Yeast ribosomal protein deletion mutants possess altered peptidyltransferase activity and different sensitivity to cycloheximide.

The major function of the ribosome is its ability to catalyze formation of peptide bonds, and it is carried out by the ribosomal peptidyltransferase. Recent evidence suggests that the catalyst of peptide bond formation is the 23S rRNA of the large ribosomal subunit. We have developed an in vitro system for the determination of peptidyltransferase activity in yeast ribosomes. Using this system, a kinetic analysis of a model reaction for peptidyltransferase is described with Ac-Phe-tRNA as the peptidyl donor and puromycin as the acceptor. The Ac-Phe-tRNA-poly(U)-80S ribosome complex (complex C) was isolated and then reacted with excess puromycin to give Ac-Phe-puromycin. This reaction (puromycin reaction) followed first-order kinetics. At saturating concentrations of puromycin, the first-order rate constant (k(3)) is identical to the catalytic rate constant (k(cat)) of peptidyltransferase. This k(cat) from wild-type yeast strains was equal to 2.18 min(-1) at 30 degrees C. We now present for the first time kinetic evidence that yeast ribosomes lacking a particular protein of the 60S subunit may possess significantly altered peptide bond-forming ability. The k(cat) of peptidyltransferase from mutants lacking ribosomal protein L24 was decreased 3-fold to 0.69 min(-1), whereas the k(cat) from mutants lacking L39 was slightly increased to 3.05 min(-1) and that from mutants lacking both proteins was 1.07 min(-1). These results suggest that the presence of ribosomal proteins L24 and, to a lesser extent, L39 is required for exhibition of the normal catalytic activity of the ribosome. Finally, the L24 or L39 mutants did not affect the rate or the extent of the translocation phase of protein synthesis. However, the absence of L24 caused increased resistance to cycloheximide, a translocation inhibitor. Translocation of Ac-Phe-tRNA from the A- to P-site was inhibited by 50% at 1.4 microM cycloheximide for the L24 mutant compared to 0.7 microM for the wild type.     

Association of leukopenia and intestinal permeability with radiation-induced sensitivity to endotoxin

Sensitivity to the lethal effects of endotoxin is increased after exposure to ionizing radiation in the hematopoietic death range. We hypothesized that leukopenia and altered intestinal permeability may be causative factors for increased sensitivity to endotoxin after irradiation. The presence of leukocytes and platelets was correlated with sensitivity of male B6CBF1 mice to 0.25 mg of $\text{Salmonella typhosa}$ endotoxin administered intraperitoneally. This study was conducted over the 10-day period following irradiation (1000 rads Co-60) and the beginning of deaths due to radiation alone. These data were then associated with the status of tight junction barriers (zonula occludens) between epithelial cells of the ileum. A biphasic pattern of sensitivity to endotoxin was observed in irradiated mice. Mice were resistant to endotoxin through day 2 after radiation, but sensitivity increased greatly (80% mortality) by day 3. Resistance increased by day 6 (6.7% mortality) and then dropped again by days 9 and 10 (100% mortality). Leukocyte numbers decreased 91% by day 2 (from 10,880 to 1,020 per mm³) and further by day 3 (300 per mm³). Leukopenia persisted through the duration of the experiment. Platelets began to decrease in number by day 5, and levels continued to drop until day 9. Disruption of some intestinal tight junctions was observed on days 1–5 after radiation. Junctional repair was evident by day 5. Repair was noted as extensive junctional elements on ablumenal membrane fracture faces. A combination of leukopenia and leakage of endotoxin from the intestine may account for increased sensitivity to endotoxin seen at day 3. Repair of the intestinal permeability barrier on day 5 coincided with reduced sensitivity to endotoxin. Later (7–10 days) bacteremia was present in host tissues, and mortality due to challenge with endotoxin was again increased. Disruption of some tight junctional barriers was seen again on days 9 and 10 after radiation.     

Actinomycin D and cycloheximide actions on activity of some intestinal enzymes of adult hamster

Actinomycin D, at a dose of 0.25 micrograms/g body wt, produced slight increases in intestinal enzymatic activity on hamsters. At a high dose (1.5 micrograms/g body wt), actinomycin D produced inhibition of lactase activity, whereas maltase, sucrase and alkaline phosphatase activity decreased in males and increased in females. Cycloheximide (1.5 micrograms/g body wt), produced no changes in enzymatic activity. In the male and female hamster, the different actions of the antibiotic can be explained by the variations in the cortisol release produced by stress.     

Vagal modulation of intestinal afferent sensitivity to systemic LPS in the rat

The central nervous system modulates inflammation in the gastrointestinal tract via efferent vagal pathways. We hypothesized that these vagal efferents receive synaptic input from vagal afferents, representing an autonomic feedback mechanism. The consequence of this vagovagal reflex for afferent signal generation in response to LPS was examined in the present study. Different modifications of the vagal innervation or sham procedures were performed in anesthetized rats. Extracellular mesenteric afferent nerve discharge and systemic blood pressure were recorded in vivo before and after systemic administration of LPS (6 mg/kg iv). Mesenteric afferent nerve discharge increased dramatically following LPS, which was unchanged when vagal efferent traffic was eliminated by acute vagotomy. In chronically vagotomized animals, to eliminate both vagal afferent and efferent traffic, the increase in afferent firing 3.5 min after LPS was reduced to 3.2 +/- 2.5 impulses/s above baseline compared with 42.2 +/- 2.0 impulses/s in controls (P < 0.001). A similar effect was observed following perivagal capsaicin, which was used to eliminate vagal afferent traffic only. LPS also caused a transient hypotension (<10 min), a partial recovery, and then persistent hypertension that was exacerbated by all three procedures. Mechanosensitivity was increased 15 min following LPS but had recovered at 30 min in all subgroups except for the chronic vagotomy group. In conclusion, discharge in capsaicin-sensitive mesenteric vagal afferents is augmented following systemic LPS. This activity, through a vagovagal pathway, helps to attenuate the effects of septic shock. The persistent hypersensitivity to mechanical stimulation after chronic vagal denervation suggests that the vagus exerts a regulatory influence on spinal afferent sensitization following LPS.     

Differential sensitivity of intestinal brush border enzymes to pancreatic and lysosomal proteases.

Isolated human intestinal brush border membranes were used as sources of enzyme to study their degradation by proteolytic enzymes. Human intestinal brush border hydrolases undergo degradation by two separate proteolytic systems. Sucrase and alkaline phosphatase are degraded by pancreatic proteases (e.g. chymotrypsin) at neutral pH, whereas trehalase is degraded by lysosomal extracts at acid pH. Both the membrane bound and membrane free isolated enzymes had similar sensitivity to proteolytic enzymes. Thus, initial removal from the membrane is not essential as a prerequisite to proteolysis. It is postulated that the brush border membrane of the intestine is subject to proteolysis by pancreatic enzymes from the external cell surface and by lysosomal proteases within the cell.     

Adaptation to cycloheximide of macromolecular synthesis in Tetrahymena

Cycloheximide (CHI) at 10 ng/ml partially inhibited protein synthesis in exponential cultures of Tetrahymena Sp. At 20 ng/ml or greater, inhibition was complete. When protein synthesis was inhibited to any extent, cell division ceased immediately. In all instances where measured, synthesis of RNA and DNA also ceased. After a period of delay, cellular functions reinitiated in the order: (i) protein synthesis, (ii) DNA synthesis and, (iii) RNA synthesis and cell division. The delay in cell division was divided into three phases of: I, zero; II, low; and, III, fully recovered rates of exponential protein synthesis. The length of the three phases increased with increasing concentration of CHI Prior growth of cells for one generation in the presence of 7.5 ng/ml CHI (facilitation) eliminated phase I and slightly decreased phases II and III following subsequent challenge with an inhibitory concentration of CHI. Facilitation for six generations further decreased phases II and III. Protein synthesis and cell division were not inhibited during facilitation In the culture, succinate dehydrogenase activity did not increase during the delay but increased normally at the onset of division. In contrast, NADPH-cytochrome c reductase activity continued to increase for an hour after inhibition of protein synthesis, was constant for a period and did not increase again until an hour after reinitiatoin of cell division and RNA synthesis Inhibition of division of all cells was immediate and reinitiation of synthesis and cell division was non-synchronous.     

Mouse auditory sensitivity as measured by averaged evoked potentials]

The audition of four strains of mice was determined with summated auditory evoked potentials at the inferior colliculus level. One of these strains was completely deaf. For the 3 others a specific auditory sensitivity was found with statistically different thresholds. But, for these, the best sensitivity is around 16 kHz. Two of them show a flattening of the curve between 32 and 64 kHz. This range corresponds to the ultrasounds emitted by the pups.     

Sensitivity of the Alternaria infectoria species-group 1 to cycloheximide

Aims:  A possibility of using cycloheximide tolerance and/or sensitivity as an additional diagnostic tool for distinguishing morphologically related species within common small-spored Alternaria has been tested during this study.
Methods and Results:  A total of 33 strains from four Alternaria species-groups, namely Alternaria alternata , Alternaria arborescens , Alternaria infectoria and Alternaria tenuissima were tested for their growth response to 100 μg m⁻¹ cycloheximide in potato carrot agar. All A. infectoria strains were completely inhibited, showing no growth at all even after prolonged incubation. In contrast, all other strains representing the remnant three species exhibited a high resistance to this antibiotic.
Conclusions:  Cycloheximide sensitivity represents a further important physiological character for distinguishing A. infectoria from the three similar species.
Significance and Impact of the Study:  The relevance of these findings corresponds with the potential ability of the Alternaria species produce mycotoxins. Cycloheximide may be in future used in the design of selective media for the isolation of some potentially toxigenic food-borne Alternaria species such as A. alternata , A. tenuissima and/or A. arborescens , for example in screening cereals for toxigenic Alternaria spp. and for their direct separation from nontoxigenic representatives of A. infectoria species-group.     

Morphological effects of a large single dose of cycloheximide on the intestinal epithelium of the rat.

Adult male rats received 15 mg/kg cycloheximide and the subsequent morphological effects at three and six hours after injection were evaluated using histometry, light and electron microscopy, histological demonstration of terminal web and acid phosphatase, and radioautography with tritiated thymidine. Rapid atrophy of the villi took place, progressing from the villus tip by premature exfoliation of epithelial cells. The crypts also diminished by random exfoliation of many crypt cells and by partial or complete disintegration. Mitosis and epithelial cell migration were absent. By six hours, the area occupied by the villi and the crypts per unit length of histological section was decreased by about 70-90% in most of the small intestine but only by about 40-60% in the duodenum and the terminal ileum. In the upper half of the villi, the epithelium was strongly positive for acid phosphatase and contained large numbers of round bodies resembling primary lysosomes. In the lower half, the microvillous border and terminal web were found to be disrupted. Animals receiving only 5 mg/kg cycloheximide also showed the atrophy of villi and crypts, and the round bodies resembling lysosomes. Evidence from several sources has indicated that protein synthesis in normal villus epithelial cells subsides toward the villus tip and becomes minimal at exfoliation. At exfoliation, proteins responsible for epithelial cohesion probably fail because they are no longer replenished. Cycloheximide appears to accelerate this process.     

Inhibition of ion uptake to barley roots by cycloheximide

In Petunia pollen tubes growing in the style there appear to be two ways of callose deposition. The first one is callose deposition outside the plasma membrane as a distinct layer closely appressed to the cell wall. The second one is callose deposition within the cytoplasm as distinct callose grains, leading to the formation of callose plugs. This second way is accompanied by a characteristic ultrastructure of the cytoplasm, namely strong electron-density of the plasma matrix, partial absence of the plasma membrane and the absence of plastids and dictyosomes. For both ways of callose deposition a mechanism is proposed and the function of callose plugs is discussed.Abbreviation RER rough endoplasmic reticulum     

Alteration of heat sensitivity by treatment with nonpermissive temperature or cycloheximide in temperature-sensitive CHO mutant tsH1 cell

1. 1.|The temperature-sensitive mutant CHO-tsH1 and wild type (CHO-SC) cells became thermal resistant when cells were treated for either 2 h at 39.5°C before heating at 43°C or 2 h with 10 μg/ml cycloheximide (CHM) before and during heating at 43°C.

2. 2.|There was a 2000-fold increase in survival after 2.5 h at 43°C by preincubation at 39.5°C in both cell types. There was also a 200- or 700-fold increase in survival after 2.5 h at 43°C by treatment with CHM in tsH1 or SC cell type respectively.

3. 3.|In contrast to the effects at 43°C, at 41.8°C these protective effects were not evident in tsH1 cells. In wild type, however, there was an 800- or 1800-fold increase in survival after 8 h at 41.8°C by preincubation at the temperature of 39.5°C or treatment with CHM, respectively.

4. 4.|Therefore, these results suggest that killing of tsH1 at low temperature hyperthermia (41.8°C) is probably due to denaturation of thermolabile leucyl-tRNA synthetase.

5. 5.|The denaturation of this enzyme may not be protected by inhibition of protein synthesis by preincubation at the nonpermissive temperature of 39.5°C or by CHM.