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Azathioprine

Azathioprine is an immunosuppressive medication primarily used to prevent organ rejection in kidney transplant recipients and to manage autoimmune conditions, including and . It functions as a that is metabolized in the body to 6-mercaptopurine, which disrupts synthesis and thereby inhibits the of T and B lymphocytes, key players in immune responses. Available in oral and intravenous formulations, it is typically administered in combination with other immunosuppressants like corticosteroids to enhance efficacy and reduce dosage requirements. Developed in the late 1950s by Gertrude Elion and George Hitchings as an improvement over 6-mercaptopurine to enhance and reduce , azathioprine represented a in transplant medicine when it was introduced clinically in the early . The U.S. (FDA) approved azathioprine for medical use on March 20, 1968, under the brand name Imuran, contributing to the success of long-term kidney transplants in the by suppressing acute rejection episodes. Over the decades, its applications have expanded to include treatment of severe cases of , , systemic lupus erythematosus, and certain dermatological disorders, often as a steroid-sparing agent. It is included on the World Health Organization's List of Essential Medicines. Despite its efficacy, azathioprine carries significant risks, including , , and an elevated incidence of malignancies such as non-melanoma cancers and post-transplant due to chronic . for (TPMT) and NUDT15 enzyme activity is recommended prior to initiation to predict and avoid severe adverse effects, guiding personalized dosing strategies. Ongoing monitoring of counts, liver function, and changes is essential during to balance benefits against potential complications.

Medical uses

Organ transplantation

Azathioprine is primarily employed as an immunosuppressive agent in combination with corticosteroids, such as prednisone, and other drugs like calcineurin inhibitors (e.g., cyclosporine or tacrolimus) to prevent both acute and chronic rejection in solid organ transplants, including renal, hepatic, and cardiac procedures. This combination therapy has been a cornerstone of maintenance immunosuppression regimens since the drug's early adoption, allowing for lower doses of each agent to minimize toxicity while achieving effective graft protection. The first successful application of azathioprine in human occurred in 1962, when Roy Calne and used it in an unrelated donor procedure, marking a pivotal advancement over prior therapies like total body irradiation or high-dose steroids alone. Initial dosing typically begins at 3-5 mg/kg/day orally or intravenously on the day of transplant or 1-3 days prior, with maintenance doses adjusted downward to 1-3 mg/kg/day based on clinical response and tolerability. Clinical trials have demonstrated azathioprine's in reducing rejection rates when used as maintenance therapy; for instance, a monitored high-dose regimen (starting at 5 mg/kg/day, adjusted to target metabolite levels) in renal transplant recipients resulted in fewer acute rejection episodes compared to standard dosing (49% versus 63%). Triple-drug protocols incorporating azathioprine with cyclosporine and have similarly shown improved one-year graft survival rates exceeding 80% in cardiac and renal transplants. In transplant patients, azathioprine requires regular monitoring of counts, typically weekly initially and then monthly, to detect myelosuppression early and guide dose adjustments, as reductions below 3.0 × 10^9/L often necessitate dose lowering or temporary withholding. This surveillance is critical to balance efficacy against the risk of .

Rheumatoid arthritis

Azathioprine is approved for use as a (DMARD) in patients with severe, progressive who have not responded adequately to other first-line therapies, such as . It functions by suppressing the autoimmune response that drives joint inflammation and damage in this condition, typically as a second-line option for moderate to severe active disease. The standard dosing regimen begins at 1 mg/kg body weight per day orally, administered as a single dose or divided into two doses, with gradual increases of 0.5 mg/kg every 4 to 6 weeks up to a maximum of 2.5 mg/kg/day, based on clinical response and for tolerability. Randomized controlled trials from the provided foundational evidence for its efficacy; for instance, a 1977 double-blind study in early demonstrated significant reductions in swelling, pain, and morning stiffness compared to or alternative agents like gold salts and . A 1973 crossover trial further confirmed these benefits in patients with classic , showing sustained improvements over long-term follow-up. Overall, a of these and later trials indicates azathioprine yields statistically significant enhancements in disease activity measures. Combination therapy with azathioprine and has shown superior outcomes to azathioprine monotherapy in patients with active , achieving better control of disease activity while maintaining comparable efficacy to methotrexate alone. Such regimens are particularly beneficial in cases, and clinical trials have reported no substantial increase in when using standard doses of both agents together. Azathioprine may also be combined with biologic DMARDs for enhanced remission rates in severe disease. The 2021 American College of Rheumatology guideline recommends initiating azathioprine as a nonbiologic DMARD alternative for adults with moderate to high activity who exhibit inadequate response or intolerance to , emphasizing its role in stepwise escalation of therapy to achieve low disease activity or remission. Guidelines stress starting at low doses with regular monitoring to optimize benefits while minimizing risks.

Inflammatory bowel disease

Azathioprine is commonly used as maintenance therapy in (IBD), particularly for and , following induction of remission with corticosteroids. It serves as a steroid-sparing agent to prevent relapse and reduce long-term steroid dependence in patients with moderate disease activity. The typical dosing regimen is 2–2.5 mg/kg/day orally, titrated gradually to minimize adverse effects while achieving therapeutic metabolite levels. Meta-analyses have demonstrated azathioprine's efficacy in maintaining remission in , with continued therapy significantly reducing rates compared to or . For instance, pooled data from randomized controlled trials show that discontinuation of azathioprine increases the risk of , with odds ratios indicating a protective effect at 6, 12, and 18 months (OR 0.22, 0.25, and 0.35, respectively). In , azathioprine exhibits steroid-sparing effects by enabling sustained remission without corticosteroids, supported by evidence from systematic reviews showing improved maintenance outcomes over . Professional guidelines, such as those from the American Gastroenterological Association (), recommend azathioprine for maintenance therapy in moderate , particularly in steroid-dependent patients, and suggest its use as monotherapy in patients in remission to prevent flares. The European Crohn's and Colitis Organisation (ECCO) similarly endorses thiopurines like azathioprine for long-term management in these conditions. Response to azathioprine is monitored through clinical assessment, endoscopic evaluation for mucosal healing, and noninvasive biomarkers such as fecal calprotectin levels, which correlate with disease activity and help detect subclinical . Regular is recommended to confirm remission, while elevated calprotectin (>250 μg/g) may prompt dose adjustments or further investigation.

Other uses

Azathioprine is used in the treatment of systemic lupus erythematosus (SLE), particularly as a steroid-sparing agent for maintenance therapy in patients who do not respond adequately to or require tapering. In (GPA), formerly known as Wegener's granulomatosis, azathioprine serves as a maintenance therapy following induction with and corticosteroids to prevent relapse. For , azathioprine is commonly employed as a second-line immunosuppressant alongside corticosteroids to achieve and sustain remission, with long-term use reducing the risk of disease progression in responsive patients. Off-label applications of azathioprine include exacerbations, where it is utilized as an immunosuppressive option in clinical practice despite limited high-level evidence for long-term efficacy. In , azathioprine acts as a first-line steroid-sparing agent to control symptoms and reduce dependence in generalized cases. Dermatological conditions such as benefit from off-label azathioprine therapy, supported by systematic reviews indicating moderate efficacy in inducing remission when combined with corticosteroids. In , azathioprine is applied in dogs for immune-mediated (IMHA), often in combination with glucocorticoids to suppress autoimmune destruction of red blood cells and improve survival rates. It is also used in dogs with chronic enteropathies, including , as part of immunosuppressive protocols to manage refractory inflammation, though alternatives like may be preferred in some cases due to better tolerability. Use in cats is limited owing to risks of and , with azathioprine generally avoided or employed only rarely under close monitoring for similar immune-mediated conditions. Recent studies up to 2025 highlight azathioprine's role in refractory associated with , where it is recommended as a first-line systemic to control ocular and preserve in patients with severe eye involvement. Emerging supports its in reducing relapse rates when used for in Behçet's , particularly in combination with corticosteroids.

Adverse effects

Common adverse effects

Common adverse effects of azathioprine primarily include gastrointestinal disturbances, mild hematologic changes, , and transient liver elevations, which are typically dose-related and reversible with strategies such as dose adjustment or splitting doses. Gastrointestinal symptoms, such as , , and , affect approximately 12% of patients with in the initial months of treatment, often occurring early and manageable by administering the drug after meals or in divided doses. These effects are reported in post-marketing surveillance as well, though exact incidences vary by population and indication. Mild or lymphopenia occurs in up to 28% of patients and over 50% of renal transplant recipients, with counts typically above 2500 cells/mm³, necessitating routine monitoring to prevent progression. Post-marketing data indicate these hematologic changes are common but usually mild and resolve with dose reduction. Fatigue is a frequently reported , observed in various clinical settings including up to 20.7% of patients treated for immune thrombocytopenia, often accompanying other mild symptoms and resolving without discontinuation. Mild , characterized by asymptomatic elevations in transaminases, occurs in less than 1% of patients and is more common in transplant recipients, usually transient, and reverses upon dose adjustment or cessation, with routine recommended for monitoring.

Serious adverse effects

Azathioprine can cause severe myelosuppression, including and , in approximately 1-2% of patients, with symptoms such as profound , severe , , , bruising, and increased susceptibility to bleeding or infections. This dose-dependent typically requires immediate drug discontinuation, blood transfusions, and supportive care to manage life-threatening complications like . Due to its immunosuppressive effects, azathioprine increases the risk of opportunistic infections, including pneumonia (), particularly in patients with or those on combination therapy, with a reported incidence of approximately 0.03% (32 per 100,000 person-years) in patients on without prophylaxis. Viral reactivations, such as in carriers, have been reported, though the risk with azathioprine monotherapy remains low (less than 1%), necessitating screening and antiviral prophylaxis in high-risk cases. Management involves prompt initiation of antimicrobial therapy and temporary suspension of immunosuppression. Pancreatitis is another serious adverse effect, occurring in up to 7.3% of patients with , presenting with acute , , , and elevated / levels, often within weeks to months of starting therapy. Severe , manifesting as with , pruritus, elevated bilirubin, and , affects approximately 0.1-1.3% of users, depending on duration and type of injury, and may progress to if untreated. In both cases, permanent discontinuation of azathioprine is recommended, along with supportive measures like hydration and monitoring, as per FDA labeling updates emphasizing early detection through regular lab tests. Susceptibility to these toxicities may be heightened in individuals with low (TPMT) activity.

Pharmacogenetics

Azathioprine's , particularly myelosuppression, is significantly influenced by genetic variations in the (TPMT) gene, which encodes an responsible for inactivating metabolites. Individuals with low TPMT activity due to polymorphisms, such as the common TPMT3A variant (c.460G>A and c.719A>G), exhibit reduced , leading to accumulation of active metabolites like 6-thioguanine (6-TGN) and heightened risk of severe . Heterozygous carriers of TPMT3A (intermediate metabolizers) face an approximately 3- to 6-fold increased risk of myelotoxicity compared to normal metabolizers, while homozygous poor metabolizers encounter near-certain severe at standard doses, with risks exceeding 100-fold relative to the general incidence of about 0.3%. As of 2025, CPIC guidelines recommend routine TPMT and NUDT15 , particularly in Asian and populations where NUDT15 variants are more prevalent, to optimize dosing and reduce risks. Similarly, variants in the NUDT15 gene, which hydrolyzes active metabolites, contribute to toxicity risks, especially severe . The NUDT15*2 (poor metabolizer variant) is prevalent in Asian populations (up to 10-15% ) and is associated with a 5- to 10-fold higher incidence of early severe in azathioprine-treated patients compared to those with normal activity. for TPMT and NUDT15 variants further amplifies this risk, explaining up to 25% of myelotoxicity cases across diverse ancestries. The U.S. (FDA) recommends pre-treatment for TPMT and NUDT15 in patients initiating azathioprine to guide dosing and mitigate toxicity. For intermediate metabolizers (heterozygous for one variant in either gene), the starting dose should be reduced to 30-70% of the standard dose, with subsequent adjustments based on monitoring; poor metabolizers (homozygous or compound heterozygous) should avoid azathioprine or receive an extreme reduction (10% of standard dose, administered three times weekly). These guidelines align with those from the Clinical Pharmacogenetics Implementation Consortium (CPIC), which emphasize starting at 20-30% of the target dose for intermediate metabolizers and considering alternative therapies for poor metabolizers in non-malignant conditions. Recent pharmacogenomic studies as of 2025 underscore the clinical utility of these recommendations. A prospective study in pediatric inflammatory disease patients demonstrated that proactive TPMT and NUDT15 genotyping reduced azathioprine discontinuation due to myelotoxicity by over 50%, with variant carriers showing improved tolerance through tailored dosing. In a large Chinese cohort, implementing combined genotyping lowered adverse event rates by 40%, highlighting NUDT15's dominant role in Asian populations and supporting cost-effective implementation in high-risk groups. These findings affirm that pharmacogenetic testing enhances safety and therapeutic outcomes without increasing overall costs.

Cancer risks

Chronic use of azathioprine, an immunosuppressive , is associated with an increased risk of malignancies, particularly lymphomas and skin cancers, due to its interference with and immune surveillance. Meta-analyses of patients with (IBD) treated with thiopurines like azathioprine indicate an approximately 4- to 6-fold elevated risk of , including , compared to the general population, with the risk appearing to rise with longer duration of therapy, such as beyond 5 years.00767-8/fulltext) This association is supported by cohort studies showing one additional lymphoma case per 1,000 patient-years of azathioprine exposure in certain populations. Skin cancers, including (SCC) and (BCC), occur at higher rates among azathioprine users, with relative risks up to 6- to 8-fold for non-melanoma skin cancers (NMSC) in IBD patients, and even higher in organ transplant recipients.00864-X/fulltext) The risk is particularly pronounced in fair-skinned individuals, where azathioprine's photosensitizing effects exacerbate UV-induced DNA damage, leading to mutations in genes like PTCH in BCCs. In transplant settings, azathioprine contributes to this elevated incidence alongside other immunosuppressants. In organ transplant recipients, azathioprine use is linked to (PTLD), a spectrum of lymphoid proliferations often driven by Epstein-Barr virus in the context of , with higher doses correlating to greater risk.00501-1/fulltext) The U.S. Food and Drug Administration's package insert for azathioprine (Imuran) warns of these malignancy risks and recommends regular dermatologic examinations, sun avoidance, protective clothing, and broad-spectrum sunscreen (SPF ≥30) to mitigate development, with ongoing surveillance emphasized for long-term users as of the latest labeling updates.

Drug interactions

With xanthine oxidase inhibitors

Azathioprine is metabolized to 6-mercaptopurine (6-MP), which is further converted by to inactive metabolites; inhibition of this enzyme by xanthine oxidase inhibitors like reduces the inactivation of 6-MP, leading to its accumulation and increased formation of active thioguanine nucleotides (TGNs). This results in potentiated azathioprine toxicity, particularly severe myelosuppression such as and . When co-administered with , the azathioprine dose must be reduced to 25-33% (or approximately one-quarter to one-third) of the standard dose to mitigate risks, accompanied by frequent hematologic monitoring, including complete counts. This adjustment is critical as even modest doses can lead to excessive TGN levels without it. The interaction poses heightened risks in patients treated with for , where concurrent azathioprine use for immunosuppressive therapy can precipitate life-threatening myelosuppression if not managed properly. Clinical case reports document severe in such scenarios, including in heart transplant recipients on gout prophylaxis.

With other medications

Azathioprine interacts with by inhibiting its effect, resulting in decreased international normalized ratio (INR) levels and an increased risk of . This necessitates close of INR, particularly within the first few weeks of starting azathioprine or after dose changes, with potential adjustments to the warfarin dose—often requiring a 2- to 3-fold increase to maintain therapeutic anticoagulation. Concomitant use of azathioprine with sulfamethoxazole/trimethoprim (co-trimoxazole) can potentiate , leading to exaggerated , particularly in renal transplant patients. This pharmacodynamic interaction arises from the additive myelosuppressive effects of both drugs, increasing the risk of severe hematologic toxicity. Regular monitoring of complete blood counts is recommended, with dose reduction or temporary discontinuation of azathioprine if significant cytopenias occur. Azathioprine combined with (ACE) inhibitors, such as enalapril or , has been associated with enhanced risk of and severe due to synergistic . The mechanism involves additive effects on hematopoiesis, potentially exacerbating . includes vigilant monitoring and possible dose adjustments or alternative antihypertensive therapy if myelosuppression develops. Azathioprine interacts with aminosalicylates such as mesalamine and , which inhibit (TPMT), resulting in elevated levels of active thioguanine nucleotides and increased risk of myelosuppression, including . This interaction is particularly relevant for patients with receiving combination therapy. Recommendations include reducing the azathioprine dose by approximately 30-50%, with frequent monitoring of complete blood counts to prevent toxicity. According to 2025 drug interaction databases, such as those referenced in updated clinical guidelines, these interactions generally warrant hematologic monitoring every 1-2 weeks initially, with azathioprine dose reductions of 25-50% or alternatives like mycophenolate considered in cases of persistent toxicity.

Use in pregnancy and breastfeeding

Pregnancy

Azathioprine is classified as FDA D, indicating positive evidence of human fetal risk based on adverse outcomes observed in some pregnancies, though it may be acceptable in life-threatening situations or serious diseases where benefits outweigh risks. Use during has been associated with an increased risk of , (particularly when combined with corticosteroids), and congenital malformations, such as ventricular or atrial septal defects, especially with first-trimester exposure. Additionally, use during has been associated with a rare risk of (), as identified by the FDA in 2024. While no clear evidence establishes azathioprine as a teratogen at therapeutic doses, animal studies demonstrate embryotoxicity and teratogenic effects, including limb, eye, skeletal, and abnormalities, at high doses. In data from conditions like (IBD) and autoimmune disorders, the overall malformation rate does not consistently exceed background levels, but caution is advised due to potential subtle risks. For pregnant patients with transplants or IBD requiring , azathioprine is often continued if the clinical condition is stable, as abrupt discontinuation may lead to disease flares that endanger maternal and fetal health; 2025 consensus guidelines for IBD endorse maintenance therapy in such cases when benefits outweigh risks. Azathioprine crosses the with limited transfer of the parent drug, but its 6-thioguanine reaches similar concentrations in fetal erythrocytes as in maternal blood, potentially contributing to neonatal . This exposure can result in neonatal , , or transient , with recommendations to monitor newborn blood counts and consider dose reduction in late to mitigate these effects.

Breastfeeding

Azathioprine and its 6-mercaptopurine are excreted into in low concentrations, typically representing less than 1% of the maternal weight-adjusted dose, with reported levels ranging from 0.05% to 0.6% in studied cases. Peak concentrations of 6-mercaptopurine in milk occur 1 to 2 hours after maternal dosing and decline rapidly thereafter, resulting in minimal overall infant exposure. Despite the low transfer, there is potential for infant immunosuppression and , including risks of . Case reports have documented transient in breastfed infants exposed to azathioprine through maternal , though such events are rare and often resolve without . Recent studies, including long-term follow-up, indicate no adverse effects on infant health and development up to 4.6 years from breastfeeding exposure. As of 2025, while the manufacturer advises against during azathioprine , expert consensus from organizations such as the American College of /EULAR and IBD guidelines considers it compatible when maternal health requires continuation, with close of the infant's recommended. The World Health Organization's older guidance cautions against use, but recent evidence supports with if benefits outweigh risks. To minimize exposure, one strategy involves pumping and discarding during the 4 hours following maternal dosing, when levels in are highest, while allowing at other times.

Pharmacology

Mechanism of action

Azathioprine is an immunosuppressive that undergoes rapid nonenzymatic cleavage in red blood cells and hepatocytes via nucleophilic attack by , yielding 6-mercaptopurine (6-MP) as its primary . This conversion is essential for azathioprine's pharmacological activity, as the parent compound itself lacks direct immunosuppressive effects. Once formed, 6-MP enters multiple competing metabolic pathways. Primarily, it is salvaged by (HPRT) to form thioinosine monophosphate (TIMP), which can then be further metabolized to thioguanine diphosphate and ultimately to active thioguanine (TGNs) through successive steps. TIMP also exerts inhibition on de novo purine synthesis by blocking amidotransferase, thereby reducing the availability of purine for DNA and RNA production. Alternative routes include enzymatic conversion of intermediates to thioguanine , which are incorporated into the TGN pool, as well as methylation by thiopurine S-methyltransferase (TPMT) to form inactive 6-methylmercaptopurine ribonucleoside, which limits the accumulation of cytotoxic metabolites. The immunosuppressive effects of azathioprine primarily stem from TGNs, which function as purine analogs that are incorporated into DNA and RNA during cellular replication. In DNA synthesis, TGNs serve as fraudulent bases, leading to mismatched base pairing and triggering DNA repair mechanisms or apoptosis in sensitive cells; additionally, their incorporation into DNA leads to DNA damage and impaired replication. \text{TGNs} + \text{DNA polymerase} \rightarrow \text{Incorporation into growing DNA chain} \rightarrow \text{Mismatch or damage} TGNs also inhibit , depleting pools necessary for . These actions preferentially target rapidly dividing cells, particularly lymphocytes. At the cellular level, azathioprine suppresses T-cell and B-cell proliferation by interfering with their nucleic acid synthesis and inducing through activation of Rac1 pathways, which disrupt cytoskeletal reorganization required for immune formation. This results in reduced production by B cells, diminished release (such as IL-2 and IFN-γ) from T cells, and overall attenuation of both humoral and cell-mediated immune responses. The net effect is a balanced immunosuppressive state that mitigates autoimmune activity and without completely abolishing host defenses.

Pharmacokinetics

Azathioprine is well absorbed from the after , with estimated at approximately 60% for therapeutic doses, though this can vary due to first-pass metabolism. Peak plasma concentrations of total radioactivity occur 1 to 2 hours post-dose, reflecting rapid uptake and initial conversion to metabolites including 6-mercaptopurine (6-MP). The for azathioprine has not been well-characterized due to its rapid , while its primary 6-MP has a volume of distribution around 0.9 L/kg. Azathioprine binds moderately to plasma proteins (about 30%) and does not readily cross the blood-brain barrier. Azathioprine undergoes rapid , with nearly complete (approximately 88%) conversion to 6-MP via non-enzymatic cleavage by , primarily in erythrocytes and the liver. The 6-MP is then catabolized through multiple pathways: about 90% is oxidized by (XO) to the inactive 6-thiouric acid in patients with normal hepatic function; thiopurine S-methyltransferase (TPMT) inactivates a portion by to 6-methylmercaptopurine; and a smaller fraction is anabolized via (HPRT) to active 6-thioguanine (6-TGN). The half-life of unchanged azathioprine is short, ranging from 5 to 15 minutes, while 6-MP has a of 30 minutes to 2 hours; the half-life of total (primarily metabolites) is about 5 hours, and active erythrocyte 6-TGN metabolites persist longer, up to 5 days. Clinical and correlate more closely with intracellular concentrations of 6-TGNs, particularly in erythrocytes, than with levels of azathioprine or 6-MP. is predominantly renal, with 6-thiouric acid as the major urinary metabolite accounting for over 50% of the dose; less than 2% is eliminated unchanged, and renal impairment can prolong metabolite exposure.

Chemistry

Structure and properties

Azathioprine has the molecular formula C₉H₇N₇O₂S and a molecular weight of 277.26 g/mol. It is an imidazolyl derivative of 6-mercaptopurine, featuring a 1-methyl-4-nitro-1H-imidazol-5-yl thio group attached at the 6-position of the purine ring. This structural modification serves as a prodrug form of 6-mercaptopurine to improve bioavailability. Azathioprine appears as a pale , odorless . It has a of 238–244 °C, during which occurs. The compound exhibits limited in , approximately 0.3 mg/mL at 25 °C, and is sparingly soluble in dilute acids while being practically insoluble in and . Azathioprine is light-sensitive and should be protected from exposure to maintain stability. It remains stable in neutral or acidic solutions but undergoes hydrolysis to 6-mercaptopurine in alkaline conditions, such as excess 0.1 N sodium hydroxide, particularly upon warming. The pKa value is 8.2 at 25 °C, corresponding to the purine moiety.

Synthesis

Azathioprine was originally synthesized by and George H. Hitchings through a reaction between 6-mercaptopurine and 5-chloro-1-methyl-4-nitroimidazole under alkaline conditions. The process proceeds via S-alkylation at the group of 6-mercaptopurine, facilitated by a base such as anhydrous or in a like (DMSO) or , resulting in the formation of the thioether linkage characteristic of azathioprine. The reaction typically yields the product in over 85%, and subsequent recrystallization from a suitable , such as or acetic acid, affords azathioprine as pale yellow crystals with purity exceeding 90%. The key chemical equation for this synthesis is: \ce{(HS)C5H3N4 + ClC4H4N3O2CH3 -> (C4H4N3O2CH3S)C5H3N4 + HCl} where \ce{(HS)C5H3N4} represents 6-mercaptopurine and \ce{ClC4H4N3O2CH3} represents 5-chloro-1-methyl-4-nitroimidazole. Modern industrial production of azathioprine often employs variants of this method, incorporating phase-transfer catalysis to enhance reaction efficiency and yields by facilitating the transfer of the anionic thiolate species across phase boundaries in biphasic systems.

History

Discovery

Azathioprine was first synthesized in 1957 by Gertrude B. Elion and George H. Hitchings at Burroughs Wellcome Co. (now part of GlaxoSmithKline) under the experimental code name BW 57-322. The synthesis was motivated by the need to enhance the oral bioavailability of 6-mercaptopurine (6-MP), an antileukemic purine analog that Elion and Hitchings had developed earlier in 1951 but which suffered from poor absorption due to extensive first-pass metabolism in the gut and liver. To address this, they masked the thiol (-SH) group of 6-MP by attaching a 1-methyl-4-nitroimidazole moiety via a thioether linkage, creating a prodrug form expected to improve gastrointestinal absorption while allowing enzymatic or non-enzymatic cleavage to release active 6-MP in vivo. Initial investigations, including enzymatic studies and animal models, confirmed that BW 57-322 was rapidly converted back to 6-MP through cleavage of the side chain, primarily by glutathione-mediated thiolysis, thereby validating its design and demonstrating comparable antileukemic activity to 6-MP with potentially reduced toxicity. Elion and Hitchings' pioneering work on analogs, including the development of azathioprine, earned them the in Physiology or Medicine in 1988, shared with James , for discoveries concerning "important principles for drug treatment" in areas such as and .

Development and approval

Azathioprine's clinical development advanced rapidly in the early 1960s following its synthesis as an immunosuppressive agent derived from 6-mercaptopurine. The first clinical use occurred in 1961, when Roy Calne launched a transplantation program administering it to renal transplant patients in the UK, with pivotal reports in 1962 by Calne and Joseph Murray in the US demonstrating prolonged graft survival compared to prior regimens; this marked a significant step forward in organ transplantation by reducing acute rejection rates. Pivotal trials in the 1960s, including those led by in the UK and in the US, established azathioprine's when combined with corticosteroids. These studies involved small cohorts of transplant recipients and showed one-year graft survival rates improving to around 50%, a substantial advancement over the pre-azathioprine era where most grafts failed within months. For instance, 's 1962 report on azathioprine with enabled successful in unrelated donors, influencing global protocols. The U.S. (FDA) approved azathioprine (under the brand name Imuran) on March 20, 1968, specifically for preventing renal and for the treatment of severe , based on accumulated evidence from these early trials and post-marketing data. Key RA studies in the 1970s, such as a 1977 double-blind comparison by Dwosh et al. involving early-stage patients, reported significant improvements in and morning stiffness with azathioprine versus or other agents like gold salts. Azathioprine also saw expanded in (IBD) during this period, with clinical adoption for and maintenance therapy. Post-approval, regulatory updates have emphasized safety monitoring, including a warning for increased risk added to the FDA label.

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