Cell Structure and Function Volume 21, Issue 4

Hepatotoxic Effects of SH-reagents in Human and Rat Hepatocyte Cultures and in situ Perfused Rat Livers

Effects organic mercurials (PCMBS, PCMB, mersalyl) an alkylating reagent (NEM), disulphide reagents (DTP, CPDS) and the dithiocarbamate agent DSF (disulflram) were studied in hepatocyte culture. Cytotoxicity, was on a high level (organic mercurials), moderate (NEM, DTP), or none (DSF, CPDS). The organic mercurials and NEM induced glutathione depletion. Disulphide compounds were detoxified by metallothionein binding. Organic mercurials inhibited the cellular glucose uptake. The most prominent effect of NEM, DTP and DSF was an inhibition of the TCA-cycle. The hepatocellular BSP metabolism was delayed by all tested compounds. Albumin synthesis was stimulated by pyruvate and blocked by PCMB and PCMBS, by inhibiting the hepatocellular amino acid uptake. Phase I and II biotransf ormation reactions were inhibited by PCMBS and PCMB by direct binding to Cyt. P450 cysteinyl-residues and active sites of UDP-glucuronyltransferases. DSF probably reacts by diminishing the availability of the cofactor NADPH. Isolated ALDH (EC 1.2.1.3) was inhibited by all studied compounds. In cellular systems, DSF and the organomercurials inhibited ALDH, thereby reducing the cell's capacity of ethanol catabolism. All tested compounds showed, in low doses, the anabolic ability of insulin mimicking, as demonstrated in a balanced endocrine in vitro testsystem.
Morphology. Exposure to NEM, DTP, CPDS, DSF did not result in any morphological alterations in the cell cultures. However, an exposure to PCMBS and PCMB, resulted in extensive bleb-formation, as a result of SHgroup blocking at the cell's outer membrane. It can be concluded, that cultured hepatocytes from human or rat origin, resist an exposure to alkylating and disulphide SH-reagents up to relatively high dose (1.0 mM). However, organic mercury compounds triggered an extensive bleb formation, as a result of SH-blocking, thereby disturbing the osmotic balance by blocking Na⁺/K⁺ carriers. Of all tested reagents, organic mercury compounds arose as the most toxic reagents.

Choice of Partners: Sexual Cell Interactions in Dictyostelium discoideum

Recognition of mating partners is of central importance in the sexual processes. In consideration that the most important function of sexuality is to shuffle genetic materials to generate wider variation of characters, mating among different genetic backgrounds is preferable. Wild isolates of cellular slime mold Dictyostelium discoideum are predominantly heterothallic, but homothallic ones also exist. In addition, there are bisexual strains which are compatible with either mating type of heterothallic strains but are self-incompatible. How cells of these organisms choose proper mating partners may include the essential mechanisms for sexual cell recognition in general. This minireview addresses studies on sexual cell interactions of D. discoideum with special attention to cell recognition and evolution of the mating system.

Transcriptional and Post-transcriptional Regulation of pr22 (Opl8) with Proliferation Control

The pr22 gene was isolated as a gene which is expressed in proliferating cells but not in cells which are differentiated or growth-arrested. When cells of the human monocytic cell line, U937, were differentiated into macrophages, transcription of pr22 was almost completely suppressed. Serum starvation resulted in the inhibition of transcription, although U937 failed to differentiate. In a culture synchronized with excess thymidine, mRNA of pr22 was detected at the G1/S boundary, with the level increasing in the S phase and decreasing in the G2 phase. The gene product, pr22 protein (Pr22) was found to be identical to Op 18 as well as to a catastrophe factor. Genes homologous to pr22 were detected in the genome of mouse but not in that of yeast, or Drosophila. The 5' up-stream region of the genomic pr22 contained CpG islands but no TATA box at its appropriate position. About 20% of cell nuclei of normal human fibroblasts were stained in a speckled manner with a monoclonal antibody for C-terminal peptide of Pr22, and these cells were found to be in phases S and G2. The mitotic apparatus was also strongly stained. By Western blot analysis, Pr22 was detected in the nuclear fraction but not in the cytoplasm. The level increased from middle S to G2 phase and remained high until the early G1 phase. N-terminal truncated Pr22 was also detected in these phases. These results suggest that Pr22 may have an additional role other than just functioning in association with microtubules.

Structural Changes at the Site of Tritrichomonas foetus-Erythrocyte Interaction

Tritrichomonas foetus strongly agglutinates human erythrocytes, thus suggesting the occurrence of an adhesin associated with its surface. Adherence was observed immediately after mixing of the parasites with erythrocytes and the intensity increased for up to 30 min. Scanning electron microscopy examination of T. foetus-erythrocytes attachment showed that trichomonad cytoadherence took place mainly through their anterior and recurrent flagella. Ultrastructural observations showed that T. foetus contacts human red blood cells through punctual binding, inducing the separation between the two lipid monolayers of the parasite plasma membrane. This structural modification was also seen in freeze-fractnre replicas where protrusions on the P and depressions on the E fracture faces were observed. No intramembranous particles, which mainly correspond to membrane integral proteins, were observed at the adhesion areas, indicating lateral mobility of integral membrane components involved in the appearance of the intramembranous particles. However, no changes was observed on the surface coat.

Oxygen-Dependent Reversible Inhibition of Mitochondrial Respiration by Nitric Oxide

Effects of nitric oxide (NO) and NO generating agents, on the electron transport system of mitochondria were examined in a study of the mechanism and physiological importance of NO in energy metabolism. In the presence of various substrates, uncoupled respiration was inhibited by NO in manner which was both dose- and oxygen tension-dependent. Simultaneously measuring changes in cytochrome absorption spectra and respiration showed that the site of action of NO is cytochrome oxidase. Similar inhibition was also brought about by 1-hydroxy-2-oxo-3, 3-bis(2-aminoethyl)-1-triazene (NOC 18), an NO donor. Electron paramagnetic resonance (EPR) analysis revealed that inhibition of uncoupled respiration occurred only during the presence of NO in the reaction mixture. The inhibitory effect of NO was increased significantly by lowering the concentration of mitochondrial protein. No appreciable inhibition of respiration was observed in the presence of 3-morpholinosydnonimine (SIN-1), a peroxynitrite anion (ONOO-) generating reagent, but inhibition did occur in the presence of superoxide dismutase (SOD). These results indicate that NO reversibly interacts with mitochondria at complex IV thereby inhibiting respiration particularly under physiologically low oxygen tension and that de novo generated ONOO^- may have no significant effect under the present experimental conditions.

The Phorbol Ester TPA Regulates Collagen Gene Expression at the Transcriptional Level

Previously, we reported that growth activation of quiescent 3T3-L1 cells by TPA led to a rapid increase of pro-α2 (I) collagen mRNA and protein, while induction of pro-α2 (I) was not observed in VT-1 cells, a line non-mitogenic in the presence of TPA (26). Here, we further examine the expression of pro-α2 (I) collagen during mitogenic stimulation at the molecular level. In addition to pro-α2 (I) mRNA, TPA treatment increased mRNA production of other collagen family members, pro-α1 (I) and pro-α1 (III) although in reduced amounts relative to pro-α2 (I). In contrast to pro-α2 (I), the mRNA expression profiles of several protooncogenes were regulated in both VT-1 and 3T3-L1 cells. Consistent with increased mRNA levels, TPA treated 3T3-L1 cells produced a matrix abundant in collagen type I protein. In vitro nuclear "run-on" transcription assays demonstrated a 4-fold increase in pro-α2 (I) mRNA that was maximal within 10 min of TPA treatment. Using a chloramphenicol-acetyl transferase (CAT) assay, we identified a TPA sensitive domain within the promoter of the COL1A2 gene. These results establish COL1A2 as an early growth responsive gene, and that its regulation is PKC dependent. Additionally, the increased expression of protooncogenes and transin during TPA stimulation of non-mitogenic VT-1 cells indicated that the regulation of these genes is independent of PKC, indicating the existence of multiple regulatory mechanisms amongst early response genes.

Indication that Intracellular Fluorescence Polarization of T Lymphocytes is Cell Cycle Dependent

The degree of depolarization of fluorescence light emitted from an organic dye, used as a molecular probe, is a powerful tool in probing the microenvironment. Polarization measurements of intracellular exogenous fluorescein have been shown to reflect the physiological state of the cells. The relationship between intracellular fluorescein fluorescence polarization (IFFP) and cell cycle, was investigated in the leukemia T-lymphocyte Jurkat cell line. Jurkat T cells were cultured in increasing cell densities, their cell cycle progression cytometrically monitored and the IFFP measured. At the highest cell density, the subpopulation of cells at the resting phases the (G₀/G₁) predominated, and the mean IFFP was 0.186 ± 0.015. At the lowest density, with diminished proportion of cells in the G₁/G₂ stages the mean IFFP decreased to 0.126 × 0.01. Treatment of the Jurkat T cell line with phase arrested agents 1 μM hydroxyurea, or 1 μM nocodazole, arrests the cells in the S and G₂/M phases, respectively. These treated cells exhibit significantly lower IFFP values, mean polarization value 0.140, as compared to 0.171 ± 0.009 in control cells. Preincubation of Jurkat cells in buffer results in accumulation of the cells in the G₀/G₁ phases as well as a parallel increase in IFFP. A characteristic decrease in IFFP was demonstrated upon triggering these cells with Phytohaemagglutinin (PHA). High correlation (Pearson correlation =0.942) was found between percentage of cells in the G0/G1 phases and the mean IFFP of the measured cell population. These results may indicate that the intracellular microviscosity of Jurkat T cells as measured by IFFP, is changing over the cell cycle.