino acid change. Interestingly, CYP4F2*5 and *6 appear to be absent or rare in Asian populations; in contrast, *7 seems to be mostly present in African populations and their descendants. These new star alleles may contribute to unexplained variability in daily warfarin dosage requirements in non-White populations. We encourage the research and clinical communities to include this new knowledge in their investigations.
Thursday, December 15, 2022
PharmGKB selected in the first list of Global Core Biodata Resources
We would like to take this opportunity to thank all the present and past members of PharmGKB, our funding agencies, scientific advisors and collaborators, and especially our users, for their continued support and contribution to build this vital resource. PharmGKB serves both basic science investigators as well as clinicians and laboratories. Sustainable long-term support is critically important for us to provide stable, comprehensive, and dependable pharmacogenomic information to our users across the globe.