Azathioprine and UVA light generate mutagenic oxidative DNA damage

[Immunosuppressive therapy after transplantation. Dermatologic relevance and pathomechanisms]

Immunosuppressive therapy keeps rejection in check following solid organ transplantation. Drug reactions, inflammatory and infectious skin conditions frequently follow. Specific side effects can be avoided by switching individual agents. In addition to UV light, immunosuppressants are the most important driver for squamous cell carcinoma of the skin (SCC). Beyond immunosuppression, cyclosporine A promotes carcinogenesis by TGF beta and VEGF, while mTOR inhibitors are antiproliferative. Azathioprine photosensitizes to UVA and enables UVA to damage DNA directly. To fight skin cancer, global reduction of immunosuppression is the most effective measure. Switching calcineurin inhibitors to mTOR inhibitors is probably to be recommended, while omitting azathioprine may potentially be advisable in recurrent SCC.

Switch to a sirolimus-based immunosuppression in long-term renal transplant recipients: reduced rate of (pre-)malignancies and nonmelanoma skin cancer in a prospective, randomized, assessor-blinded, controlled clinical trial

Renal transplant recipients (RTR) have a 50-200-fold higher risk for nonmelanoma-skin cancer (NMSC) causing high rates of morbidity and sometimes mortality. Cohort-studies gave evidence that a sirolimus-based immunosuppression may inhibit skin tumor growth. This single-center, prospective, assessor-blinded, randomized trial investigated if switching to sirolimus treatment inhibits the progression of premalignancies and moreover how many new NMSC occur compared to continuation of the original immunosuppressive therapy. Forty-four RTR (mean age 59.9 years, mean duration of immunosuppression 229.5 months) with skin lesions were randomized to sirolimus or continuation of their original immunosuppression. Blinded dermatological assessment at month 6 and 12 by the same dermatologist evaluated the clinical change compared to baseline. Biopsy was performed in suspected malignancy. Already the 6-month-assessment showed significant superiority of sirolimus-therapy: a stop of progression, even regression of preexisting premalignancies (p < 0.0005). This effect was increased at month 12 (p < 0.0001). Nine patients developed histologically confirmed NMSC: one in the sirolimus group, eight in the control group, p = 0.0176. Sirolimus-based immunosuppression in RTR, even when established many years after transplantation, can delay the development of premalignancies, induce regression of preexisting lesions and decelerate the incidence of new NMSC.

Organ transplantation and skin cancer: basic problems and new perspectives

Solid organ transplant and subsequent graft survival have increased worldwide, while immunosuppression has prevented rejection with increasing success. Side effects of cutaneous infection and neoplasm, however, affect the majority of solid organ transplant recipients (OTRs). Squamous cell carcinoma of the skin (SCC) is the most common neoplasm overall following organ transplant with a risk that is 60-100 times greater than for the immunocompetent population. This review focuses on questions of ongoing debate about SCC formation in OTRs such as viral carcinogenesis, systemic photoprotection, photosensitization by drugs, the impact of immunosuppressive drugs and inflammation as a driver of carcinogenesis.

Angiosarcoma developing in a non-functioning arteriovenous fistula post-renal transplant

BACKGROUND

Angiosarcomas comprise less than 1% of all sarcomas, arising from endothelial cells of blood or lymph vessels. Chronic immunosuppression increases the risk of many malignancies and an association between the development of angiosarcoma with an immunosuppressed state is established. A few cases have been reported of angiosarcomas arising in the post-renal transplant patient. Specifically, there have been six cases of an angiosarcoma arising in arteriovenous (AV) fistulae in this patient population. We describe a further case and review the relevant literature with specific emphasis on a possible mechanism for the development of angiosarcoma in the post-transplant patient.

CASE PRESENTATION

We report the case of a 48-year-old male who developed an angiosarcoma in a ligated native AV fistula. The lesion arose on the background of immunosuppression following a successful ABO-incompatible renal transplant for chronic renal failure.

CONCLUSION

Angiosarcomas are extremely rare tumours but should be considered as a differential diagnosis for an evolving mass near the site of an AV fistula. Diagnosis relies on an index of suspicion and obtaining a definitive histological diagnosis. Both clinicians and patients should be aware that an evolving mass within or around an AV fistula should prompt urgent biopsy.

Guanine sulphinate is a major stable product of photochemical oxidation of DNA 6-thioguanine by UVA irradiation

The DNA of patients taking the immunosuppressant and anticancer drugs azathioprine or 6-mercaptopurine contains 6-thioguanine (6-TG). The skin of these patients is selectively sensitive to ultraviolet A radiation (UVA) and they suffer an extremely high incidence of sunlight-induced skin cancer with long-term treatment. DNA 6-TG interacts with UVA to generate reactive oxygen species, which oxidize 6-TG to guanine sulphonate (G(SO3)). We suggested that G(SO3) is formed via the reactive electrophilic intermediates, guanine sulphenate (G(SO)) and guanine sulphinate (G(SO2)). Here, G(SO2) is identified as a significant and stable UVA photoproduct of free 6-TG, its 2'-deoxyribonucleoside, and DNA 6-TG. Mild chemical oxidation converts 6-TG into G(SO2), which can be further oxidized to G(SO3)-a stable product that resists further reaction. In contrast, G(SO2) is converted back to 6-TG under mild conditions. This suggests that cellular antioxidant defences might counteract the UVA-mediated photooxidation of DNA 6-TG at this intermediate step and ameliorate its biological effects. In agreement with this possibility, the antioxidant ascorbate protected DNA 6-TG against UVA oxidation and prevented the formation of G(SO3).

Expression of DNA mismatch repair proteins and MSH2 polymorphisms in nonmelanoma skin cancers of organ transplant recipients

BACKGROUND

Organ transplant recipients (OTRs) have an increased risk of skin cancer. Treatment with azathioprine, commonly used in post-transplant immunosuppressive regimens, results in incorporation of 6-thioguanine (6-TG) into DNA. Mismatch repair (MMR)-defective cells are resistant to killing by 6-TG. Azathioprine exposure confers a survival advantage on MMR-defective cells, which are hypermutable and may therefore contribute to azathioprine-related nonmelanoma skin cancer, a phenomenon we have previously demonstrated in transplant-associated sebaceous carcinomas. The MSH2 protein is an important component of DNA MMR. The -6 exon 13 T>C MSH2 polymorphism is associated with impaired MMR, drug resistance and certain cancers.

OBJECTIVES

To investigate (i) whether loss of MMR protein expression and microsatellite instability are over-represented in squamous cell carcinomas (SCCs) from OTRs on azathioprine compared with SCCs from immunocompetent patients, and (ii) whether the MSH2 -6 exon 13 polymorphism is over-represented in OTRs with skin cancer on azathioprine.

METHODS

(i) Immunohistochemical staining was used to assess expression of the MMR proteins MSH2 and MLH1 in cutaneous SCCs from OTRs on azathioprine and from immunocompetent patients. (ii) Blood samples from OTRs on azathioprine with and without skin cancer were genotyped for the -6 exon 13 MSH2 polymorphism.

RESULTS

(i) MSH2 and MLH1 protein expression was not altered in SCCs from OTRs on azathioprine and there was no difference in expression between SCCs from OTRs and immunocompetent patients. (ii) There was no association between MSH2 polymorphism genotype frequency and OTR skin cancer status.

CONCLUSIONS

Despite previous findings in transplant-associated sebaceous carcinomas, defective MMR and the -6 exon 13 MSH2 polymorphism are unlikely to play a significant role in the development of SCC in OTRs on azathioprine.

Increased risk for non-melanoma skin cancer in patients with inflammatory bowel disease

BACKGROUND & AIMS

Patients with inflammatory bowel disease (IBD) might be at increased risk for certain malignancies. We evaluated the risk of non-melanoma skin cancer (NMSC) in patients with IBD and determined how immunosuppressive and biologic medications affect this risk.

METHODS

We performed retrospective cohort and nested case-control studies by using administrative data from PharMetrics Patient Centric Database. In the cohort study, 26,403 patients with Crohn's disease (CD) and 26,974 patients with ulcerative colitis (UC) were each matched to 3 non-IBD controls. NMSC risk was evaluated by incidence rate ratio (IRR). In the nested case-control study, 387 CD patients and 355 UC patients with NMSC were each matched to 4 IBD patients without NMSC by using incidence density sampling. Conditional logistic regression was used to determine the association between specific IBD medication use and NMSC.

RESULTS

In the cohort study, the incidence of NMSC was higher among patients with IBD compared with controls (IRR, 1.64; 95% confidence interval [CI], 1.51-1.78). In the nested-case control study, recent thiopurine use (< or =90 days) was associated with NMSC (adjusted odds ratio [OR], 3.56; 95% CI, 2.81-4.50), as was recent biologic use among patients with CD (adjusted OR, 2.07; 95% CI, 1.28-3.33). Persistent thiopurine use (>365 days) was associated with NMSC (adjusted OR, 4.27; 95% CI, 3.08-5.92), as was persistent biologic use among patients with CD (adjusted OR, 2.18; 95% CI, 1.07-4.46).

CONCLUSIONS

Patients with IBD, especially those who receive thiopurines, are at risk for NMSC. Appropriate counseling and monitoring of such patients with IBD are recommended.

Overall and cause-specific mortality in Crohn's disease: a meta-analysis of population-based studies

BACKGROUND

An overview of mortality risk among unselected patients with Crohn's disease (CD) is lacking. We therefore performed a systematic review and meta-analysis of population-based studies on overall and cause-specific mortality in CD.

METHODS

MEDLINE (January 1965 to February 2008), abstracts from international conferences and reference lists of selected articles were searched systematically. All articles fulfilling the predefined inclusion criteria were scrutinized for data on population size, time of follow-up, gender, age, and observed to expected deaths. STATA meta-analysis software was used to calculate overall and cause-specific pooled standardized mortality ratios (SMR, observed/expected).

RESULTS

Nine studies were included with overall SMRs ranging from 0.72-3.2, resulting in a significantly increased pooled SMR of 1.39 (95% confidence interval [CI]: 1.30-1.49). Regarding cause-specific mortality, a significantly increased risk of death from cancer (SMR 1.50, 95% CI: 1.18-1.92), in particular of pulmonary cancer (SMR 2.72, 95% CI: 1.35-5.45), as well as chronic obstructive pulmonary disease (SMR 2.55, 95% CI: 1.19-5.47), gastrointestinal diseases (SMR 6.76, 95% CI: 4.37-10.45), and genitourinary diseases (SMR 3.28, 95% CI: 1.69-6.35) was observed.

CONCLUSIONS

Among unselected patients with CD, overall mortality was slightly but significantly higher than in the general population-primarily explained by deaths from gastrointestinal, respiratory, and genitourinary diseases. Notably, mortality from colorectal cancer was not increased.

The molecular chaperone Hsp90 regulates accumulation of DNA polymerase eta at replication stalling sites in UV-irradiated cells

DNA polymerase eta (Pol eta) is a member of the mammalian Y family polymerases and performs error-free translesion synthesis across UV-damaged DNA. For this function, Pol eta accumulates in nuclear foci at replication stalling sites via its interaction with monoubiquitinated PCNA. However, little is known about the posttranslational control mechanisms of Pol eta, which regulate its accumulation in replication foci. Here, we report that the molecular chaperone Hsp90 promotes UV irradiation-induced nuclear focus formation of Pol eta through control of its stability and binding to monoubiquitinated PCNA. Our data indicate that Hsp90 facilitates the folding of Pol eta into an active form in which PCNA- and ubiquitin-binding regions are functional. Furthermore, Hsp90 inhibition potentiates UV-induced cytotoxicity and mutagenesis in a Pol eta-dependent manner. Our studies identify Hsp90 as an essential regulator of Pol eta-mediated translesion synthesis.

6-Thioguanine perturbs cytosine methylation at the CpG dinucleotide site by DNA methyltransferases in vitro and acts as a DNA demethylating agent in vivo

Thiopurines are among the most successful chemotherapeutic agents for treating a number of human diseases including acute lymphoblastic leukemia. The mechanisms through which the thiopurines elicit their cytotoxic effects remain unclear. We postulate that the incorporation of 6-thioguanine into the CpG site may perturb the methyltransferase-mediated cytosine methylation at this site, thereby interfering with the epigenetic pathways of gene regulation. To gain biochemical evidence for this hypothesis, we assessed, by using a restriction enzyme digestion coupled with LC-MS/MS method, the impact of 6-thioguanine on cytosine methylation mediated by two DNA methyltransferases, human DNMT1 and bacterial HpaII. Our results revealed that the incorporation of 6-thioguanine into the CpG site could affect the methylation of the cytosine residue by both methyltransferases and the effect on cytosine methylation is dependent on the position of 6-thioguanine with respect to the cytosine to be methylated. The presence of 6-thioguanine at the methylated CpG site enhanced the DNMT1-mediated methylation of the opposing cytosine in the complementary strand, whereas the presence of 6-thioguanine at the unmethylated CpG site abolished almost completely the methylation of its 5' adjacent cytosine by both DNMT1 and HpaII. We further demonstrated that the treatment of Jurkat T cells, which were derived from acute lymphoblastic leukemia, with 6-thioguanine could result in an appreciable drop in the level of global cytosine methylation. These results showed that 6-thioguanine, after being incorporated into DNA, may perturb the epigenetic pathway of gene regulation.

Cancer incidence and risk factors after solid organ transplantation

Iatrogenic immunosuppression is a unique setting for investigating immune-related mechanisms of carcinogenesis. Solid organ transplant recipients have a 3-fold excess risk of cancer relative to the age- and sex-matched general population. Population-based studies utilizing cancer registry records indicate that a wide range of cancers, mostly those with a viral etiology, occur at excess rates. To date, cancer risk has predominantly been examined in adult kidney transplant recipients in Western countries. It is yet to be established whether a similar incidence profile exists in the long-term for other solid organ, pediatric and non-Western transplant recipients. The cancer incidence profile before and after kidney transplantation strongly suggests a relatively minor contribution by both preexisting cancer risk factors and the conditions underlying end-stage kidney disease, and points to a causal role for immunosuppression. Within-cohort risk factor analyses have largely been performed on cohorts with voluntary cancer notification, and very few have incorporated biomarkers of the level of immunosuppression, the current receipt of immunosuppressive agents, or genetic risk factors. Because of their markedly high risk of certain cancers, findings from comprehensive studies in transplant recipients have the potential to raise new avenues for investigation into causal mechanisms and preventive measures against immune-related and infectious causes of cancer.

Immunosuppressive treatment after solid organ transplantation and risk of post-transplant cutaneous squamous cell carcinoma

BACKGROUND

The risk of cutaneous squamous cell carcinoma (CSCC) is found to be substantially increased after organ transplantation. The association with specific immunosuppressive regimens has been previously investigated, but results are not concordant. We aimed to clarify the relationship between separate immunosuppressive drugs, drug load, timing and risk of post-transplant CSCC.

METHODS

A population-based nested case-control study was performed in the Swedish organ transplantation cohort (n = 5931). All patients who developed CSCC during the follow-up (1970-97) were eligible as cases (n = 207). Controls (n = 189) were randomly selected from the cohort and individually matched to the cases on follow-up time, age at and calendar period of transplantation. Exposure information was collected through extensive and standardized review of medical records.

RESULTS

The median time to CSCC was 6.7 years. Post-transplant azathioprine (Aza) treatment considerably increased the risk of CSCC during all time periods analysed, and the risk augmented with increasing dose and duration. Patients who after the entire follow-up period had received a high accumulated dose of Aza had an 8.8-fold increased risk of CSCC in multivariate analysis (P < 0.0001), compared to patients never treated with Aza. Additionally, a high accumulated dose of corticosteroids during the same period conferred a 3.9-fold elevated risk of CSCC (P = 0.09), compared to the lowest accumulated dose of corticosteroids. Cyclosporine treatment was not associated with the risk of CSCC post-transplantation.

CONCLUSIONS

This study provides evidence that Aza treatment, but not cyclosporine treatment, is strongly associated with post-transplant CSCC risk. The results suggest that the risk of CSCC after organ transplantation is not only an effect of the immunosuppressive load per se.

Mutagenicity and potential carcinogenicity of thiopurine treatment in patients with inflammatory bowel disease

The thiopurines azathioprine and 6-mercaptopurine (6-MP) are effective immune modulators and cytotoxic agents extensively used in the treatment of autoimmune diseases, graft rejection, and cancer. There is compelling epidemiologic evidence that thiopurine treatment increases the risk for a variety of tumors by mechanisms that are unclear. We investigated the in vivo mutagenicity of long-term thiopurine treatment by determining the frequency and spectra of somatic mutation events at the hypoxanthine phosphoribosyltransferase (HPRT) locus in peripheral T lymphocytes as well as the prevalence of mutant clonal proliferation in a cross-sectional analysis of data from 119 children and adults with inflammatory bowel disease (IBD). ANOVA and regression were performed to assess relationships among the frequency and spectra of HPRT mutations with disease, duration of illness, duration of treatment, and total therapeutic dose of azathioprine and 6-MP. We observed a significant increase in the frequency of somatic mutations in 56 subjects treated with thiopurines for IBD compared with 63 subjects not treated with thiopurines. This increase was related to both total dose (P < 0.001) and duration of treatment (P < 0.001). Comparative mutation spectra analysis of 1,020 mutant isolates revealed a significant increase in the proportion of all transitions (P < 0.001), particularly G:C to A:T transitions (P < 0.001). Combined analyses of two signatures for mutant clonality, HPRT mutation, and T-cell receptor beta CDR3 region unique gene sequence also showed a significant thiopurine-dependent increase in mutant cell clonal proliferation (P < 0.001). These findings provide in vivo evidence for mutation induction as a potential carcinogenic mechanism associated with chronic thiopurine intervention.

Cellular and sub-cellular responses to UVA in relation to carcinogenesis

PURPOSE

UVA radiation (315-400 nm) contributes to skin aging and carcinogenesis. The aim of this review is to consider the mechanisms that underlie UVA-induced cellular damage, how this damage may be prevented or repaired and the signal transduction processes that are elicited in response to it.

RESULTS

Exposure to ultraviolet (UV) light is well-established as the causative factor in skin cancer. Until recently, most work on the mechanisms that underlie skin carcinogenesis focused on shorter wavelength UVB radiation (280-315 nm), however in recent years there has been increased interest in the contribution made by UVA. UVA is able to cause a range of damage to cellular biomolecules including lipid peroxidation, oxidized protein and DNA damage, such as 8-oxoguanine and cyclobutane pyrimidine dimers. Such damage is strongly implicated in both cell death and malignant transformation and cells have a number of mechanisms in place to mitigate the effects of UVA exposure, including antioxidants, DNA repair, and stress signalling pathways.

CONCLUSIONS

The past decade has seen a surge of interest in the biological effects of UVA exposure as its significance to the process of photo-carcinogenesis has become increasingly evident. However, unpicking the unique complexity of the cellular response to UVA, which is only now becoming apparent, will be a major challenge for the field of photobiology in the 21st century.

What types of cancers are associated with immune suppression in HIV? Lessons from solid organ transplant recipients

PURPOSE OF REVIEW

To examine recently published evidence of cancer risk after solid organ transplantation to gain insight into cancers that are associated with immune suppression in HIV.

RECENT FINDINGS

Data from several population-based studies comparing cancer risk in recipients of solid organ transplants with that in the general population have demonstrated increased risk for a broad range of cancers, predominantly those with a known or suspected infectious cause. This increase in risk is independent of cohort aging and probably independent of established behavioral and other risk factors for cancer. Epidemiological risk factor data are limited but appear to indicate a relationship with severity and duration of immune suppression. A recent meta-analysis indicates a striking similarity in the pattern of cancer occurrence in transplant recipients and people with HIV/AIDS.

SUMMARY

The similarity of the increased risk of cancer in these two immunosuppressed populations, who differ with respect to their underlying conditions and lifestyles, is compelling evidence that these cancers are associated with immune deficiency. The mechanisms are not fully understood but appear to be related to impaired immune surveillance. These data challenge the classification of only a narrow range of cancers as associated with immune suppression in people with HIV/AIDS.

Immune effector cells produce lethal DNA damage in cells treated with a thiopurine

Azathioprine, a widely used immunosuppressant, is also used in the control of inflammatory disorders. These are characterized by the local accumulation of immune effector cells that produce reactive oxygen species (ROS). The DNA of azathioprine-treated patients contains 6-thioguanine (6-TG), a base analogue that is particularly susceptible to oxidation. Here, we show that 6-TG is vulnerable to ROS produced by chemical oxidants and that cells containing DNA 6-TG are hypersensitive to these oxidants. We also show that 6-TG incorporated into the DNA of macrophages sensitizes them to killing by endogenously produced ROS. ROS generated by macrophages are also a hazard for cocultured nonmacrophage cells containing DNA 6-TG. This bystander vulnerability of cells containing DNA 6-TG to oxidation by ROS generated by immune effector cells has implications for the long-term use of azathioprine in the management of inflammatory disorders.

Reactive oxygen species generated by thiopurine/UVA cause irreparable transcription-blocking DNA lesions

Long-term treatment with the anticancer and immunosuppressant thiopurines, azathioprine or 6-mercaptopurine, is associated with acute skin sensitivity to ultraviolet A (UVA) radiation and a high risk of skin cancer. 6-thioguanine (6-TG) that accumulates in the DNA of thiopurine-treated patients interacts with UVA to generate reactive oxygen species. These cause lethal and mutagenic DNA damage. Here we show that the UVA/DNA 6-TG interaction rapidly, and essentially irreversibly, inhibits transcription in cultured human cells and provokes polyubiquitylation of the major subunit of RNA polymerase II (RNAPII). In vitro, 6-TG photoproducts, including the previously characterized guanine-6-sulfonate, in the transcribed DNA strand, are potent blocks to RNAPII transcription whereas 6-TG is only slightly inhibitory. In vivo, guanine-6-sulfonate is removed poorly from DNA and persists to a similar extent in the DNA of nucleotide excision repair-proficient and defective cells. Furthermore, transcription coupled repair-deficient Cockayne syndrome cells are not hypersensitive to UVA/6-TG, indicating that potentially lethal photoproducts are not selectively excised from transcribed DNA. Since persistent transcription-blocking DNA lesions are associated with acute skin responses to sunlight and the development of skin cancer, our findings have implications for skin cancer in patients undergoing thiopurine therapy.

Immunosuppression and other risk factors for lip cancer after kidney transplantation

Incidence of lip cancer is markedly increased after kidney transplantation. Immunosuppression and other risk factors for lip cancer were investigated in a population-based, nationwide cohort of 8,162 kidney transplant recipients registered on the Australia and New Zealand Dialysis and Transplant Registry (1982-2003). Lip cancer diagnoses were ascertained using probabilistic data linkage with the Australian National Cancer Statistics Clearing House. Standardized incidence ratios were used to compare lip cancer risk by subsite of lip and during periods of transplant function and failure. Risk factors during the first functioning transplant were examined using multivariate Poisson regression. Lip cancer was diagnosed in 203 patients. All cases were of squamous cell origin and mostly (77%) affected the lower vermillion. Cases occurred predominantly during periods of transplant function, with incidence decreasing to pretransplantation level on transplant failure and cessation of immunosuppression. During transplant function, cancer of the lower vermillion was associated with increasing year of age [incidence rate ratio (IRR), 1.03; 95% confidence interval (95% CI), 1.02-1.05], greater time since transplantation (P < 0.001), smoking (IRR, 2.13; 95% CI, 1.12-4.07), and current use of azathioprine (IRR, 2.67; 95% CI, 1.39-5.15) or cyclosporine (IRR, 1.63; 95% CI, 1.00-2.65). Female sex (IRR, 0.29; 95% CI, 0.18-0.46) and non-Australian/New Zealand country of birth (P = 0.006), surrogate indices of reduced exposure to solar UV radiation, were significantly protective. Lip cancer after transplantation is strongly related to the current receipt of immunosuppression. During transplant function, lip cancer risk is associated with the duration of immunosuppression, receipt of specific immunosuppressive agents, and UV exposure.

PTCH mutations in basal cell carcinomas from azathioprine-treated organ transplant recipients

The immunosuppressant azathioprine is used to prevent graft rejection after organ transplantation. To investigate whether azathioprine-associated mutagenesis contributes to the high incidence of skin tumours in organ transplant recipients (OTRs), we analysed PTCH gene mutations in 60 basal cell carcinomas (BCC); 39 from OTRs receiving azathioprine and 21 from individuals never exposed to azathioprine. PTCH was mutated in 55% of all tumours, independent of azathioprine treatment. In both the azathioprine and non-azathioprine groups, transitions at dipyrimidine sequences, considered to indicate mutation by ultraviolet-B radiation, occurred frequently in tumours from chronically sun-exposed skin. In BCC from non-sun-exposed skin of azathioprine-treated patients, there was an over-representation of unusual G:C to A:T transitions at non-dipyrimidine sites. These were exclusive to the azathioprine-exposed group and all in the same TGTC sequence context at different positions within PTCH. Meta-analysis of 247 BCCs from published studies indicated that these mutations are rare in sporadic BCC and had never previously been reported in this specific sequence context. This study of post-transplant BCC provides the first indication that azathioprine exposure may be associated with PTCH mutations, particularly in tumours from non-sun-exposed skin.

Skin cancer in organ transplant recipients--where do we stand today?

Skin cancers are the most frequent malignancies in organ transplant recipients (OTR), with 95% being nonmelanoma skin cancers (NMSC), especially squamous (SCC) and basal cell carcinomas. Most OTR with a first SCC subsequently develop multiple NMSC within 5 years, highlighting the concept of 'field cancerization', and are also at high risk for noncutaneous cancers. In order to reduce the tumor burden in these patients, their management requires an interdisciplinary approach including revision of immunosuppression, new dermatological treatments and adequate education about photoprotection in specialized dermatology clinics for OTR. Whereas surgery remains the gold-standard therapy for NMSC, noninvasive methods have shown promising results to treat superficial keratoses and subclinical lesions on large body areas. Although the threshold of skin cancer necessitating revision of immunosuppression is debated, this measure should be envisaged at the occurrence of the first SCC, or in case of multiple non-SCC NMSC. While the role of immunosuppressants in the occurrence of NMSC is widely recognized, the best immunosuppressive strategies remain to be defined. Presently, randomized prospective studies assess the burden of new skin tumors, as well as graft and patient survival, in patients with one or several NMSC after the introduction of mTOR (mammalian target of rapamycin) inhibitors.

Molecular and immunologic mechanisms of cancer pathogenesis in solid organ transplant recipients

The increased risk for the development of malignancies in transplant recipients is generally attributed to the debilitated immune system that results from chronic exposure to potent immunosuppressive drugs required to prevent graft rejection. While impaired immunity is clearly a key determinant, there is strong evidence that a constellation of other factors contribute to the pathogenesis of posttransplant cancers. In this article we discuss the underlying molecular and immunologic mechanisms that contribute to the development of de novo malignancies in transplant recipients, with particular focus on the two leading posttransplant neoplasia, skin cancer and Epstein-Barr virus (EBV)-associated posttransplant lymphoproliferative disorder (PTLD).

Risk of nonmelanoma skin cancer with azathioprine use

While often life-saving for many complex diseases, iatrogenic immunosuppression has been associated with life-threatening infections and malignancies. Among these malignancies is skin cancer. Skin cancer is the most common form of cancer in the United States; the nonmelanoma skin cancers have an annual incidence of greater than 1,000,000 people in the US. It is well documented that the risk of nonmelanoma skin cancer (NMSC) is increased in those who are immunosuppressed. While many articles have been published on skin cancer risk in organ transplant recipients, little has been written regarding the incidence of nonmelanoma skin cancer in inflammatory bowel disease. A review of the literature of patients who are immunosuppressed for autoimmune disorders, and specifically, inflammatory bowel diseases, is discussed, as well as clinical presentations and treatment options.

Mutagenic and cytotoxic properties of 6-thioguanine, S6-methylthioguanine, and guanine-S6-sulfonic acid

Thiopurine drugs, including 6-thioguanine ((S)G), 6-mercaptopurine, and azathioprine, are widely employed anticancer agents and immunosuppressants. The formation of (S)G nucleotides from the thiopurine prodrugs and their subsequent incorporation into nucleic acids are important for the drugs to exert their cytotoxic effects. (S)G in DNA can be methylated by S-adenosyl-l-methionine to give S(6)-methylthioguanine (S(6)mG) and oxidized by UVA light to render guanine-S(6)-sulfonic acid ((SO3H)G). Here, we constructed single-stranded M13 shuttle vectors carrying a (S)G, S(6)mG, or (SO3H)G at a unique site and allowed the vectors to propagate in wild-type and bypass polymerase-deficient Escherichia coli cells. Analysis of the replication products by using the competitive replication and adduct bypass and a slightly modified restriction enzyme digestion and post-labeling assays revealed that, although none of the three thionucleosides considerably blocked DNA replication in all transfected E. coli cells, both S(6)mG and (SO3H)G were highly mutagenic, which resulted in G-->A mutation at frequencies of 94 and 77%, respectively, in wild-type E. coli cells. Deficiency in bypass polymerases does not result in alteration of mutation frequencies of these two lesions. In contrast to what was found from previous steady-state kinetic analysis, our data demonstrated that 6-thioguanine is mutagenic, with G-->A transition occurring at a frequency of approximately 10%. The mutagenic properties of 6-thioguanine and its derivatives revealed in the present study offered important knowledge about the biological implications of these thionucleosides.

Molecular and cellular mechanisms of photocarcinogenesis

Skin cancer constitutes one of the most frequent types of malignancies in humans with rapidly increasing incidences almost worldwide. UVR is an essential risk factor for the development of premalignant as well as malignant skin lesions. In this context UVR can function as a complete carcinogen by inducing "UV signature" DNA mutations and by suppressing protective cellular antitumoral immune responses. UV-induced DNA damage can result in impaired cutaneous cell cycle control if cell cycle regulators, such as the p53 gene, are affected. Besides interfering with cell cycle control genes, UV-induced DNA damage can result in the release of interleukin-10, a cytokine with known immunosuppressive effects on T-helper(h)-1 cells. For the development of antitumoral immune responses antigen-specific activation of effector T cells by antigen-presenting cells (APC) is required. It was demonstrated that UVR can inhibit antigen presentation both directly and indirectly via the induction of suppressive cytokines. In addition, subsets of T cells are induced upon UVR, which can actively suppress major histocompatibility complex class I/II-restricted immune responses. These UV-induced regulatory T cells appear to belong to the CD4+CD25+ T cell lineage and can express the characteristic transcription factor Foxp3, which programs for suppressor function. In mice UV-induced regulatory T cells can control the development of UV-induced skin cancer. Peripheral regulatory T cells are maintained by the expression of B7 molecules and can be expanded by APC of the skin. Recently, epidermal expression of CD254 (RANKL) has been shown to connect UVR with the expansion of regulatory CD4+CD25+ T cells. In the following, new molecular and cellular mechanisms of UV-induced skin tumor development will be described and discussed.

Waveband and dose dependency of sunlight-induced immunomodulation and cellular changes

Both the UVB and UVA wavebands within sunlight are immunosuppressive. This article reviews the relationship between wavebands and dose in UV-induced immunosuppression mainly concentrating on responses in humans. It also contrasts the effects of UVB and UVA on cellular changes involved in immunosuppression. Over physiological sunlight doses to which humans can be exposed during routine daily living or recreational pursuits, both UVA and UVB suppress immunity. While there is a linear dose relationship with UVB commencing at doses less than half of what is required to cause sunburn, UVA has a bell-shaped dose response over the range to which humans can be realistically exposed. At doses too low for either waveband to be suppressive, interactions between UVA and UVB augment each other, enabling immunosuppression to occur. At doses beyond where UVA is immunosuppressive, it still contributes to sunlight-induced immunosuppression via this interaction with UVB. While there is little research comparing the mechanisms by which UVB, UVA and their interactions can cause immunosuppression, it is likely that different chromophores and early molecular events are involved. There is evidence that both wavebands disrupt antigen presentation and effect T cell responses. Different individuals are likely to have different immunomodulatory responses to sunlight.