ABSTRACT:Intestinal ATP binding cassette (ABC) transporters may affect the bioavailability and effectiveness of orally administered drugs. Available studies on regional expression of intestinal efflux transporters were done with selected intestinal segments only and inconsistent with regard to the variability of transporter expression and the course of expression along the intestine. For an evaluation of the consistency between mRNA and protein expression, relative expression levels of P-glycoprotein (Pgp; ABCB1), breast cancer resistance protein (Bcrp; ABCG2), and multidrug resistance-associated protein (Mrp) 2 (ABCC2) were determined using quantitative real-timepolymerase chain reaction and Western blot in rat intestinal segments from duodenum, jejunum, ileum, and colon. In addition, the protein expression of Pgp, Bcrp, and Mrp2 from the entire rat intestine was studied by a complete 3-cm segmentation to evaluate the predictive power of expression analyses from selected intestinal segments. Pgp showed an increase from proximal to distal regions, Bcrp showed an arcuate pattern with highest expression toward the end of small intestine, and Mrp2 decreased along the intestinal axis from proximal to distal parts. No gender specific differences could be observed. Regarding the concordance of mRNA and protein expression, Pgp and Bcrp mRNA samples allow good estimations about the corresponding protein expression (for Pgp limited to the mdr1a isoform), but for Mrp2, pronounced deviation could be observed. All transporters showed considerable intra-and interindividual variability, especially at the protein level, making it problematic to take transporter expressions of small sections exemplary for general assumptions on intestinal abundances.
ABSTRACT:Intestinal cytochrome P450 (P450) proteins play an important role in the biotransformation of drugs and may significantly limit their oral absorption and bioavailability. Therefore, we have investigated the amount of P450 proteins via Western blot analysis along the entire intestine of male and female rats. Despite of the use of an inbred rat strain, controlled housing conditions for the animals, and a timed sample preparation, high interindividual differences in the expression of all P450 proteins was observed. CYP3A (135-243 fmol/mg of protein) and CYP2B1 (107-645 fmol/mg of protein) were the most abundant P450 isoforms in the duodenum and jejunum of rat intestine but were present in neither the ileum nor the colon. Compared with CYP2B1 and CYP3A, CYP2D1 (25-71 fmol/mg of protein) and CYP2C6 (3-10 fmol/mg of protein) were only expressed in minor amounts. CYP2C11 could not be identified in the entire rat intestine. In conclusion, this is the first systematic evaluation and quantification of the expression of P450 proteins along the entire length of the intestine in both male and female rats. These data will provide a basis for a better understanding of the extent of intestinal metabolism along the gastrointestinal tract.Absorption through the gut is a key step in the oral delivery of drugs. The main interface between gut lumen and the bloodstream is an epithelial cell layer consisting of polarized enterocytes controlling the passage of exogenous substances into the portal circulation. Enterocytes have a variety of structural features, including tight junctions reducing paracellular permeability, numerous drug transporters, and a set of metabolic enzymes that may all affect the entry of drugs into the body. The extent to which a drug is absorbed also depends on the intrinsic properties of the compound such as solubility, permeability, efflux or uptake transport properties, and susceptibility to metabolic degradation (Martinez and Amidon, 2002;Benet et al., 2004).Although the liver is known as the major site of first-pass extraction, recent studies have indicated that the small intestine also contributes significantly to the first-pass metabolism of many drugs, e.g., cyclosporine (Wu et al., 1995), nifedipine (Iwao et al., 2002), midazolam (Paine et al., 1996, and diltiazem (Iwao et al., 2004). It is known that several uptake and efflux transporter and P450 isoforms are expressed in the human and rat intestine (van de Kerkhof et al., 2007). If a drug is a substrate of efflux transporters, it may enter and exit the enterocytes several times, and, with each cycle, small quantities may be metabolized by cytochrome P450 (P450) enzymes localized in the endoplasmic reticulum. The P450 enzymes belong to a superfamily of heme proteins that show a broad substrate specificity, with substrates ranging in size from ethylene (M r 28) to cyclosporine (M r 1201) (Isin and Guengerich, 2007). Although the liver is regarded as the main organ of drug metabolism, P450 proteins are also expressed in other tissues, e.g., kidn...
Inhibiting the interaction of menin with the histone methyltransferase MLL1 (KMT2A) has recently emerged as a novel therapeutic strategy. Beneficial therapeutic effects have been postulated in leukemia, prostate, breast, liver and in synovial sarcoma models. In those indications, MLL1 recruitment by menin was described to critically regulate the expression of disease associated genes. However, most findings so far rely on single study reports. Here we independently evaluated the pathogenic functions of the menin-MLL interaction in a large set of different cancer models with a potent and selective probe inhibitor BAY-155. We characterized the inhibition of the menin-MLL interaction for anti-proliferation, gene transcription effects, and for efficacy in several in vivo xenografted tumor models. We found a specific therapeutic activity of BAY-155 primarily in AML/ALL models. In solid tumors, we observed anti-proliferative effects of BAY-155 in a surprisingly limited fraction of cell line models. These findings were further validated in vivo. Overall, our study using a novel, highly selective and potent inhibitor, shows that the menin-MLL interaction is not essential for the survival of most solid cancer models. We can confirm that disrupting the menin-MLL complex has a selective therapeutic benefit in MLL-fused leukemia. In solid cancers, effects are restricted to single models and more limited than previously claimed.
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