Pimecrolimus Identifies a Common Genomic Anti-inflammatory Profile, is Clinically Highly Effective in Psoriasis and is Well Tolerated

Rappersberger, Klemens; Komar, Michael; Richter, Leo; Wolff, Klaus; Ebelin, M.; Scott, Graham; Burtin, P; Greig, Gerard; Kehren, Jeanne; Chibout, Salah-Dine; André, Carl; Holter, Wolfgang; Oberbauer, Rainer; Stuetz, Anton

doi:10.1046/j.1523-1747.2002.00694.x

Cited by 114 publications

(108 citation statements)

References 27 publications

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“…Gene expression profiling of blood cells of individuals during therapy identified a common genomic profile with a downregulation of genes associated with the known target pathway of pimecrolimus, inflammation, proliferation, chemotaxis, and migration of leukocytes, but no changes in gene expression that might be linked to treatment-related immunosuppression and toxicity. This expression profile was highly consistent with the observed clinical efficacy and tolerability of pimecrolimus, allowing the authors to conclude that pimecrilimus taken orally is highly effective on patients with psoriasis and well tolerated (60). In addition, the gene expression findings from this study suggest that pimecrolimus has unique anti-inflammatory qualities that may be effective for other inflammatory skin diseases.…”

Section: Toxicogenomics Applicationssupporting

confidence: 81%

“…Due to the novelty of toxicogenomics as a tool in drug development, to date, there are few published studies showing the applicability of gene expression profiling in clinical trials. Recently, however, gene expression profiling was incorporated into a proof of concept phase I/II study in which the efficacy, safety and tolerability of orally administered pimecrolimus was evaluated in psoriasis patients (60). Gene expression profiling of blood cells of individuals during therapy identified a common genomic profile with a downregulation of genes associated with the known target pathway of pimecrolimus, inflammation, proliferation, chemotaxis, and migration of leukocytes, but no changes in gene expression that might be linked to treatment-related immunosuppression and toxicity.…”

Section: Toxicogenomics Applicationsmentioning

confidence: 99%

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Toxicogenomics in Drug Development

et al. 2003

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Toxicogenomics represents the merging of toxicology with technologies that have been developed, together with bioinformatics, to identify and quantify global gene expression changes. It represents a new paradigm in drug development and risk assessment, which promises to generate a wealth of information towards an increased understanding of the molecular mechanisms that lead to drug toxicity and efficacy, and of DNA polymorphisms responsible for individual susceptibility to toxicity. Gene expression profiling, through the use of DNA microarray and proteomic technologies will aid in establishing links between expression profiles, mode of action and traditional toxic endpoints. Such patterns of gene expression, or 'molecular fingerprints' could be used as diagnostic or predictive markers of exposure, that is characteristic of a specific mechanism of induction of that toxic or efficacious effect. It is anticipated that toxicogenomics will be increasingly integrated into all phases of the drug development process particularly in mechanistic and predictive toxicology, and biomarker discovery. This review provides an overview of the expression profiling technologies applied in toxicogenomics, and discusses the promises as well as the future challenges of applying this discipline to the drug development process.Keywords. DNA microarrays; PCR; bioinformatics; gene expression profiling; genomics; proteomics; biomarkers; toxicology. INTRODUCTIONThe evolution of new innovative technologies in parallel with recent dramatic increases in genomic knowledge is anticipated to revolutionize toxicological studies by providing significant advances in the understanding and prediction of the toxicity and efficacy of new drugs (38, 39, 52). In classic toxicology, potential adverse effects resulting from drug exposure are evaluated using endpoints such as body and organ weight changes, biochemical and histopathological observations. Such observations, however, do not provide information about a drug's mode of action. To better evaluate the adverse effects associated with drug exposure, one needs to understand the drug's specific mode of action. Drugs are expected to induce a multitude of complex molecular perturbations in a wide variety of pathways, involving differential gene expression at the transcript and functional protein level, leading to efficacious and/or pathological outcomes. These changes in gene expression are often more sensitive and characteristic of the toxic response or process than currently employed endpoints of pathology, and have the potential to indicate toxicity already at lower doses or at earlier time points.Technological advances derived from genomic research have made it possible to follow transcriptional and translational events of genes and even the entire genome. The application of genome-wide expression profiling technologies to toxicology has created a new subdiscipline coined 'toxicogenomics,' which has the potential to provide a more comprehensive understanding of the mechanisms of pharmacology ...

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Section: Toxicogenomics Applicationssupporting

confidence: 81%

Section: Toxicogenomics Applicationsmentioning

confidence: 99%

Toxicogenomics in Drug Development

et al. 2003

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“…30 Overall, the results of pharmacokinetic studies among infants indicate that treatment with 1% pimecrolimus cream leads to minimal systemic exposure, even for patients with extensive disease, and that pimecrolimus blood concentrations remain low during treatment for up to 1 year. The highest concentration measured (2.6 ng/mL) was well below the mean peak concentration (54 ng/mL) detected among adult psoriatic patients treated for 28 days with 30 mg of pimecrolimus administered orally twice daily, 46 a dose that was well tolerated. 46 In line with these findings, no clinically relevant systemic adverse events were reported for the infants enrolled in the pharmacokinetic studies.…”

mentioning

confidence: 66%

“…The highest concentration measured (2.6 ng/mL) was well below the mean peak concentration (54 ng/mL) detected among adult psoriatic patients treated for 28 days with 30 mg of pimecrolimus administered orally twice daily, 46 a dose that was well tolerated. 46 In line with these findings, no clinically relevant systemic adverse events were reported for the infants enrolled in the pharmacokinetic studies. 30,44 …”

mentioning

confidence: 66%

“…Among human subjects, no manifestations of toxicity were observed among adult psoriatic patients treated with orally administered pimecrolimus for up to 12 weeks, at doses associated with mean peak blood concentrations of 54 ng/mL. [42][43][44][45][46] Systemic exposure to pimecrolimus during treatment with 1% pimecrolimus cream was assessed in pharmacokinetic studies by measuring pimecrolimus blood concentrations at various times during the treatment period. A summary of the pharmacokinetic studies completed among pediatric patients with AD is reported in Table 1.…”

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Safety and Tolerability of 1% Pimecrolimus Cream Among Infants: Experience With 1133 Patients Treated for Up to 2 Years

et al. 2006

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Pimecrolimus is a calcineurin inhibitor developed for the topical treatment of atopic dermatitis. During the clinical development of 1% pimecrolimus cream, 1133 patients 3 to 23 months of age with mild to severe atopic dermatitis were treated for up to 2 years. The objective of this review is to discuss the safety and tolerability of 1% pimecrolimus cream among infants, on the basis of the combined results from all studies (4 pharmacokinetic studies and 6 clinical trials) conducted among these patients. Pimecrolimus blood concentrations measured for 35 patients were consistently low (Յ1 ng/mL in Ͼ80% of samples), irrespective of the disease severity and extent, and remained low during intermittent treatment for up to 1 year. The level of systemic exposure to pimecrolimus among infants was comparable to that observed for older pediatric patients enrolled in the same studies and treated in the same way with 1% pimecrolimus cream, which indicated that young pediatric patients are not at higher risk of significant percutaneous absorption of topically applied pimecrolimus, despite their large skin surface area/body mass ratio. The 6 clinical trials included a total of 1098 infants, who were treated for periods ranging from 4 weeks to 2 years. Most of these patients (60%) had moderate to severe disease at baseline. The most frequently reported adverse events were common childhood disorders such as nasopharyngitis, pyrexia, upper respiratory tract infections, ear infections, and bronchitis. During the double-blind (DB) studies or DB phases of studies, the incidence rates for the most frequently reported adverse events were similar for patients who received 1% pimecrolimus cream and patients who received the vehicle, except for the incidence of teething, which was higher among the pimecrolimus-treated infants (relative risk: 2.02; 95% confidence interval: 1.32-3.27). Treatment with 1% pimecrolimus cream was not associated with an increase in the overall incidence of nonskin infections, compared with the vehicle (relative risk: 1.015; 95% confidence interval: 0.88 -1.18). The incidence density (ID) rates for total bacterial, fungal, parasitic, and viral skin infections during the DB studies or DB phases of www.pediatrics.org/cgi

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