We have resolved multiple forms of cyclic nucleotide phosphodiesterase (PDE) in whole rat ventricle and in isolated rat ventricular myocytes by use of anion-exchange high-performance liquid chromatography. One major form, the soluble calmodulin-stimulated PDE, is apparently absent from isolated myocytes. We discern four peaks of PDE activity (designated A-D in the order of their elution) in a soluble fraction obtained from whole rat ventricle. Peak A is stimulated twofold to threefold by the addition of calcium and calmodulin (Ca2+/CalM) and preferentially hydrolyzes cGMP over cAMP (in the presence of Ca2+/CalM, KmcGMP = 1.5 microM, KmcAMP = 17 microM). Peak B has similar affinities for both cAMP and cGMP (half-maximum velocities achieved at 30 microM substrate) and demonstrates positive cooperativity with cAMP but not with cGMP. The hydrolysis of cAMP by peak B is stimulated by cGMP at substrate concentrations up to 20 microM; the maximum effect is seen at 1 microM cAMP (25-fold stimulation by 3 microM cGMP). This pattern of stimulation by cGMP results from two kinetic changes: an increase in the enzyme's apparent affinity for cAMP (apparent KmcAMP decreases from 33 to 11 microM) and the abolition of positive cooperativity. Peaks C and D selectively hydrolyze cAMP, are not stimulated by Ca2+/CalM or cGMP, and differ in their affinities for substrate (peak C, apparent KmcAMP = 7.2 microM; peak D, 0.44 microM). In addition, peak D is much more sensitive than peak C to inhibition by cGMP, cilostamide, rolipram, and milrinone. Ro20-1724 is a slightly more potent inhibitor of peak D than of peak C. Peak D appears to consist of two different enzyme activities, one inhibited by cGMP, cilostamide, and cardiotonic drugs and the other potently inhibited by rolipram. In contrast to whole ventricle, the soluble fraction of isolated rat ventricular myocytes lacks peak A. Three major peaks in myocytes are entirely analogous to peaks B, C, and D of whole ventricle in terms of the NaCl concentration at which they elute, substrate affinities, and stimulation or inhibition by various drugs and effectors. We conclude that the soluble Ca2+/CalM-stimulated PDE in whole rat ventricle is present in nonmyocyte cells.
Until now little is known about the functional integrity of human hepatocytes after hypothermic storage. In order to address this limitation, we evaluated several commercially available hypothermic preservation media for their abilities to protect freshly isolated hepatocytes during prolonged cold storage. Human hepatocytes were isolated from non-transplantable/rejected donor livers and resuspended in ice-cold University of Wisconsin solution (UW), HypoThermosol-Base (HTS-Base), or HypoThermosol-FRS (HTS-FRS) with or without the addition of fetal bovine serum. Cells were stored at 4 degrees C for 24-72 h, and evaluated for hepatocyte viability (trypan blue exclusion, or labeling with fluorochromes), cell attachment, and function. The energy status of hepatocytes was evaluated by measurement of intracellular adenosine 5'-triphosphate. To determine whether the test cells expressed metabolic functions of freshly isolated cells, the activities of major phase I (cytochromes P450, FMO) and phase II (UGT, ST) drug-metabolizing enzymes were examined. Although hepatocytes are shown to be satisfactory after 24 h storage in all of the tested solutions, the cell viability, energy status, and xenobiotic metabolism following cold preservation in HTS-FRS was consistently and, in some cases, markedly higher when compared with other systems. The same metabolites for each of the tested substrates were detected in all groups of cells. Moreover, the use of HTS-FRS eliminates the need for serum in preservation solutions. HTS-FRS represents an improved solution compared to HTS-Base and UW for extending the shipping/storage time of human hepatocytes.
The transformation of 3-bromo-1,6-naphthyridin-2(1H)-ones 8 to thiazolo[4,5-b][1,6]naphthyridin-2(1H)-ones 12 resulted in a 2-9-fold increase in cAMP phosphodiesterase (PDE) III inhibitory potency. Unlike the secondary binding sites on the cAMP PDE III isozyme which interact with the methyl group of milrinone (2) and CI-930 (4), the site which interacts with the 5-substituents of 1,6-naphthyridin-2(1H)-ones and the 8-substituents of thiazolo[4,5-b][1,6]naphthyridin-2(1H)-ones 12 is able to accommodate a diverse group of substituents which have different steric and electronic requirements.
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