Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.3.44 (P-glycoprotein)
 13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fatty acid ester surfactants, e.g., Cremophor EL and Solutol HS 15, that modulate multi-drug resistance (MDR) have been described; however, the drug potential of these preparations is unclear because of the molecular heterogeneity of these and other commercial surfactants. In previous experiments, an active but still polydisperse preparation, designated CRL 1337, was synthesized by reacting purified oleic acid with a 20-fold molar excess of ethylene oxide. We have subjected this preparation to chromatographic separation, and infrared analysis of the active fractions revealed a significant component of diester structures (fatty acid-PEG-fatty acid). A new generation of diester compounds has now been synthesized. Preparations comprised of 99% diesters were significantly more potent than monoester preparations for MDR modification activity in vitro. As previously determined for ethylene oxide-derived preparations similar to CRL 1337, the nature of the fatty acid domains proved to be important for activity, as was the relative length of the polyethylene glycol domain (which determines the hydrophile-lipophile balance). The ester linkage appeared unimportant since homologous diethers and diamides had activity similar to that of diesters. Stearic acid diester was 1.5- to 7-fold more potent than CRL 1337 when tested in cell proliferation inhibition assays. In light of these structural restrictions on drug potentiation, and since these surfactants are active at relatively low concentrations (below 1 microgram/ml), investigations of their mechanism of action were initiated by exploring specific interactions with P-glycoprotein. Both active and inactive diesters inhibited azidopine labeling of P-glycoprotein, suggesting that fatty acid-PEG diesters can interfere with P-glycoprotein substrate binding. Other attributes of these preparations must contribute to their ability to reverse MDR.
 ...
PMID:Reversal of multi-drug resistance in vitro by fatty acid-PEG-fatty acid diesters. 854

Amikacin is an aminoglycoside which is used in the treatment of infection from gram negative bacteria. Amikacin is also used synergistically with penicillin against gram positive cocci. Amikacin cannot be delivered orally probably due to efflux of drug by P-glycoprotein pump in the brush border of intestine. We studied the possibility of delivering amikacin orally in mice using a copolymer (CRL-1605) as a vehicle. This copolymer inhibits P-glycoprotein pump. Two different doses of amikacin were used (500 mg/kg and 100 mg/kg). The concentration of polymer used was 132 mg/kg. The liquid formulation was fed to mice by gavage and serum amikacin concentrations were estimated after one hour and two hours using fluorescence polarization immunoassay. We observed a two fold increase in serum amikacin concentration when amikacin was orally delivered in the presence of CRL-1605 compared to controls (amikacin alone). We conclude that gastrointestinal absorption of amikacin is significantly increased in the presence of CRL-1605 in mice.
 ...
PMID:Significantly improved oral uptake of amikacin in FVB mice in the presence of CRL-1605 copolymer. 1035 27

Tobramycin is an aminoglycoside used in the treatment of infection against gram-negative bacteria. Tobramycin cannot be delivered orally probably due to efflux of drug by a P-glycoprotein pump in the brush border of the small intestine. In this report we demonstrate oral delivery of tobramycin in FVB mice using CRL-1605 copolymer as a vehicle. This copolymer is known to inhibit P-glycoprotein. Two different doses of tobramycin (25 mg/kg and 200 mg/kg) were used. The concentration of CRL-1605 copolymer was 132 mg/kg. The liquid formulation was fed to mice by gavage and serum tobramycin concentrations were measured after one and two hours using the fluorescence polarization immunoassay. We observed significant increases in serum tobramycin concentrations when the drug was delivered orally with the copolymer compared to when the drug was delivered alone. We also performed a bioassay using Bacillus subtilis to confirm antibacterial effect of tobramycin in mice sera. This was to ensure that tobramycin did not undergo structural change during oral absorption when delivered in the copolymer vehicle. We observed minimal inhibition in growth of Bacillus subtilis in sera obtained from mice fed with tobramycin alone. In contrast, we observed almost complete inhibition of growth (most specimens) in sera obtained from mice fed with tobramycin in the presence of CRL-1605 copolymer. We conclude that tobramycin delivered orally in mice using copolymer 1605 is also bioactive.
 ...
PMID:Bioavailability of tobramycin after oral delivery in FVB mice using CRL-1605 copolymer, an inhibitor of P-glycoprotein. 1107 77