Browsing by Author "Boeckmann, Lars"

Cyclosporin A (CsA) inhibits nucleotide excision repair (NER) in human cells, a process that contributes to the skin cancer proneness in organ transplant patients. We investigated the mechanisms of CsA-induced NER reduction by assessing all xeroderma pigmentosum (XP) genes (XPA-XPG). Western blot analyses revealed that XPA and XPG protein expression was reduced in normal human GM00637 fibroblasts exposed to 0.1 and 0.5 mu m CsA. Interestingly, the CsA treatment reduced XPG, but not XPA, mRNA expression. Calcineurin knockdown in GM00637 fibroblasts using RNAi led to similar results suggesting that calcineurin-dependent signalling is involved in XPA and XPG protein regulation. CsA-induced reduction in NER could be complemented by the overexpression of either XPA or XPG protein. Likewise, XPA-deficient fibroblasts with stable overexpression of XPA (XP2OS-pCAH19WS) did not show the inhibitory effect of CsA on NER. In contrast, XPC-deficient fibroblasts overexpressing XPC showed CsA-reduced NER. Our data indicate that the CsA-induced inhibition of NER is a result of downregulation of XPA and XPG protein in a calcineurin-dependent manner.

Unlike other immunosuppressive drugs including everolimus, cyclosporin A causes a dramatic increase of UV-induced skin cancer, a feature that is reminiscent of xeroderma pigmentosum (XP), where defective nucleotide excision repair (NER) of UV-induced DNA damage results in cutaneous carcinogenesis. The molecular basis of the clinically important differential activities of cyclosporin A and everolimus is still unclear. We measured post-UV cell survival of cyclosporin A- and everolimus-treated human fibroblasts and lymphoblasts using a cell proliferation assay (MTT). The cellular NER capacity was assessed by host cell reactivation. Using an ELISA and specific antibodies, cyclobutane pyrimidine and pyrimidine-6,4-pyrimidone photoproduct removal from the cellular genome was measured. The effect of calcineurin on NER was investigated using a calcineurin A expression vector and specific RNAi. Cyclosporin A led to a dose dependent decrease in post-UV cell survival, inhibited NER and blocked photoproduct removal. In contrast, none of these effects where seen in everolimus-treated cells. Overexpression of calcineurin A resulted in increased NER and complemented the Cyclosporin A-induced reduction of NER. Downregulation of calcineurin using RNAi inhibited NER comparable to cyclosporin A-treatment. We conclude that cyclosporin A, but not everolimus, leads to an increased skin cancer risk via a calcineurin signalling-dependent impairment of NER.

Objectives The efficacy of temozolomide (TMZ) or dacarbazine (DTIC) in melanoma treatment depends on low O-6-methylguanine-DNA-methyltransferase (MGMT) repair and on high mismatch repair. The aim of this study was to identify individual host markers for hematologic side effects and the treatment efficacy of TMZ or DTIC in melanoma treatment. Methods Fifty-one Caucasian patients with metastasized melanoma were recruited. In each patient, the mRNA expression of MGMT and two essential mismatch repair genes, MLH1 and MSH2, was measured in peripheral blood. The coding gene regions, including splice sites, were sequenced to identify genetic variants, and the promoter methylation status of the genes was determined. Results Both constitutively low and high mRNA expression of MGMT, MLH1, and MSH2 were significantly associated with reduced hematologic side effects (P=0.008-0.020), but did not correlate with treatment efficacy. We identified five variants in the MGMT gene, 13 variants in MLH1, and seven variants in MSH2, including five novel genetic variants in MLH1. Variations of the hosts' gene expression of MGMT, MLH1, and MSH2 did not result from promoter methylation. Of note, one variant in MSH2 (rs2303428) was associated with increased hematologic side effects and showed a tendency for better treatment response. Conclusion Our results indicate that either low or high host expression of MGMT, MLH1, and MSH2 may serve as a marker for reduced hematologic side effects of TMZ or DTIC, but not for treatment efficacy in melanoma. The genetic variant rs2303428 (MSH2) might serve as a predictive marker for hematologic side effects and treatment response. Pharmacogenetics and Genomics 19:760-769 (C) 2009 Wolters Kluwer Health

Vaccination protocols that utilize dendritic cells (DCs) to elicit therapeutic immunity against tumors are the subject of intense research. Given that the capacity of DCs to cross-present antigens is physiologically low, there is considerable interest to develop strategies that enhance that pathway. In order to best exploit the enhanced cross-presentation of antigens bound to heat shock protein 70 (HSP70), we analysed melanoma cell preparations for their HSP70 expression. Western blotting revealed strong upregulation of HSP70 after heat-killing in contrast to UV-B irradiation. When the uptake of heat-killed necrotic cells by DCs at various levels of maturation was assessed, 61 +/- 7% of immature DCs (iDCs) internalized fluorescence-labelled necrotic material. Apoptotic material from UV-B-irradiated cells was internalized by only 48 +/- 5% of iDCs. Maturation-inducing cytokines did not affect the uptake when added simultaneously with the tumor cell preparations. Loading DCs with heat-necrotic or apoptotic melanoma cells slightly reduced CD83 expression while leaving CD208 (DC-LAMP) expression unchanged. As determined by IFN-gamma-detecting enzyme-linked-immunospot assays, iDCs loaded with heat-killed melanoma cells activated autologous T cells most effectively when used without any further maturation, whereas DCs loaded with apoptotic material required maturation. In conclusion, HSP70-expressing melanoma cells could be generated by heat-killing. Loading iDCs with heat-killed melanoma cells resulted in a superior priming of autologous T cells in vitro.

UV-induced skin cancers comprise a major problem in organ transplant recipients (OTRs). Cyclosporin A, a calcineurin inhibitor, is used as a standard immunosuppressant and clearly increases the skin cancer risk. Azathioprine does not appear to result in such an increase in skin cancer risk, and mTOR inhibitors are associated with an even lesser skin cancer risk. The underlying molecular mechanisms of these clinically important differences among immunosuppressants are still unclear and may relate to other than immunological effects. Insights may be gained by the multistep skin cancer theory and xeroderma pigmentosum, where defective nucleotide excision repair (NER) results in a cellular mutator phenotype and cutaneous carcinogenesis. This viewpoint assay summarizes current knowledge about the influence of the most commonly used immunosuppressive drugs in OTRs on DNA repair. Calcineurin inhibition results in a 200-fold increased skin cancer risk compared with the normal population and inhibits NER. The skin cancer risk under azathioprine is threefold less compared with calcineurin inhibitors, which may relate to inhibition of only the last step of NER, i.e. gap filling. mTOR inhibitors do not reduce NER in the global genome and can inhibit the growth of already initiated tumors, which may account for the markedly reduced skin cancer risk compared with calcineurin inhibitors. We conclude that OTRs may benefit from treatment regimens other than calcineurin inhibitors and speculate that a targeted modulation of calcineurin-dependent signalling may prevent UV-induced tumor formation by enhancing NER not only in OTRs but also in the general population, at least in part.

We examined the clinical, molecular and genetic features of a 16-year-old boy (XP2GO) with xeroderma pigmentosum (XP) and progressive neurological symptoms. The parents are not consanguineous. Increased sun sensitivity led to the diagnosis of XP at 2 years of age and a strict UV protection scheme was implemented. Besides recurrent conjunctivitis and bilateral pterygium, only mild freckling was present on his lips. He shows absent deep tendon reflexes, progressive sensorineural deafness and progressive mental retardation. MRI shows diffuse frontal cerebral atrophy and dilated ventricles. Symptoms of trichothiodystrophy (brittle hair with a tiger-tail banding pattern on polarized microscopy) or Cockayne syndrome (cachectic dwarfism, cataracts, pigmentary retinopathy and spasticity) were absent. XP2GO fibroblasts showed reduced post-UV cell survival (D(37) = 3.8 J/m(2)), reduced nucleotide excision repair, reduced expression of XPD mRNA and an undetectable level of XPD protein. Mutational analysis of the XPD gene in XP2GO revealed two different mutations: a common p.Arg683Trp amino acid change (c.2047C > T) known to be associated with XP and a novel frameshift mutation c.2009delG (p.Gly670Alafs 39). The latter mutation potentially behaves as a null allele. While not preventing neurological degeneration, early diagnosis and rigorous sun protection can result in minimal skin disease without cancer in XP patients.

The efficacy of temozolomide in melanoma treatment is low (response rate < 20%) and may depend on the activity of O-6-methylguanine DNA methyltransferase (MGMT) and mismatch repair. We identified melanoma cell lines with different sensitivities to single versus prolonged clinical dosing regimens of temozolomide treatment and assessed a variety of potential resistance mechanisms using this model. We measured mRNA expression and promoter methylation of MGMT and essential mismatch repair genes (MLH1, MSH2). Cell cycle distribution, apoptosis/necrosis induction, O-6-methylguanine-adduct formation, and ABCB1 gene expression were assessed. We found that three cell lines, MelA, MelB, and MelC, were more sensitive to a single dose regimen than to a prolonged regimen, which would be expected to exhibit higher cytotoxicity. KAII and LIBR cell sensitivity was higher with regard to the prolonged treatment regimen, as expected. Only MelC expressed MGMT. Gene expression correlated well with promoter methylation. Temozolomide exposure did not alter mRNA expression. Different sensitivities to temozolomide were caused neither by delayed apoptosis induction due to early cell cycle arrest nor by O-6-methylguanine-adduct formation or efflux transporter expression. MelC was the most resistant cell line with rapid elimination of O-6-methylguanine adducts. This was in good agreement with its MGMT expression. The sensitive cell lines KAII and LIBR accumulated O-6-methylguanine adducts after a second treatment cycle with temozolomide in contrast with the other three cell lines. We conclude that MGMT expression and DNA adduct accumulation are relevant factors in temozolomide chemosensitivity. Considering individualized temozolomide treatment regimens either by quantification of DNA adducts or by chemosensitivity testing seems worthwhile clinically. Melanoma Res 21:206-216 (C) 2011 Wolters Kluwer Health vertical bar Lippincott Williams & Wilkins.