Adipocyte conversion of cultured 3T3-L1 preadipocytes by bezafibrate

Transient exposure of cultured 3T3-L1 preadipocytes to hypolipidemic fibrate drugs results in extensive adipocyte conversion. Adipocyte conversion in culture was characterized by an increase in neutral lipids content and in adipocyte marker enzymes like hormone-sensitive lipase and glycerol-3-phosphate dehydrogenase. Adipocyte conversion in culture was also accompanied by induction of cyanide-insensitive peroxisomal palmitoyl-CoA oxidation. The conversion pattern exerted by fibrate drugs in 3T3-L1 cells was similar to that reported previously for primary cultured epididymal preadipocytes (R. Brandes, R. Arad and J. Bar-Tana, Biochim. Biophys. Acta, 877, 314-321 (1986)), and seems to refute clonal selection in the conversion sequel initiated by fibrate drugs in primary cultured preadipocytes.     

Monitoring and control of biotechnological production processes by Bio-FET-FIA-sensors

Summary Single and multisensor field effect transistors (FET) with a pH-sensitive Si/SiO₂/Si₃N₄/Ta₂O₅-gate and reference electrode (for single sensor) were developed and used for manufacturing the following biological (Bio)-FETs: for glucose analysis, glucose oxidase-FET (GOD-FET); for urea analysis, urease-FET; and for cephalosporin C analysis, cephalosporinase-FET. The GOD-FETs were integrated into flow injection analysis (FIA) of the Eppendorf variables analyser (EVA) system and used for monitoring the glucose concentration in microbial cultivation and production processes with recombinant Escherichia coli K12 MF, recombinant E. coli JM103, Saccharomyces cerevisiae H620, and Candida boidinii. Urease-FET-FIA was used to monitor the urea concentration in a simulated cultivation of Cephalosporium acremonium and urease-FET-FIA and GOD-FET-FIA for the monitoring of urea and glucose concentrations in simulated S. cerevisiae cultivations.     

A 2H-NMR study of the A-DNA conformation in films of oriented Na-DNA: evidence of a disordered B-DNA contribution

Solid-state ²H-nmr spectra have been obtained from folded films of oriented Li- and Na-DNA molecules with the purine bases selectively deuterium labeled at the 8 position. From line shape simulations, we find that the Na-DNA sample at 75% relative humidity (rh) contains both A-DNA and surprisingly large amounts of B-DNA

1 Here, B-DNA refers to “B-DNA family” (i.e. B- or C-DNA).

(57%). For the A-DNA component the average base tilt is 23°, and the total distribution width of tilt angles and helix axis orientations is ～ 4° (standard deviation). In the B-DNA component the base tilt is ～ 0° and the total distribution width is ～ 20°. In contrast, films of Li-DNA only exhibit the B-form line shape, consistent with a base tilt of ～ 0° and a total distribution width of base tilt angles and helix axis orientations of 9°. The nmr results that demonstrate the presence of large amounts of B-DNA in the Na-DNA sample contrast with the x-ray diffraction measurements that indicated mainly A-form. The nmr spectra are used to monitor the B-DNA content in the Na-films and to evaluate procedures for increasing the A-DNA fraction.     

Effects of hydration on purine motion in solid DNA

Deuterium quadrupole echo spectra and spin-lattice relaxation rates measured at 76.8 and 38.4 MHz as a function of relative humidity are reported for calf thymus DNA deuterated at positions A8 and G8. The amplitude of base pair motion is observed to increase slightly with increasing degree of hydration (up to approximately 20 mol of H2O/nucleotide), and the onset of motion is associated with a more than 100-fold drop in T1. This observed decrease in T1 parallels that observed previously for the phosphate backbone and appears to be characteristic of collective modes of motion. Above approximately 20 mol of H2O/nucleotide, the amplitude of the base motion increases substantially up to a point where slow components of motion lead to a complete loss of the quadrupole echo.     

New evidence that the antiestrogen binding site may be a novel growth-promoting histamine receptor (?H3) which mediates the antiestrogenic and antiproliferative effects of tamoxifen

Using as a probe [3H]-DPPE (N,N-diethyl-2-[(4-phenylmethyl)phenoxy]ethanamine HCl), a novel compound selective for the antiestrogen binding site (AEBS), new evidence is presented that this site could be a growth-promoting histamine receptor of a type not previously described (?H3). In the rat uterus, DPPE alone at a concentration of 4 mg/kg acts as an estrogen antagonist, unlike TAM alone which is a partial estrogen agonist. In the presence of exogenous estradiol, both TAM and DPPE are partial antagonists. This suggests that the "antiestrogenic" effects of tamoxifen are mediated through AEBS/?H3 while the estrogenic effects are mediated through ER.     

Study of the in-vivo antioestrogenic action of N,N-diethyl-2-[4-(phenylmethyl)phenoxy]ethanamine HCl (DPPE), a novel intracellular histamine antagonist and antioestrogen binding site ligand

N,N-Diethyl-2-[4-(phenylmethyl)phenoxy]ethanamine HCl (DPPE) binds with high affinity to the antioestrogen binding site (AEBS), but not to the oestrogen receptor. There is an association of AEBS with a novel intracellular histamine receptor (H1C) of micromolar affinity through which histamine acts as a second messenger. An optimal dose of 4 mg DPPE/kg antagonized the uterine growth-stimulating effects of oestradiol in immature oophorectomized rats. Unlike tamoxifen, DPPE alone was not a partial agonist, but decreased uterine size and weight below control values at concentrations between 0.1 and 75 mg/kg. DPPE also antagonized oestradiol-stimulated uterine growth at 72 h; the inhibition observed was not significantly different from that seen with tamoxifen. Oestradiol-treated animals receiving the combination of DPPE (4 mg/kg) + low dose tamoxifen (0.04 mg/kg) for 72 h had significantly smaller uteri than did those receiving the same dose of DPPE or tamoxifen alone. Histologically, either DPPE or tamoxifen antagonized oestradiol stimulation of eosinophil migration and glandular epithelial proliferation; the latter inhibition was significantly greater for DPPE + tamoxifen (0.04 mg/kg) than for the same dose of DPPE or tamoxifen alone. Unlike tamoxifen, DPPE did not antagonize oestradiol stimulation of luminal epithelial proliferation, but in the presence of oestradiol, DPPE significantly decreased tamoxifen (0.65 mg/kg)-induced hypertrophy of the luminal epithelium. Based on these findings, we suggest that binding to the AEBS/intracellular histamine receptor is important to the action of antioestrogens.     

Molecular-cytogenetic characterization of a higher plant centromere/kinetochore complex

The centromeric region of a telocentric field bean chromosome that resulted from centric fission of the metacentric satellite chromosome was microdissected. The DNA of this region was amplified and biotinylated by degenerate oligonucleotide-primed polymerase chain reaction (DOP-PCR)/linker-adapter PCR. After fluorescence in situ hybridization (FISH) the entire chromosome complement of Vicia faba was labelled by these probes except for the nucleolus organizing region (NOR) and the interstitial heterochromatin, the chromosomes of V. sativa and V. narbonensis were only slightly labelled by the same probes. Dense uniform labelling was also observed when a probe amplified from a clearly delimited microdissected centromeric region of a mutant of Tradescantia paludosa was hybridized to T. paludosa chromosomes. Even after six cycles of subtractive hybridization between DNA fragments amplified from centromeric and acentric regions no sequences specifically located at the field bean centromeres were found among the remaining DNA. A mouse antiserum was produced which detected nuclear proteins of 33 kDa and 68 kDa; these were predominantly located at V. faba kinetochores during mitotic metaphase. DNA amplified from the chromatin fraction adsorbed by this serum out of the sonicated total mitotic chromatin also did not cause specific labelling of primary constrictions. From these results we conclude: (1) either centromere-specific DNA sequences are not very conserved among higher plants and are — at least in species with large genomes — intermingled with complex dispersed repetitive sequences that prevent the purification of the former, or (2) (some of) the dispersed repeats themselves specify the primary constrictions by stereophysical parameters rather than by their base sequence.     

Quantitation of cytosolic [Ca2+] in whole perfused rat hearts using Indo-1 fluorometry.

Fluorometric determination of cytosolic calcium, [Ca2+]c, using Indo-1 in intact tissue, is limited by problems in obtaining calibration parameters for Indo-1 in vivo. Therefore, the goal of this study was to calibrate Indo-1 using in vitro constants, obtained from protein-containing reference solutions designed to produce similar Indo-1 spectral properties to those in vivo. Due to wavelength-dependent tissue light absorbance, the in vitro constants had to be absorbance-corrected using a novel method. The correction factor was calculated from the relationship between the Indo-1 fluorescence intensities at the two detection wavelengths. A mixture of proteins at approximately 28 mg/ml had a similar Indo-1 isosbestic wavelength (430 nm) to that found in vivo (427 nm), and a similar fluorescence ratio maximum with saturating Ca2+ to that found in vivo (after absorbance correction). Using calibration constants from this protein mixture, calculated [Ca2+]c in a Langendorf perfused rat heart was 187 nM during diastole, and 464 nM in systole. This new calibration method circumvented the considerable experimental problems of previous methods which required measurements with the cytosol fully depleted and fully saturated with Ca2+.