Tioguanine

Impact of genetic variation on response to therapy

TPMT and NUDT15 are enzymes involved in the catabolism of thiopurine drugs including tioguanine. Loss of function variant alleles in the TPMT and NUDT15 genes are associated with increased pharmacological effects of thiopurines and an increased risk of toxicity including thiopurine-related leukopenia, neutropenia and myelosuppression.

The SmPC for tioguanine provides dose recommendations related to TPMT and NUDT15 gene variants which are summarised as follows:

• Patients with inherited little or no TPMT activity (poor metabolisers) are at increased risk for severe toxicity from conventional doses of tioguanine and generally require substantial dose reduction.
• Most patients with decreased TPMT activity (intermediate metabolisers) can tolerate recommended tioguanine doses, but some may require dose reduction.
• Patients with inherited variants in the NUDT15 gene are at increased risk for severe tioguanine toxicity and generally require dose reduction.

The combination of intermediate metaboliser status in both TPMT and NUDT genes will require a substantial dose reduction to mitigate toxicity.

Testing recommendations

The SmPC for tioguanine states that genotypic testing of NUDT15 variants may be considered before initiating tioguanine therapy, and that genotypic and phenotypic tests of TPMT can be used to identify patients with absent or reduced TPMT activity. Genotypic test results will usually be reported as star alleles (e.g. *1/*3), phenotypic tests will normally be reported as an enzyme activity (e.g. TPMT level in mU/L). Some guidelines may give dosing recommendations based on phenotypic activity rather than genotype.

Therapeutic recommendations

TPMT metaboliser status unknown

• Follow disease-specific guidelines regarding testing of TPMT activity prior to commencing treatment.
• Consider TPMT enzyme activity test to assess TPMT phenotype if genotype testing is not available.
• Monitor efficacy and side effects closely and titrate dose according to disease-specific treatment guidelines.

TPMT Normal metaboliser

Examples of common TPMT genotypes (see note): *1/*1

• Normal risk of thiopurine-related leukopenia, neutropenia and myelosuppression.
• Initiate standard starting dose.
• Monitor efficacy and side effects and titrate dose according to disease-specific treatment guidelines.
• Allow 2 weeks to reach steady-state after each dose adjustment.

TPMT Intermediate metaboliser

Examples of common TPMT genotypes (see note): *1/*2, *1/*3A, *1/*3B, *1/*3C

• Increased risk of thiopurine-related leukopenia, neutropenia and myelosuppression compared to normal metabolisers.
• Follow disease-specific treatment guidelines where available.
• Reduce starting dose to 50-80% of normal starting dose.
• Dose reduction may not be required if the normal starting dose is lower than 40-60mg/m²/day. See Further Information for details on starting dose thresholds for dose reduction.
• An alternative strategy in malignant conditions only is to start with the normal starting dose and reduce the dose if side effects occur. See Further Information for details of alternative strategy in TMPT/NUDT15 intermediate metaboliser for malignant conditions. 
• Monitor efficacy and side effects and titrate dose according to disease-specific treatment guidelines.
• Allow 2-4 weeks to reach steady-state after each dose adjustment.

TPMT Poor metaboliser

Examples of common TPMT genotypes (see note): *2/*2, *2/*3A, *2/*3B, *2/*3C, *3A/*3A, *3A/*3B *3A/*3C, *3B/*3B, *3B/*3C, *3C/*3C

• Greatly increased risk of thiopurine-related leukopenia, neutropenia and myelosuppression compared to normal metabolisers.
• For non-malignant conditions consider alternative non-thiopurine therapy.
• If no alternative therapy available, or if treatment is still indicated, reduce starting dose to 4-7% of normal starting dose or according to disease-specific treatment guidelines.
• Monitor efficacy and side effects and titrate dose according to disease-specific treatment guidelines.
• Allow 4-6 weeks to reach steady-state after each dose adjustment.

NUDT15 metaboliser status unknown

• Follow disease-specific guidelines regarding NUDT15 genotype testing prior to commencing treatment.
• If tioguanine treatment is required and NUDT15 status is unknown, monitor closely for efficacy and side effects and titrate dose according to disease-specific treatment guidelines.

NUDT15 Normal metaboliser

Examples of common NUDT15 genotypes (see note): *1/*1

• Normal risk of thiopurine-related leukopenia, neutropenia and myelosuppression.
• Initiate standard starting dose.
• Monitor efficacy and side effects and titrate dose according to disease-specific treatment guidelines.
• Allow 2 weeks to reach steady-state after each dose adjustment.

NUDT15 Intermediate metaboliser

Examples of common NUDT15 genotypes (see note): *1/*3

• Increased risk of thiopurine-related leukopenia, neutropenia and myelosuppression compared to normal metabolisers.
• Follow disease-specific treatment guidelines where available.
• Reduce starting dose to 50-80% of normal starting dose.
• Dose reduction may not be required if the normal starting dose is lower than 40-60mg/m²/day. See Further Information for details on starting dose thresholds for dose reduction.
• An alternative strategy in malignant conditions only is to start with the normal starting dose and reduce the dose if side effects occur. See Further Information for details of alternative strategy in TMPT/NUDT15 intermediate metaboliser for malignant conditions. 
• Monitor efficacy and side effects and titrate dose according to disease-specific treatment guidelines.
• Allow 2- 4 weeks to reach steady-state after each dose adjustment.

NUDT15 Poor metaboliser

Examples of common NUDT15 genotypes (see note): *3/*3

• Greatly increased risk of thiopurine-related leukopenia, neutropenia and myelosuppression compared to normal metabolisers.
• For non-malignant conditions, consider alternative non-thiopurine therapy.
• If no alternative therapy available, or if treatment is still indicated, reduce starting dose to 10-25% of normal starting dose or according to disease-specific treatment guidelines.
• Monitor efficacy and side effects and titrate dose according to disease-specific treatment guidelines.
• Allow 4-6 weeks to reach steady-state after each dose adjustment.

TPMT and NUDT15 genotypes known

• Evidence for recommended starting dose reduction based on compound metaboliser status of phenotypes of both genes is limited.
• Where the metaboliser status of one gene recommends a greater dose reduction than the other, start with the greater dose reduction of the two recommendations. For example, if a patient is a TPMT normal or intermediate metaboliser and a NUDT15 poor metaboliser, follow the therapeutic recommendations for NUDT15 poor metaboliser.
• For patients who are intermediate metabolisers for both TPMT and NUDT15, further dose reductions are likely to be needed compared with those who are only intermediate metabolisers with respect to one gene. Follow disease-specific guidelines where available. In the absence of disease-specific guidelines it is recommended to reduce the starting dose to 20-50% of normal starting dose in this scenario.
• Monitor efficacy and side effects and titrate dose according to disease-specific treatment guidelines.

Note: This is a limited list of examples of the most common TPMT and NUDT15 genotypes based on the most prevalent alleles in the UK population.

Further information

Testing methodology and limitations

Both genotypic and phenotypic TPMT tests are available and in routine use in the UK. Genotyping identifies genetic variations in the TPMT gene, while phenotyping measures the TPMT enzyme activity (level) in erythrocytes using a biochemical assay. Phenotyping can be less accurate than genotyping as TPMT enzyme activity can be affected by blood transfusions, renal function and plasma haemoglobin level. A limitation to genotyping for both TPMT and NUTD15 is that rare variants may not be detected by genotyping for common variants. 

Due to limitations in testing methodology, in extremely rare cases results reported as TPMT *1/*3A heterozygous genotype (intermediate metaboliser) may represent a TPMT *3B/*3C compound heterozygous genotype (poor metaboliser).  It is always recommended to monitor efficacy and side effects and titrate dose according to individual response and disease-specific treatment guidelines.

Drug interactions

The increased risk of thiopurine-related leukopenia, neutropenia and myelosuppression in individuals with inherited deficiency of TPMT and/or NUDT15 may be further exacerbated by co-administration with medicinal products that inhibit TPMT, or whose primary or secondary toxicity is myelosuppression. Refer to the SmPC for a list of drug interactions.

Starting dose thresholds for dose reduction in TPMT or NUDT15 intermediate metabolisers

Guidance on starting dose thresholds for dose reduction for TPMT or NUDT15 intermediate metabolisers differs between sources.  

• International guidance from the Dutch Pharmacogenetics Working Group (DPWG) recommends a 75% reduction in tioguanine dose for TPMT intermediate metabolisers, and a 50% reduction for NUDT15 intermediate metabolisers regardless of normal dose in non-malignant or malignant indications.  
• The Clinical Pharmacogenetics Implementation Consortium (CPIC) recommends a 50-80% dose reduction for TPMT or NUDT15 intermediate metabolisers if the normal starting dose is ≥ 40–60 mg/m²/day.  

Alternative strategy in TPMT/NUDT15 intermediate metabolisers for malignant conditions

For malignant indications only, DPWG advises that an alternative strategy in TPMT or NUDT15 intermediate metabolisers is to start with the normal dose and reduce to 75% in TPMT intermediate metabolisers or to 50% in NUDT15 intermediate metabolisers if side-effects necessitate a dose reduction. 

Clinical context of the patient in determining treatment strategy

Many factors including non-genetic factors can contribute to the variability in response to thiopurines including co-morbidities, drug interactions, renal function, and hepatic function. Genetic and non-genetic factors must be considered in the clinical context of an individual patient when applying the suggested dose modifications.

Users are advised to follow disease specific guidelines where available. In the absence of disease specific guidelines users should consider the clinical context of the patient, the indication for and urgency of immunosuppression and should closely monitor efficacy and side effects and titrate dose according to response.  

References

Aspen (2024). Tioguanine 40mg tablets SmPC. Available at: https://www.medicines.org.uk/emc/product/4654/smpc Accessed online: 21st May 2025.

Clinical Pharmacogenetics Implementation Consortium (2024) Guidelines for thiopurine dosing based on TPMT and NUDT15 genotypes. Available at: https://cpicpgx.org/guidelines/guideline-for-thiopurines-and-tpmt/ Accessed online 19th May 2025.

Coenen, M.J.H., Nijenhuis, M., Soree, B. et al. Dutch Pharmacogenetics Working Group (DPWG) guideline for the gene-drug interaction between TPMT/NUDT15 and thiopurines. Eur J Hum Genet (2025). https://doi.org/10.1038/s41431-025-01986-8 Accessed online 13^th January 2026.