Actinomycin D and the hormonal induction of amylase synthesis in barley aleurone layers

Summary The induction of amylase synthesis in barley aleurone layers by gibberellic acid is most sensitive to Actinomycin D (AM) over a short interval late in the lag phase. The duration of the lag phase may be extended as much as 3 fold by lower temperatures over the range 30° to 15° C. At each temperature the AM sensitive period remains close to the end of the lag phase, the period we have previously determined as the stage less sensitive to temperature.Lack of sensitivity to the inhibitor at other periods is not due to failure to penetrate, or to degradation. AM has no effect on tissue respiration, leucine, uridine or uracil uptake, leucine incorporation, or leucine pool size. At all stages it inhibits uracil and uridine incorporation into RNA. Thus AM probably acts by inhibiting RNA synthesis.     

The demonstration of acid phosphatase in cultured 3T3 mouse cells

Summary Acid phosphatase has been demonstrated ultrastructurally in 3T3 and SV40-3T3 mouse cells using sodium -glycerophosphate and p-nitrophenyl phosphate as substrate. The former substrate only demonstrates the enzyme in lysosomes and elements of the Golgi apparatus while the latter demonstrates it in the cisternae of the endoplasmic reticulum and in the cell surface as well as at lysosomal sites. The significance of surface acid phosphatase activity is discussed in terms of sublethal autolysis.     

Ultrastructural localization of actin in nuclear matrices from mouse leukemia L5178Y cells

We examined the distribution of actin in isolated nuclear matrices from mouse leukemia L5178Y cells using an anti-actin antibody and protein A-conjugated colloidal gold particles. Before immunogold staining, we partially digested the surface lamina of the nuclear matrix with trypsin (Nakayasu and Ueda, Exp. Cell Res. 143, 55-62, 1983) to allow penetration of the gold particles into the nuclear matrix. Trypsin digestion slightly modified the internal structure of the nuclear matrix, but did not affect the actin content in the nuclear matrix nor the reactivity of actin with the antibody. Many colloidal gold particles were present along fibrogranular structures in the nuclear matrix. The results reported here confirm the existence of actin in the interior of the nuclear matrices of L5178Y cells.     

The demonstration of acid phosphatase in cultured 3T3 mouse cells.

Acid phosphatase has been demonstrated ultrastructurally in 3T3 and SV40-3T3 mouse cells using sodium beta-glycerophosphate and p-nitrophenyl phosphate as substrate. The former substrate only demonstrates the enzyme in lysosomes and elements of the Golgi apparatus while the latter demonstrates it in the cisternae of the endoplasmic reticulum and in the cell surface as well as at lysosomal sites. The significance of surface acid phosphatase activity is discussed in terms of sublethal autolysis.     

Synthesis and secretion of IgG in synchronized mouse myeloma cells

A mutant of the MPC-11 mouse myeloma cell line which grows as a monolayer has been used to study the synthesis and secretion of IgG in relation to the cell cycle. The mitotic detachment method has been used to obtain a pure population of mitotic cells which were then allowed to progress through the G1, S, and G2 phases of the cell cycle. The synthesis and the rate of secretion of IgG have been studied in each phase of the cycle by incubation of cells with ¹⁴C-amino acids, followed by immunoprecipitation and quantitation of synthesized and secreted IgG_2b. The data are consistent with the idea that synthesis and secretion of Ig are not a cell cycle dependent event in myeloma cells.     

Stat3-dependent induction of interleukin-3 receptor expression in leukemia inhibitory factor-stimulated M1 mouse leukemia cells

M1 mouse leukemia cells differentiate to macrophages/monocytes by the stimulation of interleukin-6 (IL-6)/leukemia inhibitory factor (LIF). To identify new LIF-induced genes, we have performed representational difference analysis using M1 cells and cloned mouse interleukin-3 (IL-3) receptor beta subunit gene. The mRNA expression of both IL-3 receptor (IL-3R) alpha and beta subunits is upregulated after 1 h stimulation of LIF and remains to be elevated along the differentiation of M1 cells. This induction is almost completely suppressed in M1 cells expressing a dominant negative form of Stat3. Furthermore, we show that IL-3-induced Stat5 phosphorylation increases in LIF-stimulated M1 cells. These results suggest that Stat3 may play a role in the differentiation of myeloid cells by regulating IL-3R expression.     

Constant expression and activity of protein phosphatase 2A in synchronized cells.

The levels of the A, B, and C subunits of protein phosphatase 2A in extracts from synchronized embryonic bovine tracheal cells were determined by immunoblotting with subunit-specific antibodies. A constant amount of each subunit was found in resting cells as well as in growing cells from all stages of the cell cycle. The phosphatase activity of protein phosphatase 2A was also constant. A quantitative comparison showed that the A and C subunits were present in similar amounts, whereas the B subunit was present at a significantly lower level. Together, the A, B, and C subunits represented approximately 0.2% of the total cellular protein.     

Mutation induction by tritiated water and effects of deuterium oxide in cultured mouse leukemia cells

Induction of mutation to 6-thioguanine resistance was studied in L5178Y mouse leukemia cells after exposure to low-dose-rate gamma rays or tritiated water at dose rates of approximately 0.025 to 0.4 Gy/hr for 20 hr in the presence or absence of 45% (v/v) deuterium oxide. The effect of acute gamma-ray exposure was also examined. A higher frequency of induced mutations was observed after tritium beta rays than after gamma rays, both at equivalent doses and cell survival. Deuterium oxide enhanced the mutation induced by gamma rays and tritium beta rays but did not affect the survival-mutation correlation of the two radiations.     

Role of microvilli in surface changes of synchronized P815Y mastocytoma cells

The surface morphology of synchronized P815Y mastocytoma cells has been examined by scanning electron microscopy. Early G1 cells are comparatively smooth or light villated, whereas at later stages the surface becomes progressively more villated. In G1 cell most microvilli have a uniform diameter, whereas in S and G2 cells, many microvilli show branching and often originate from much larger surface protuberances. Small "blebs" are seen on the surface of many cells but these structures do not appear to be a characteristic feature of cells at any one stage of the cycle. The presence of microvilli increases the total surface of the cell to such an extent that the ratio of volume to surface area remains constant throughout the cell cycle. The mechanism of cytokinesis is thus a physical one, involving the unfolding of previously accumulated microvilli.     

Regulation of Actinomycin D induced upregulation of Mdm2 in H1299 cells

Mdm2 is a critical negative regulator of the p53 tumor suppressor and also has many p53-independent functions. Deregulation of Mdm2 is closely associated with tumorigenesis. However, how Mdm2 is regulated in response to various stresses is not well understood. In this study, we found that Mdm2 was stabilized and upregulated upon Actinomycin D (ActD) treatment in the p53-deficient H1299 cell line. This Mdm2 upregulation was not dependent on the ribosomal protein L11, an essential player in ribosomal stress-induced p53 activation, but did require a NEDDylation-dependent mechanism. We further demonstrated that the ActD-induced Mdm2 stabilization may be modulated by the cell growth signaling, and that knockdown of Mdm2 enhanced ActD-induced cell death in H1299 cells. These results suggested a role of Mdm2 in the ribosomal stress response in the p53 deficient cells, which could be exploited in therapeutic use for treating cancers harboring p53 mutations.     

Synthesis of immunoglobulin and nuclear protein in synchronized mouse myeloma cells

The synthesis of immunoglobulin and of nuclear proteins has been studied in synchronized mouse myeloma cells of the C1 line. Synchronization has been obtained by a double thymidine block. C1 cells synthesize immunoglobulin at a relatively constant rate throughout the cell cycle except for mitosis, when a decrease in the rate of synthesis of total protein and of immunoglobulin is observed. Cell synchrony around mitosis is not sufficiently good to determine whether immunoglobulin is synthesized at all. Nuclear protein and in particular histones appear to be synthesized synchronously with DNA during the S phase of the cell cycle.     

Replication kinetics of three DNA sequence families in synchronized mouse cells

Balb/C3T3 cells entered the quiescent Go state following serum deprivation. On addition of fresh serum, more than 95% of the culture resumed growth, but with asynchronous kinetics. If hydroxyurea were added just before the first cells reached S phase, at at least 90% of the cells accumulated at the Gl/S border over the next ten hours. When the block was removed, the culture moved synchronously into S phase. As the cells traversed S, the replication kinetics of three classes of rapidly renaturing DNA were analyzed. Main band highly repeated DNA and foldback DNA replicated continuously, In contrast, satellite DNA replication did not commence until three hours into S, whereupon its rate of synthesis increased ver rapidly, reaching a maximum with the next two hours. These results are discussed in the light of earlier work utilizing other methods of cell synchronization.