Aging effects on the liver aldolase of rabbits

The structure and amount of actin in IMR-90 fibroblasts

Double-labelling and peptide isolation have been used to examine the homology between the actin of IMR-90 human embryo fibroblasts and muscle actin. After separation of mixtures of [14C]carboxymethylated muscle actin and [3H]carboxymethylated proteins of IMR-90 cells of electrophoresis on sodium dodecyl sulphate-containing polyacrylamide gels, peptides were generated from the material co-migrating with actin by digestion with chymotrypsin. Peptides homologous with peptides accounting for Cys-217, Cys-256, Cys-284 and Cys-373 of muscle actin are present in this material, but no peptide homologous with a Cys-10-containing peptide was detected. From the amount of actin-derived peptides present, the actin content of IMR-90 fibroblasts was calculated to be 4.2% of the total protein of these cells.

Studies on phosphoglucose isomerase from cultured human fibroblasts: absence of detectable ageing effects on the enzyme

Some properties of the enzyme phosphoglucose isomerase (PGI) from the foetal lung fibroblast strain MRC-5 have been investigated throughout the in vitro lifespan of this cell strain. No significant age-related alterations in specific activity or thermostability of PGI could be detected. Titration of enzymatic activity with antibody directed against purified PGI showed no detectable differences in PGI from extracts of early passage cells compared with enzyme from senescent cells. The effect of p-fluorophenylalanine incorporation on PGI was examined in early passage fibroblasts. Thermostability studies showed increased heat lability of PGI from analogue treated cells when compared with enzyme from control cells at the same passage. However, no inactive PGI protein could be detected by anti-serum titration in extracts from analogue-treated cells. The results indicate that no significant amount of altered or inactive PGI is produced in ageing fibroblasts.

Thermosensitivity of nuclear RNA polymerase during the in vitro senescence of mouse fibroblasts

Embryonic mouse fibroblasts divide approximately twelve times in vitro prior to cessation of mitotic activity. During this period of cellular senescence the thermosensitivity of the RNA polymerase activity of isolated nuclei has been examined as a means of detecting the possible accumulation of defective enzyme molecules, as has been found by other workers for several cytoplasmic enzymes during the ageing of human fibroblasts in vitro. The total RNA polymerase activity of nuclei isolated from old (10th generation) cells is more thermoresistant than that of young (2nd generation) cells. However, the net RNA polymerase activity of nuclei from non-dividing (confluent) cells is more thermoresistant than that of exponentially growing cells of the same age. When allowance is made for the state of growth of the cultures, little difference is seens in the thermosensitivity of the activities of nuclei from old and young cells. Neither is there any difference between the thermosensitivity of the net activity of an established line of murine fibroblasts (L-cells) and cells in primary culture. Preheating nuclei increases the inhibition of their total RNA polymerase activity by alpha-amanitin, indicating that RNA polymerase II is the most heat resistance species present. There appears to be no difference between the thermosensitivity of the alpha-amanitin sensitive and resistance species of the enzyme in the nuclei of old and young cells. It is concluded that old cells resemble non-dividing young cells in containing a higher proportion of RNA polymerase II in their nuclei, resulting in greater thermoresistance of the total RNA polymerase activity over that of exponentially growing cells. However, there appears to be no increase in thermosensitivity of the enzymes with age.

The actin of muscle and fibroblasts

The isolation and quantification of an 18-residue peptide from the N-terminal region of chicken actin was used to quantify the amount of actin in acetone-dried powders of chicken breast muscle and chicken-embryo fibroblasts. Either isotope dilution or double labelling can be used for peptide quantification. About 17% of the protein of chicken breast muscle was estimated to be actin. However, only 0.25% of the protein of chicken-embryo fibroblasts was determined to be actin by quantification of this peptide. The actin content of fibroblasts may be low or the amino acid sequences of muscle and fibroblast actin may differ in the N-terminal region. The methodology used can be extended to examine whether other regions of muscle actin sequence are present in fibroblasts or other cell types.

Specific irreversible inhibition of enzymes concomitant to the oxidation of carbanionic enzyme-substrate intermediates by hexacyanoferrate (III)

Four different enzymes, class I fructose-1,6-biphosphate aldolase from rabbit muscle, class II fructose-1,6-bisphosphate aldolase from yeast, transaldolase, and transketolase, are inactivated progressively in the presence of their specific substrates and hexacyanoferrate(III). The inactivation is strictly linked to the oxidation of the carbanionic enzyme-substrate intermediates of these enzymes reported previously [Healy, M. J. and Christen, P. (1973) Biochemistry, 12, 35]. However, the loss of activity is not due to the products of this oxidation, i.e. to hexacyanoferrate(II), or to the oxidation product of the substrate such as hydroxypyruvaldehyde phosphate in the case of aldolase [Healy, M. J. and Christen, P. (1972) J. Am. Chem. Soc. 94, 7911]. The inactivation is not reversed on removal of low-molecular-weight compounds by gel filtration or extensive dialysis indicating a covalent modification of the enzyme. The rate of inactivation obeys saturation kinetics with respect to substrate concentration. Hence, the modifying agent is a transiently reactive intermediate formed during the oxidation of the carbanionic enzyme-substrate intermediate by hexacyanoferrate(III).

Properties of phosphoenolpyruvate carboxykinase (guanosine triphosphate) synthesized in hepatoma cells in the presence of amino acid analogues

Phosphoenolpyruvate carboxykinase (GTP) was induced by a combination of dibutyryl cyclic AMP, theophyline and dexamethasone in Reuber H35 hepatoma cells under conditions where an amino acid in the medium was replaced by an appropriate analogue. 2. With canavanine replacing arginine or with 5-fluorotryptophan or 6-fluorotryptophan replacing tryptophan the induced enzyme had a lower catalytic activity-relative to antibody reactivity. 3. These aberrant enzyme molecules were heat-labile in vitro. 4. Measurements of enzyme degradation in vivo indicated that the canavanine-containing enzyme and the 6-fluorotryptophan-containing enzyme were degraded more rapidly than the enzyme containing all natural amino acids.

Increased degradation rates of protein synthesized in hepatoma cells in the presence of amino acid analogues

1. Reuber H35 hepatoma cells incorporate the arginine analogue canavanine into cell protein when arginine is omitted from the incubation medium. 2. By labelling arginine-containing proteins with (14-C)leucine and then canavanine-containing proteins with (3-H)leucine in the same cells, it is possible to measure the degradation of both types of protein during a subsequent 'chase' period. With this technique it has been shown that canavanine-containing proteins are degraded at a rate severalfold greater than normal proteins. Comparable results were found when 6-fluorotryptophan was used as an analogue to tryptophan. 3. Control experiments in which the labelling order was reversed or where the animo acid and its analogue were incubated in separate cell cultures support the conclusion that abberrant proteins are rapidly degraded in vivo.