Clinical Trials Logo

Clinical Trial Summary

Azathioprine (AZA) has long been used in dermatology in treating autoimmune bullous dermatoses and generalized eczematous disorders as well as some photodermatoses. Its metabolic process inside human body and its side effects relies on genetic polymorphism of some enzymes such as thiopurine s-methyltransferase (TPMT) and inosine triphosphate pyrophosphatase gene (ITPA). This study aims to analyze the relative contribution of TMPT and ITPA mutations to the development of toxicity induced by AZA treatment and to detect the correlation of the genetic polymorphism.


Clinical Trial Description

Dermatologists have been using azathioprine for more than 30 years. This synthetic purine analog is derived from 6-mercaptopurine. It is thought to act by disrupting nucleic acid synthesis and has recently been found to interfere with T-cell activation. The most recognized uses of azathioprine in dermatology are for immunobullous diseases, generalized eczematous disorders, and photodermatoses. Azathioprine is extensively metabolized, and only about 2% is excreted, unchanged, in the urine. Once freed of its imidazole derivative, the mercaptopurine moiety undergoes metabolism from 3 competing enzymes. Activity of the 2 catabolic enzymes thiopurine s-methyltransferase (TPMT), an enzyme with great genetic polymorphism, and xanthine oxidase (XO) produces inactive metabolites. Decreased TPMT or XO activity results in the increased production of toxic metabolites. Decreased TPMT activity is frequently a consequence of genetic polymorphisms, while decreased XO activity may be mediated by medications such as allopurinol.

Azathioprine is generally well tolerated and has a favorable therapeutic index compared with many other traditional immunosuppressants. Dose-limiting toxicity from azathioprine treatment affects up to 37% of patients. Administration of azathioprine to a patient with TPMT deficiency results in significant accumulation of thioguanine nucleotides, and it becomes clinically manifest by increased hematopoietic toxicity, with potentially grave consequences. Screening for thiopurine methyltransferase (TPMT) polymorphisms, TPMT*3A, *3C, *2 will prospectively identify approximately 10% of patients. In Chinese, the reported incidence of homozygous wild-type、heterozygote、homozygous mutation of TPMT is 95.3%, 4.7% and 0% respectively. The relationship to hematologic complication is more established, but its relationship to gastrointestinal side effects is controversial. Genetic polymorphism of the other newly identified enzyme, inosine triphosphate pyrophosphatase gene (ITPA) has also been associated with other adverse effect of azathioprine, such as flu-like symptoms, rash and pancreatitis. ITPA 94C>A allele is found at low frequency in Central/South American populations (1-2%), at a constant frequency across Caucasian and African populations (6-7%), and is highest in Asian populations (14-19%).

The aim of our study was to determine the relative contribution of, TMPT(A719G) and ITPA(C94A) mutations to the development of toxicity induced by AZA treatment in dermatology patients and to detect the correlation of these two genetic polymorphism.

Hepatotoxicity was defined by serum alanine transaminase levels greater than twice the upper normal limit (50 IU/l) and resolution after withdrawal of AZA; pancreatitis by severe abdominal pain and serum amylase > 800 IU/l; neutropenia by a neutrophil count of < 2.0 × 109 cells. ;


Study Design

Time Perspective: Retrospective


Related Conditions & MeSH terms


NCT number NCT00525473
Study type Observational
Source National Taiwan University Hospital
Contact
Status Completed
Phase N/A
Start date February 2007
Completion date January 2008

See also
  Status Clinical Trial Phase
Completed NCT00603148 - The Role of Platelet Surface α2β1 Integrin Expression as a Risk Factor in Thrombotic and/or Bleeding Complications N/A
Completed NCT00839410 - Multicentric Cohort of Melanoma Patients in Ile de France Area
Recruiting NCT00717509 - Association of Multiple Genetic Polymorphisms With Clozapine-Associated Metabolic Change in Schizophrenia N/A
Completed NCT00682370 - Effects of Heme Arginate in Healthy Male Subjects Phase 1
Recruiting NCT00730899 - Association Study of Gene Polymorphisms With Cardiac Performance N/A
Recruiting NCT00973505 - CYP19 Genetic Polymorphism & Aromatase Inhibitor(AI) N/A
Completed NCT00708929 - Does Complement Factor H Gene Polymorphism Play a Role in the Regulation of Vascular Tone in the Choroid? N/A
Completed NCT00634647 - Satraplatin and Prednisone to Treat Prostate Cancer Phase 2
Recruiting NCT05132257 - Genetic Polymorphism and Retinopathy of Prematurity: Correlation of Clinical Presentations and Severity
Not yet recruiting NCT06334666 - The Efficacy of Pedometer-motivated Physical Activity for the Management of Patients With MASLD. N/A