Development and validation of a rapid turbidimetric assay to determine the potency of norfloxacin in tablets

, from which we calculated the intrinsic enthalpic, entropic, and free energy terms for the rate-limiting transition states. Linearity of the Arrhenius plots indicated that the same rate-limiting step was being measured over the temperature range employed. Using linear free energy analysis, two distinct transition states were found: one associated with uncoupled basal activity and the other with coupled drug transport activity. We concluded that basal ATPase activity associated with Pgp is not a consequence of transport of an endogenous lipid or other endogenous substrates. Rather, it is an intrinsic mechanistic property of the enzyme. We also found that rapidly transported substrates bound tighter to the transition state and required fewer conformational alterations by the enzyme to achieve the coupling transition state. The overall rate-limiting step of Pgp during transport is a carrier reorientation step.

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Improved Energy Coupling of Human P-glycoprotein by the Glycine 185 to Valine Mutation

Omote

Figler

Polar

et al. 2004

Biochemistry

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A glycine 185 to valine mutation of human P-glycoprotein (ABCB1, MDR1) has been previously isolated from high colchicine resistance cell lines. We have employed purified and reconstituted P-glycoproteins expressed in Saccharomyces cerevisiae [Figler et al. (2000) Arch. Biochem. Biophys. 376, 34-46] and devised a set of thermodynamic analyses to reveal the mechanism of improved resistance. Purified G185V enzyme shows altered basal ATPase activity but a strong stimulation of colchicine- and etoposide-dependent activities, suggesting a tight regulation of ATPase activity by these drugs. The mutant enzyme has a higher apparent K(m) for colchicine and a lower K(m) for etoposide than that of wild type. Kinetic constants for other transported drugs were not significantly modified by this mutation. Systematic thermodynamic analyses indicate that the G185V enzyme has modified thermodynamic properties of colchicine- and etoposide-dependent activities. To improve the rate of colchicine or etoposide transport, the G185V enzyme has lowered the Arrhenius activation energy of the transport rate-limiting step. The high transition state energies of wild-type P-glycoprotein, when transporting etoposide or colchicine, increase the probability of nonproductive degradation of the transition state without transport. G185V P-glycoprotein transports etoposide or colchicine in an energetically more efficient way with decreased enthalpic and entropic components of the activation energy. Our new data fully reconcile the apparently conflicting results of previous studies. EPR analysis of the spin-labeled G185C enzyme in a cysteine-less background and kinetic parameters of the G185C enzyme indicate that position 185 is surrounded by other residues and is volume sensitive. These results and atomic detail structural modeling suggest that residue 185 is a pivotal point in transmitting conformational changes between the catalytic sites and the colchicine drug binding domain. Replacement of this residue with a bulky valine alters this communication and results in more efficient transport of etoposide or colchicine.

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Conformation of the γ Subunit at the γ−ε−c Interface in the Complete Escherichia coli F₁-ATPase Complex by Site-Directed Spin Labeling

et al. 2001

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Structure-function relationships of the gamma-epsilon-c subunit interface of F(O)F(1) ATP synthase, a region of subunit interactions important in coupling between catalysis and transport, were investigated by site-directed spin labeling and electron paramagnetic resonance (EPR) spectroscopy. The EPR line widths and collision accessibilities of 18 spin-labeled, unique cysteine F(1) mutants from gammaLeu198 to gammaLeu215 indicate an alternating pattern in the mobility and accessibility parameters for positions gamma201-209, which is reminiscent of a beta-strand. Labels at positions gamma204 and gamma210 show tertiary contact upon F(1) binding to F(O) and gammaD210C has reduced coupling efficiency. gammaE208C could not be spin labeled, but the uncoupling effects of gammaE208K are suppressed by second-site mutations in the polar loop of subunit c [Ketchum, C. J. and Nakamoto, R. K. (1998) J. Biol. Chem. 273, 22292-22297]. The restricted mobility and accessibility of spin labels in the odd-numbered positions between gamma201 and gamma207 plus the 2-4-fold higher values in k(cat) for ATP hydrolysis of these same mutant F(1) indicate that the interactions of these residues with the epsilon subunit mediate its inhibitory activity. Disrupted interactions with epsilon subunit also cause reduced coupling efficiency. We propose a model for the gamma-epsilon-c interface of Escherichia coli F(O)F(1) ATP synthase in which side chains from the odd-numbered residues of the gammaLys201-gammaTyr207 beta-strand directly and functionally interact with the epsilon subunit, while the even-numbered, acidic residues gammaAsp204, gammaGlu208, and gammaAsp210 interact with the F(O) sector, probably with subunit c. gamma Subunit interactions with both subunits in this region are important for coupling efficiency.

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Effect of the vitamin D3 analog ILX 23-7553 on apoptosis and sensitivity to fractionated radiation in breast tumor cells and normal human fibroblasts

Polar

Gennings

Park

et al. 2003

Cancer Chemother Pharmacol

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Mark K. Polar

Transition State Analysis of the Coupling of Drug Transport to ATP Hydrolysis by P-glycoprotein

Improved Energy Coupling of Human P-glycoprotein by the Glycine 185 to Valine Mutation

Conformation of the γ Subunit at the γ−ε−c Interface in the Complete Escherichia coli F₁-ATPase Complex by Site-Directed Spin Labeling

Effect of the vitamin D3 analog ILX 23-7553 on apoptosis and sensitivity to fractionated radiation in breast tumor cells and normal human fibroblasts

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Mark K. Polar

Transition State Analysis of the Coupling of Drug Transport to ATP Hydrolysis by P-glycoprotein

Improved Energy Coupling of Human P-glycoprotein by the Glycine 185 to Valine Mutation

Conformation of the γ Subunit at the γ−ε−c Interface in the Complete Escherichia coli F1-ATPase Complex by Site-Directed Spin Labeling

Effect of the vitamin D3 analog ILX 23-7553 on apoptosis and sensitivity to fractionated radiation in breast tumor cells and normal human fibroblasts

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Product

Resources

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Conformation of the γ Subunit at the γ−ε−c Interface in the Complete Escherichia coli F₁-ATPase Complex by Site-Directed Spin Labeling