Claus J. Deglmann scite author profile

Proteins encoded by the human CYP3A genes metabolize every second drug currently in use. The activity of CYP3A gene products in the general population is highly variable and may affect the efficacy and safety of drugs metabolized by these enzymes. The mechanisms underlying this variability are poorly understood, but they include gene induction, protein inhibition and unknown genetic polymorphisms. To better understand the regulation of CYP3A expression and to provide a basis for a screen of genetic polymorphisms, we determined and analysed the sequence of the human CYP3A locus. The 231 kb locus sequence contains the three CYP3A genes described previously (CYP3A4, CYP3A5 and CYP3A7), three pseudogenes as well as a novel CYP3A gene termed CYP3A43. The gene encodes a putative protein with between 71.5% and 75.8% identity to the other CYP3A proteins. The highest expression level of CYP3A43 mRNA is observed in the prostate, an organ with extensive steroid metabolism. CYP3A43 is also expressed in several other tissues including liver, where it can be induced by rifampicin. CYP3A43 transcripts undergo extensive splicing. The identification of a new member of the CYP3A family and the characterization of the full CYP3A locus will aid efforts to identify the genetic variants underlying its variable expression. This, in turn, will lead to a better optimization of therapies involving the numerous substrates of CYP3A proteins.

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Cryopreserved porcine hepatocyte cultures

Koebe

Mühling

Deglmann

et al. 1999

Chemico-Biological Interactions

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Towards in-vitro prediction of an in-vivo cytostatic response of human tumor cells with a fast chemosensitivity assay

Metzger¹,

Deglmann

Hoerrlein³

et al. 2001

Toxicology

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Cadmium Telluride Quantum Dots as a Fluorescence Marker for Adipose Tissue Grafts

Deglmann

Błażków-Schmalzbauer

Moorkamp

et al. 2017

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Plastic and reconstructive surgeons increasingly apply adipose tissue grafting in a clinical setting, although the anticipation of graft survival is insecure. There are only few tools for tracking transplanted fat grafts in vivo. Murine adipose tissue clusters were incubated with negatively charged, mercaptoproprionic acid-coated cadmium telluride quantum dots (QDs) emitting in the dark red or near infrared. The intracellular localization of QDs was studied by confocal laser scanning microscopy. As a result, the adipose tissue clusters showed a proportional increase in fluorescence with increasing concentrations (1, 10, 16, 30, 50 nM) of cadmium telluride QDs. Laser scanning microscopy demonstrated a membrane bound localization of QDs. Vacuoles and cell nuclei of adipocytes were spared by QDs. We conclude that QDs were for the first time proven intracellular in adult adipocytes and demonstrate a strong fluorescence signal. Therefore, they may play an essential role for in vivo tracking of fat grafts.

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Technique and proof of patency of microsurgical lympho‐lymphonodular anastomoses: A study in the rat model

et al. 2009

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Claus J. Deglmann

Genomic organization of the human CYP3A locus: identification of a new, inducible CYP3A gene

Cryopreserved porcine hepatocyte cultures

Towards in-vitro prediction of an in-vivo cytostatic response of human tumor cells with a fast chemosensitivity assay

Cadmium Telluride Quantum Dots as a Fluorescence Marker for Adipose Tissue Grafts

Technique and proof of patency of microsurgical lympho‐lymphonodular anastomoses: A study in the rat model

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