Massive parallel variant characterization identifies<i>NUDT15</i>alleles associated with thiopurine toxicity

Suiter, Chase C.; Moriyama, Takaya; Matreyek, Kenneth A.; Yang, Wentao; Scaletti, Emma Rose; Nishii, Rina; Yang, Wenjian; Hoshitsuki, Keito; Singh, Minu; Trehan, Amita; Parish, C R; Smith, Colton; Bhojwani, Deepa; Yuen, Liz Y P; Li, Chi Kong; Li, Chak-Ho; Yang, Yung‐Li; Walker, Gareth; Goodhand, James; Kennedy, Nicholas A.; Klüssmann, Federico Antillón; Bhatia, Smita; Relling, Mary V.; Kato, Motohiro; Hori, Hiroki; Bhatia, Prateek; Ahmad, Tariq; Yoeh, Allen E. J.; Stenmark, Pål; Fowler, Douglas M.; Yang, Jun

doi:10.1101/740837

Cited by 4 publications

(6 citation statements)

References 47 publications

(44 reference statements)

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“…In recent years NUDT15 has also been shown to be a major player in thiopurine metabolism. Inactivating mutations in NUDT15 are strongly associated with thiopurine toxicity (19), and thiopurine dosage adjustment is recommended based on NUDT15 genotyping (20,21). In addition to the role of NUDT15 in thiopurine hypersensitivity, other studies have suggested that thiopurine-based therapies in patients with WT NUDT15, can be improved by NUDT15 inhibition.…”

Section: Discussionmentioning

confidence: 99%

“…These variants in TPMT therefore lead to excessive accumulation of thioguanine in the genome, which ultimately causes the severe hematopoietic toxicity observed in patients undergoing thiopurine-based chemotherapy (15)(16)(17)(18)(19). For this reason, it is recommended to adjust the thiopurine dosage according to the results of preemptive TPMT genotyping (20,21).…”

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confidence: 99%

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Crystal structures of NUDT15 variants enabled by a potent inhibitor reveal the structural basis for thiopurine sensitivity

Rehling

Zhang

Jemth

et al. 2021

Journal of Biological Chemistry

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

Crystal structures of NUDT15 variants enabled by a potent inhibitor reveal the structural basis for thiopurine sensitivity

Rehling

Zhang

Jemth

et al. 2021

Journal of Biological Chemistry

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“…Despite the significance of this work, there are several important caveats: (1) We only used PC9 cells for cytotoxicity screening. The genetic background of this cell line might have had an unwanted influence on the functional interpretation of variants [12,19]. Use of multiple NSCLC cell lines for parallel functional screening can significantly reduce such interference; (2) The expression of the exogenous EGFR variants was higher than that of endogenous EGFR in PC9 cells, which may lead to an overestimation of the TKI resistance of specific variants; (3) The endogenous EGFR of PC9 cells was deleted by CRISPR/Cas9.…”

Section: Discussionmentioning

confidence: 99%

“…Usually, a mutant library is first constructed employing synthetic biology or genome editing methods [11,12], and functional impacts of variants are determined through parallel functional assays. To date, variants of a few clinically actionable genes, such as BRCA1, PPARG, TP53, PTEN, TPMT, NUDT15, SCN5A, CYP2C9, CYP2C19, CXCR4, CCR5, ADRB2, and MSH2 [12][13][14][15][16][17][18][19][20][21][22][23][24], have been extensively studied using the DMS method, highlighting its potential for assessing the TKI sensitivity of rare and potential EGFR mutations. In this study, based on the DMS method, we developed massively parallel cytotoxicity assays and systematically determined the sensitivity landscape of the variants to five EGFR-TKIs (Fig.…”

Section: Introductionmentioning

confidence: 99%

Defining the Sensitivity Landscape of 74,389 EGFR Variants to Tyrosine Kinase Inhibitors

Chen²,

et al. 2021

Preprint

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Background: Tyrosine kinase inhibitors (TKIs) therapy is a standard treatment for patients with advanced non-small-cell lung carcinoma (NSCLC) when activating epidermal growth factor receptor (EGFR) mutations are detected. However, except for the well-studied EGFR mutations, most EGFR mutations lack treatment regimens. Methods: We constructed two EGFR variant libraries containing substitutions, deletions, or insertions using the saturation mutagenesis method. All the variants were located in the EGFR mutation hotspot (exons 18-21). The sensitivity of these variants to afatinib, erlotinib, gefitinib, icotinib, and osimertinib was systematically studied by determining their enrichment in massively parallel cytotoxicity assays using an endogenous EGFR-depleted cell line, PC9. Results: A total of 3,914 and 70,475 variants were detected in the constructed EGFR Substitution-Deletion (Sub-Del) and exon 20 Insertion (Ins) libraries, accounting for 99.3% and 55.8% of the designed variants, respectively. Of the 3,914 Sub-Del variants, 813 were highly enriched in the reversible TKI (erlotinib, gefitinib, icotinib) cytotoxicity assays and 51 were enriched in the irreversible TKI (afatinib, osimertinib) cytotoxicity assays. For the 70,475 Ins variants, insertions at amino acid positions 770-774 were highly enriched in all the five TKI cytotoxicity assays. Moreover, the top 5% of the enriched insertion variants included a glycine or serine insertion at high frequency. Conclusions: We present a comprehensive reference for the sensitivity of EGFR variants to five commonly used TKIs. The approach used here should be applicable to other genes and targeted drugs.

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“…In this approach, a mutagenesis library of missense variants is constructed that represent all possible amino acid substitutions within a protein and their in vitro functionality is determined. This high-throughput functional screening approach has been successfully applied to NUDT15 and could be conceivably applied to CYP2D6 [111]. Analysis of large datasets is another approach to assign functional effects to these undetermined haplotypes, and is being increasingly carried out to interrogate CYP2D6 [112,113].…”

Section: Novel Approaches To Cyp2d6 Phenotypingmentioning

confidence: 99%

A Review of the Important Role of CYP2D6 in Pharmacogenomics

Taylor

Crosby²,

Yip

et al. 2020

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101

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Cytochrome P450 2D6 (CYP2D6) is a critical pharmacogene involved in the metabolism of ~20% of commonly used drugs across a broad spectrum of medical disciplines including psychiatry, pain management, oncology and cardiology. Nevertheless, CYP2D6 is highly polymorphic with single-nucleotide polymorphisms, small insertions/deletions and larger structural variants including multiplications, deletions, tandem arrangements, and hybridisations with non-functional CYP2D7 pseudogenes. The frequency of these variants differs across populations, and they significantly influence the drug-metabolising enzymatic function of CYP2D6. Importantly, altered CYP2D6 function has been associated with both adverse drug reactions and reduced drug efficacy, and there is growing recognition of the clinical and economic burdens associated with suboptimal drug utilisation. To date, pharmacogenomic clinical guidelines for at least 48 CYP2D6-substrate drugs have been developed by prominent pharmacogenomics societies, which contain therapeutic recommendations based on CYP2D6-predicted categories of metaboliser phenotype. Novel algorithms to interpret CYP2D6 function from sequencing data that consider structural variants, and machine learning approaches to characterise the functional impact of novel variants, are being developed. However, CYP2D6 genotyping is yet to be implemented broadly into clinical practice, and so further effort and initiatives are required to overcome the implementation challenges and deliver the potential benefits to the bedside.

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Massive parallel variant characterization identifiesNUDT15alleles associated with thiopurine toxicity

Cited by 4 publications

References 47 publications

Crystal structures of NUDT15 variants enabled by a potent inhibitor reveal the structural basis for thiopurine sensitivity

Crystal structures of NUDT15 variants enabled by a potent inhibitor reveal the structural basis for thiopurine sensitivity

Defining the Sensitivity Landscape of 74,389 EGFR Variants to Tyrosine Kinase Inhibitors

A Review of the Important Role of CYP2D6 in Pharmacogenomics

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