Regulation of gene amplification and expression in cells that constitutively express a temperature sensitive SV40 T-antigen.

Simian cells have been transformed with SV40 origin-defective recombinant plasmids containing the tsA209 T-antigen gene. These plasmids contain deletions of either 5 or 52 nucleotides that include the BglI site at the SV40 ori, are defective for replication in COS-1 cells but retain a functional SV40 early promoter. Two cell lines transformed with these plasmids, U4 and S7, and their respective clonal derivatives E5 and F11, contain the tsA209 T-antigen gene integrated into the cell DNA and express T-antigen as detected by immunoprecipitation and immunofluorescence.

A primer vector system that allows temperature dependent gene amplification and expression in mammalian cells: regulation of the influenza virus NS1 gene expression.

Influenza virus RNA segment 8 has been cloned into primer-vector pSLts1. This vector was designed to replicate in simian cells in a temperature dependent fashion by use of the SV40 tsA209 T-antigen gene. The oriented synthesis of cDNA on dT-tailed pSLts1 was performed on in vitro synthesized mRNA, and the second DNA strand was primed with an influenza-specific terminal oligodeoxynucleotide.

Preparation of monoclonal antibodies against glycoprotein IIIa of human platelets. Their effect on platelet aggregation.

Monoclonal antibodies against purified glycoprotein IIIa (GPIIIa) of human platelet membranes have been obtained. These antibodies, except one, are able to bind to intact platelets; the exception is M108/p98 antibody which recognizes a new epitope, unmasked after proteolysis of GPIIIa in vitro. Several antigenic areas can be delineated on the molecule, by testing the ability of different antibodies to compete in their simultaneous binding to GPIIIa.

Identification of the glucose/glycosylation-regulated proteins as those which accumulate in the temperature-sensitive cell line K12.

The analysis of proteins synthesized by the temperature-sensitive cell line K12 at the restrictive temperature or after glucose starvation revealed that two main polypeptides were enhanced under both conditions. Besides having the same apparent molecular weights, these new proteins showed identical patterns of partial proteolysis products, irrespective of being isolated from cells incubated at the nonpermissive temperature or from glucose-starved cultures. These results identified the proteins overproduced by K12 cells at 39.

Host nuclear proteins expressed in simian virus 40-transformed and -infected cells.

Two new families of host proteins (Mr, 48,000 and 55,000), in additional to the viral large (T) and small tumor antigens, are precipitable, with anti-T antiserum, from cells transformed or infected by the DNA tumor virus simian virus 40 (SV40). Rabbit anti-mouse 48,000 protein antiserum reacts specifically with SV40-infected or -transformed mouse cells to give nuclear staining indistinguishable from T-antigen staining but does not react with SV40-transformed human cells which nevertheless have structurally analogous 48,000 proteins, nor does it give nuclear fluorescence with untransformed mouse cells. Comparison of the partial proteolytic digests of the 48,000 proteins from cultured cells of various mammalian species shows that they are structurally related but not related to the 55,000 or large T-antigen proteins.

Isolation and cell cycle analysis of temperature-sensitive mutants from Chinese hamster cells.

Mutants temperature-sensitive for growth have been isolated from the established line of Chinese hamster fibroblasts Wg1A. These mutants, together with the ones previously isolated by Roscoe et al. ('73), have been characterized with regard to their cell cycle properties.

Enhancement of the synthesis of specific cellular polypeptides in a temperature-sensitive Chinese hamster cell line (K12) defective for entry into S phase.

Temperature-sensitive Chinese hamster cells (K12) have been shown to be defective for the initiation of new rounds of DNA replication when incubated at the restrictive temperature (40.5 degrees). By temperature shift experiments with synchronous cultures, we have marked out the step at which the mutation is expressed as the four hours preceding the initiation of DNA synthesis.

The effect of heat-inactivated murine cytomegalovirus on host DNA synthesis of different cells.

Heat-inactivated murine cytomegalovirus (MCMV) stimulates cellular DNA synthesis in WME, NMG, 3T3, WgIA, chick and NIK-8 cells, but active or u.v.-irradiated MCMV does not.

Synthesis of a class of DNA-binding proteins in synchronized untransformed and virus-transformed cells.

The synthesis of a classs of proteins with affinity for denatured DNA has been studied in synchronized cultures of the established hamster fibroblast line HIL-1 and its virus-transformed derivative NIL-1-hamster sarcoma virus. It has been found that the synthesis of a DNA-binding protein (P6, molecular weight 50 000) in synchronized untransformed NIL-1 cells follows a pattern different from that observed in the transformed cells. The protein is low in stationary cultures of NIL-1 and NIL-1-hamster sarcoma virus but increases after the cells are stimulated to grow, although the time of maximal P6 synthesis relative to cellular DNA synthesis is different in NIL-1 and NIL-1-hamster sarcoma virus.

Subcellular distribution of DNA-binding proteins from cultured hamster fibroblasts.

The distribution between nuclei and cytoplasm of DNA-binding proteins from growing NIL cells was studied. To obtain the subcellular fractions, cell monolayers or cells previously detached from the culture dish were treated with non-ionic detergent N onidet P-40. Proteins with affinity for DNA were isolated from nuclear or cytoplasmic fractions by chromatography on DNA-cellulose columns and were further analyzed by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate.

Deoxyribinucleic acid-binding proteins in virus-transformed cell lines.

The synthesis of proteins with affinity for DNA has been studied in clones of a Syrian hamster cell line (NIL) and subclones of this line transformed by polyoma virus (NIL-Py) or hamster sarcoma virus (NIL-HSV). The results show that the synthesis of DNA-binding proteins in NIL and in its virus-transformed derivatives NIL-Py and NIL-HSV is very similar in exponentially growing cells, but in dense culture there is a very significant difference in the level of a protein (P8), which is much higher in the transformed lines than in untransformed NIL. The high levels of P8 in dense transformed cells have been observed in all the clones of transformed cells examined, indicating that this behavior of P8 is related to transformation and not simply due to a fortuitous clonal selection from the NIL.