Studies on the Mechanism Underlying the Inhibition by Puromycin of Cell Aggregation In Vitro

1970 ◽  
Vol 7 (2) ◽  
pp. 557-573
Author(s):  
M. J. DUNN ◽  
E. OWEN ◽  
R. B. KEMP
Keyword(s):  
Carbon Dioxide ◽  
Protein Synthesis ◽  
Cellular Metabolism ◽  
Cell Aggregation ◽  
Experimental Period ◽  
Inhibitory Effect ◽  
Dissociated Cells ◽  
Gyratory Shaker ◽  
Reduced Rate

Cells dissociated with 0.25% crude trypsin from the muscle tissue of 9-day-old chick embryos were employed to investigate the effect of puromycin on cellular metabolism. Parallel studies were also made, using the gyratory shaker, to confirm the effectiveness of puromycin in inhibiting cell aggregation and protein synthesis. Puromycin when introduced at a concentration of 10µg/ml into a suspension of cells in Eagle's MEM did not completely inhibit cell aggregation. Small aggregates were formed in the first 4 h of the experiment. Protein synthesis of the rotated cells, as measured by the incorporation of L-[α-14C]leucine into proteins, was arrested by 91.7% within 15 min of introducing puromycin into a cell suspension. The antibiotic retained its inhibitory effect on protein synthesis for the 24-h period of rotation. Puromycin inhibited the cellular oxygen uptake and carbon dioxide evolution of the rotated cells by 40% within 4 h of its introduction. However, treated cells were still respiring, though at a much reduced rate, at the end of the 24-h experimental period. The release of radioactive carbon dioxide by puromycin-treated cells was also inhibited by 40% at the 4-h stage but after 8 h no further 14CO2 was evolved. The presence of the antibiotic markedly inhibited the uptake of glucose by trypsin-dissociated cells. The level of glycogen and lactate in cells suspended in Eagle's MEM was reduced very considerably over a 24-h period. The presence of puromycin accelerated glycogen utilization over the first 6 h of rotation but at 24 h there was a difference of only 0.6% between the glycogen content of treated cells and controls. At 24 h 11.3% less lactate remained in the puromycin-treated cells than in the controls. The ATP/ADP ratio of trypsin-dissociated cells decreased from an initial value of 2.59 to 1.45 after rotation for 24 h. In the presence of puromycin the ATP/ADP ratio was 0.62 at 4 h and had further declined to 0.48 by 24 h. The effects of puromycin on the aggregation, protein synthesis and cellular metabolism of trypsin-dissociated cells are discussed in relation to cellular adhesive mechanisms.

Evidence for the Importance of Puromycyl Peptides in the Inhibition by Puromycin of Cell Aggregation In Vitro

1973 ◽  
Vol 12 (2) ◽  
pp. 641-653
Author(s):  
M. J. DUNN ◽  
E. OWEN ◽  
R. B. KEMP
Keyword(s):  
Carbon Dioxide ◽  
Protein Synthesis ◽  
Cell Aggregation ◽  
Experimental Period ◽  
Respiratory Metabolism ◽  
Inhibitory Effects ◽  
Carbon Dioxide Evolution ◽  
Dissociated Cells ◽  
Cellular Oxygen

Trypsin-dissociated cells from the muscle tissue of 9-day-old chick embryos were employed to investigate the effects of cycloheximide and a puromycin-cycloheximide mixture on cell aggregation, protein synthesis and respiratory metabolism. Cycloheximide when introduced at a concentration of 10 µg/ml into a suspension of cells in Eagle's MEM inhibited aggregation by 25% at 24 h. At this time an inhibition of 40% was apparent in the presence of a mixture of cycloheximide and puromycin both at a concentration of 10 µg/ml. Both cycloheximide and the cycloheximide-puromycin mixture arrested protein synthesis of rotated cells by 90% within 15 min of introducing the antibiotics into cell suspensions. The antibiotics retained their inhibitory effects on protein synthesis for the 24-h period of rotation. Cycloheximide inhibited cellular oxygen uptake and carbon dioxide evolution of rotated cells by 25% at the end of the 24-h experimental period. At this time an inhibition of 30% was observed in the presence of the cycloheximide-puromycin mixture. The release of radioactive carbon dioxide by cycloheximide-treated cells was inhibited by 46% at 24 h. In the presence of the antibiotic mixture, 14CO2 release was inhibited by 30% at 4 h, but after 8 h very little further 14CO2 was evolved. As a control, puromycin (10 µg/ml) inhibited cell aggregation and respiration to an extent similar to that previously reported. The results are discussed in terms of puromycyl peptides producing a metabolic effect on cell aggregation. It is considered that this is additional to the effect of puromycin inhibiting aggregation through the arrest of protein synthesis.

Abolition by Myosin and Heavy Meromyosin of the Inhibitory Effect of Smooth-Muscle Actomyosin Antibodies on Cell Aggregation In Vitro

1973 ◽  
Vol 12 (2) ◽  
pp. 631-639
Author(s):  
R. B. KEMP ◽  
B. M. JONES ◽  
U. GRÖSCHEL-STEWART
Keyword(s):  
Smooth Muscle ◽  
Striated Muscle ◽  
Cell Aggregation ◽  
Inhibitory Effect ◽  
Regulatory Function ◽  
Rabbit Serum ◽  
Heavy Meromyosin ◽  
Γ Globulins ◽  
Dissociated Cells

The ability of anti-chicken smooth-muscle actomyosin γ-globulins (anti-GAM) to inhibit the aggregation of dissociated cells from the skeletal muscle and liver of chick embryos was abolished by pretreatment of the anti-GAM with either myosin or heavy meromyosin (HMM). When the same cells were treated with HMM at a concentration of 1 mg per 2 x 106 cells/ml Eagle's MEM they aggregated as readily as untreated cells. The negative electrophoretic mobility of the embryonic chick fibroblastic cells was significantly reduced by the globulin fraction of anti-GAM but not of HMM-treated anti-GAM or non-immunized rabbit serum. Anti-chicken striated muscle actomyosin γ-globulins slightly reduced negative mobility but HMM had no effect. The experiments show that the inhibitory effect on cell aggregation of anti-GAM preparations is produced by the anti-myosin antibodies. They also provide support for the theory that a surface-localized myosin-like protein has a regulatory function in cell adhesion.

Reconstruction of Mammalian Heart Tissue from Isolated Embryonic Heart Cells

1977 ◽  
Vol 35 ◽  
pp. 580-581
Author(s):  
Asish C. Nag ◽  
Debra S. Buszke
Keyword(s):  
Basal Medium ◽  
Cell Aggregation ◽  
Heart Tissue ◽  
Cell Suspensions ◽  
Heart Cells ◽  
Mammalian Heart ◽  
Dissociated Cells ◽  
Gyratory Shaker ◽  
And Function

Although monolayer cultures are useful in various cell studies, they are not always adequate for examining the nature of cellular interrelationships and interactions in the formation, differentiation, and function of tissues. The procedures of aggregation in vitro of dissociated cells (Moscona & Moscona, 1966) enable one to study in detail the formation of cell contacts, the assembly of cells into multicellular systems, and cell cooperation in forming organized and differentiating tissues. We adapted the techniques of cell aggregation by rotation to studies on embryonic mammalian heart cells. Cell suspensions from the 18-day-old embryonic rat were prepared by dissociation with 0. 5% trypsin. The cells were dispersed in a culture medium which consisted of Eagle's basal medium with 10% fetal bovine serum, 1% glutamine solution, and 1% penicillin-streptomycin mixture. Cultured in 25ml Erlenmeyer flasks on a gyratory shaker at 70 rpm at 37°C were 3ml aliquots of the cell suspensions.

Effects of Cytochalasins on the Initial Aggregation in Vitro of Embryonic Chick Cells

1974 ◽  
Vol 14 (1) ◽  
pp. 187-196
Author(s):  
J. C. APPLETON ◽  
R. B. KEMP
Keyword(s):  
Cytochalasin B ◽  
Cell Aggregation ◽  
Cellular Injury ◽  
Cellular Motility ◽  
Carbon Dioxide Evolution ◽  
Site Of Action ◽  
Dissociated Cells ◽  
Cytochalasin A ◽  
Final Confirmation

The initial aggregation of trypsin-dissociated cells from the skeletal muscle tissue of 9-day-old chick embryos in the presence of cytochalasins A and B was studied in order to discover the effects of these agents on contact and adhesion. Cytochalasin B (3 µg/ml) had a negligible effect on the rate of aggregation of cells over an 8-h period, but cytochalasin A at concentrations between 3 and 20 µg/ml markedly inhibited aggregation. Both agents altered the shape and size of aggregates and caused cells at their periphery to appear more spherical. The oxygen uptake of the treated cells was not noticeably different from that of the controls, despite the severe inhibition of isotopic carbon dioxide evolution. The effect of cytochalasin B on cell aggregation was reversible and although the cytochalasin A effect could not be abolished on return to medium free of A, the unaltered oxygen consumption was taken as an indication that permanent cellular injury did not occur. The effect of the cytochalasins on aggregate structure was interpreted on the basis of arrested cellular motility, but the singular inhibition by cytochalasin A of the rate of aggregation must await final confirmation of its site of action.

The effects of tumour cells on embryonic cell aggregation, adhesion and detachment

1978 ◽  
Vol 29 (1) ◽  
pp. 271-275
Author(s):  
D.E. Maslow ◽  
L. Weiss
Keyword(s):  
Aggregate Size ◽  
Cell Aggregation ◽  
Inhibitory Effect ◽  
Neural Retina ◽  
Embryonic Cell ◽  
Tumour Cells ◽  
Ehrlich Ascites ◽  
Initial Adhesion ◽  
Ehrlich Ascites Cells ◽  
Gyratory Shaker

The presence of small numbers of tumour cells inhibits the aggregation of embryonic chicken neural retina cells grown in gyratory shaker culture. The aggregation of neural retina cells was also inhibited by ascites cell medium. We investigated whether the inhibitory effect of the tumour cells on aggregate size is effected by inhibition of the initial adhesion or by enhancement of their separation. The number of neural retina cells adherent to microtest plate surfaces was significantly reduced after incubation with either Ehrlich ascites cells or cell-free, conditioned medium, while the percentage of cells removed from glass by shearing was unchanged under those conditions. These results suggest that the reduction in neural retina cell aggregate size produced by Ehrlich ascites cells and their products is due to partial inhibition of neural retina cell adhesion processes, as distinct from enhancement of separation.

Aggregative Behaviour of Embryonic Chick Cells in the Presence of Anti-Bodies Directed Against Actomyosins

1971 ◽  
Vol 9 (1) ◽  
pp. 103-122
Author(s):  
R. B. KEMP ◽  
B. M. JONES ◽  
U. GRÖSCHEL-STEWART
Keyword(s):  
Smooth Muscle ◽  
Cell Surface ◽  
Striated Muscle ◽  
Calf Serum ◽  
Fluorescein Isothiocyanate ◽  
Muscle Cells ◽  
Cell Aggregation ◽  
Inhibitory Effect ◽  
Human Umbilical Cord ◽  
Gyratory Shaker

Skeletal muscle and liver tissue from 9-day-old chick embryos were dissociated into separate cells using 0.25 % (w/v) crude trypsin. The effect of rabbit anti-actomyosin sera on the aggregation of these cells was estimated by the gyratory shaker and turbidimetric methods. Studies were also undertaken on the ability of fluorescein isothiocyanate-labelled rabbit anti-uterine actomyosin serum (FITC-labelled anti-UAM) to stain the cell surface and on the type specificity and species specificity of rabbit anti-chicken actomyosin sera. Antisera against chicken gizzard smooth-muscle actomyosin (anti-GAM) and against chicken pectoralis striated muscle actomyosin (anti-PAM) both gave single precipitin bands with their respective actomyosins on diffusion through agar. The antisera neither reacted with their heterologous actomyosin nor with gizzard tropomyosin; they were type-specific. Serial sections of human cervix were stained in a similar pattern with both anti-UAM and anti-GAM, showing that anti-smooth muscle actomyosin sera were not species-specific. The fibrocytes of the human umbilical cord and human platelets were stained by FITC-labelled anti-UAM serum but not by labelled anti-human PAM. The aggregation of muscle and liver cells over a 24-h period in the presence of antisera against human or chicken PAM was not significantly different from the controls incubated on a gyratory shaker in Eagle's minimum essential medium (MEM) containing 10% (v/v) rabbit non-immunized serum (NIS) or calf serum. However, anti-UAM and anti-GAM inhibited both the rate of aggregation of liver and muscle cells and the size of aggregates attained in 24 h. This effect could not be simulated with specific rabbit antisera against human plasma proteins. The globulin-enriched fraction of anti-GAM markedly inhibited the aggregation of liver and muscle cells in a range of concentrations between 50 and 500 µg per 2 x 106 cells/ml Eagle's MEM. In contrast, the aggregation of cells incubated with globulin-enriched anti-PAM was similar to the controls. The addition of anti-GAM globulins at 1 or 2 h to muscle cells rotated by the turbidimetric method reduced the aggregative competence of the cells over the remainder of a 4-h period. The possibility that the inhibitory effect of anti-UAM and anti-GAM on cell aggregation is due to impurities in the antisera or to a general reaction with cell surface ATPases is discussed but, in the light of evidence, rejected in favour of a reaction between the antisera and an actomyosin of the smooth-muscle type at the cell surface.

Inhibitory effect of β-ecdysone on protein synthesis by blowfly fat body in vitro

1979 ◽  
Vol 35 (11) ◽  
pp. 1449-1451 ◽  
Author(s):  
R. Pau ◽  
L. Levenbook ◽  
A. C. Bauer
Keyword(s):  
Protein Synthesis ◽  
Fat Body ◽  
Inhibitory Effect

scholarly journals Effects of potassium deficiency on growth and protein synthesis in skeletal muscle and the heart of rats

1989 ◽  
Vol 62 (2) ◽  
pp. 269-284 ◽  
Author(s):  
Inge Dôrup ◽  
Torben Clausen
Keyword(s):  
Skeletal Muscle ◽  
Protein Synthesis ◽  
Muscle Protein ◽  
Control Level ◽  
Inhibitory Effect ◽  
Potassium Deficiency ◽  
Skeletal Muscle Protein ◽  
K Deficiency

The effects of potassium deficiency on growth, K content and protein synthesis have been compared in 4–13-week-old rats. When maintained on K-deficient fodder (1 mmol/kg) rats ceased to grow within a few days, and the incorporation of [3H]leucine into skeletal muscle protein in vivo was reduced by 28–38%. Pair-feeding experiments showed that this inhibition was not due to reduced energy intake. Following 14 d on K-deficient fodder, there was a further reduction (39–56 %) in the incorporation of [3H]leucine into skeletal muscle protein, whereas the incorporation into plasma, heart and liver proteins was not affected. The accumulation of the non-metabolized amino acid α-aminoisobutyric acid in the heart and skeletal muscles was not reduced. The inhibitory effect of K deficiency on 3H-labelling of muscle protein was seen following intraperitoneal (10–240 min) as well as intravenous (10 min) injection of [3H]leucine. In addition, the incorporation of [3H]phenylalanine into skeletal muscle protein was reduced in K-depleted animals. Following acute K repletion in vivo leading to complete normalization of muscle K content, the incorporation of [3H]leucine into muscle protein showed no increase within 2 h, but reached 76 and 104% of the control level within 24 and 72 h respectively. This was associated with a rapid initial weight gain, but normal body-weight was not reached until after 7 weeks of K repletion. Following 7 d on K-deficient fodder the inhibition of growth and protein synthesis was closely correlated with the K content of the fodder (1–40 mmol/kg) and significant already at modest reductions in muscle K content. In vitro experiments with soleus muscle showed a linear relationship between the incorporation of [3H]leucine into muscle protein and K content, but the sensitivity to cellular K deficiency induced in vitro was much less pronounced than that induced in vivo. Thus, in soleus and extensor digitorum longus (EDL) muscles prepared from K-deficient rats, the incorporation of [3H]leucine was reduced by 30 and 47 % respectively. This defect was completely restored by 24 h K repletion in vivo. It is concluded that in the intact organism protein synthesis and growth are very sensitive to dietary K deficiency and that this can only partly be accounted for by the reduction in cellular K content per se. The observations emphasize the need for adequate K supplies to ensure optimum utilization of food elements for protein synthesis and growth.

scholarly journals CDK7 Inhibitor THZ1 Induces the Cell Apoptosis of B-Cell Acute Lymphocytic Leukemia by Perturbing Cellular Metabolism

2021 ◽  
Vol 11 ◽  
Author(s):  
Tuersunayi Abudureheman ◽  
Jing Xia ◽  
Ming-Hao Li ◽  
Hang Zhou ◽  
Wei-Wei Zheng ◽  
...  
Keyword(s):  
B Cell ◽  
Cell Apoptosis ◽  
Acute Lymphocytic Leukemia ◽  
Cellular Metabolism ◽  
Underlying Mechanism ◽  
Inhibitory Effect ◽  
Lymphocytic Leukemia ◽  
High Concentration ◽  
P53 Expression

B-cell acute lymphocytic leukemia (B-ALL) is a malignant blood cancer that develops in children and adults and leads to high mortality. THZ1, a covalent cyclin-dependent kinase 7 (CDK7) inhibitor, shows anti-tumor effects in various cancers by inhibiting cell proliferation and inducing apoptosis. However, whether THZ1 has an inhibitory effect on B-ALL cells and the underlying mechanism remains obscure. In this study, we showed that THZ1 arrested the cell cycle of B-ALL cells in vitro in a low concentration, while inducing the apoptosis of B-ALL cells in vitro in a high concentration by activating the apoptotic pathways. In addition, RNA-SEQ results revealed that THZ1 disrupted the cellular metabolic pathways of B-ALL cells. Moreover, THZ1 suppressed the cellular metabolism and blocked the production of cellular metabolic intermediates in B-ALL cells. Mechanistically, THZ1 inhibited the cellular metabolism of B-ALL by downregulating the expression of c-MYC-mediated metabolic enzymes. However, THZ1 treatment enhanced cell apoptosis in over-expressed c-MYC B-ALL cells, which was involved in the upregulation of p53 expression. Collectively, our data demonstrated that CDK7 inhibitor THZ1 induced the apoptosis of B-ALL cells by perturbing c-MYC-mediated cellular metabolism, thereby providing a novel treatment option for B-ALL.

The Effect of Neuraminidase (3:2:1:18) on the Aggregation of Cells Dissociated from Embryonic Chick Muscle Tissue

1970 ◽  
Vol 6 (3) ◽  
pp. 751-766
Author(s):  
R. B. KEMP
Keyword(s):  
Cell Surface ◽  
Muscle Tissue ◽  
Muscle Cells ◽  
Cell Aggregation ◽  
Inhibitory Effect ◽  
Sialic Acids ◽  
Embryonic Chick ◽  
Experimental Conditions ◽  
Cell Counts

Embryonic chick muscle cells were used to investigate the effect of removing cell-surface sialic acids on cell aggregation in vitro. Single cell suspensions were prepared by dissociating skeletal muscle tissue of 9-day-old chick embryos with either crystalline or crude trypsin. Cell aggregation was quantitatively estimated by turbidimetric and gyratory shaker methods. Cells dissociated with crude trypsin and suspended in Hanks's balanced salts solution (BSS) containing 25u./ml neuraminidase (NANase) only aggregated for 2h when rotated in an absorptiometer. The inhibitory effect of the enzyme was more pronounced with increasing concentration up to 25u./ml. Cells dissociated with crystalline trypsin and treated with 100u./ml NANase immediately exhibited a reduced aggregative competence when gyrated in Eagle's minimum essential medium (MEM) containing 25u./ml NANase, compared with the controls which were not exposed to NANase. The aggregation rate of muscle cells pretreated with 100u./ml NANase and suspended in Eagle's MEM was similar to that of the untreated controls. Cell counts showed that under all three experimental conditions cells were not added to aggregates after the 12-h stage. Aggregates formed in Eagle's MEM (the controls) joined together to form larger aggregates after 12 h, but those rotating in the presence of NANase did not display this property. Lissamine green viability tests showed that cells remained alive throughout the 24-h period in the presence of NANase. Determinations of oxygen uptake, protein synthesis and mitotic index confirmed that general cellular viability was not affected by NANase. Fluorescent-labelled NANase was not taken up by the cells. Treatment of crystalline trypsin-dissociated muscle cells with 100u./ml NANase for 30 min at 37°C significantly reduced their negative electrophoretic mobility. This diminution closely corresponded to the removal of cell-surface sialic acids, as measured by colorimetric tests. Interpretation of the results in the light of current theories of cell adhesion failed to give support to the concept of adhesion by physical forces. The mechanism by which cellular deformability could influence cellular adhesiveness is modified in the knowledge of the present results.

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