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A series of heat-resistant mutants selected from a murine tumor cell line, RIF-1, display a markedly increased and stable resistance to heat shock. The mutant cell lines were analyzed for differences that may explain their increased resistance. Membrane lipid analysis showed no change in cholesterol content but an increase in the proportion of saturated fatty acids in the phospholipid fraction. Two-dimensional gel analysis revealed a generally increased constitutive synthesis of several major heat shock proteins (HSP), including HSP90, 68, 60, and 28. In addition, a new protein in the 70-kilodalton region is present in the resistant lines. The new protein has a lower isoelectric point than the constitutive HSP70 does, is only weakly induced by heat shock, and is immunologically cross-reactive with other members of the HSP70 family. After heat shock, the mutants display increases in HSP similar to those seen in the wild-type cells and they develop further transient tolerance to heat. Analysis of these mutants may help in understanding the function of HSP, both in normal growth and after heat shock.
Mol Cell Biol 1989 Aug
PMID:Biochemical analysis of heat-resistant mouse tumor cell strains: a new member of the HSP70 family. 279 93

Murine uterine steady-state protein levels of the 90-kilodalton heat shock protein (HSP90) have been demonstrated recently to be increased by estrogen in a target tissue- and steroid-specific manner (C. Ramachandran, M.G. Catelli, W. Schneider, and G. Shyamala, Endocrinology 123:956-961, 1988). We now report that this regulation occurred with both the HSP86 and HSP84 forms of HSP90 as well as with the 94-kilodalton glucose-regulated protein. At the mRNA level, this response was greatest for HSP86 (15-fold). In contrast, estradiol had no significant effect on HSP70.
Mol Cell Biol 1989 Aug
PMID:Estrogenic regulation of murine uterine 90-kilodalton heat shock protein gene expression. 279 99

The human heat shock protein 70 (hsp70) gene is expressed constitutively in a wide variety of cells. Two separate promoter domains determine this basal level of hsp70 expression. The proximal domain is contained within 84 bases of the transcription initiation site and consists of three elements which appear to interact with the TATA factor(s) and CCAAT-box-binding transcription factor and SP1, respectively. The proximal domain is sufficient for near-maximal basal expression to rodent cell lines. The distal promoter domain consists of sequences upstream of -84 and is necessary in conjunction with the proximal domain for full basal expression in human cell lines. Although in BALB/c 3T3 cells the distal promoter domain plays little role in basal expression, it is functional as evidenced by the ability to compensate efficiently for mutations in the proximal CCAATC homology. The distal domain does not compensate as efficiently for proximal-domain mutations in HeLa cells. Basal expression of this human hsp70 promoter is, therefore, determined by multiple elements. Fewer elements are required for basal expression in rodent cell lines than in human cell lines, suggesting that there are significant differences between the rodent and human transcription apparatuses.
Mol Cell Biol 1987 Oct
PMID:Multiple basal elements of a human hsp70 promoter function differently in human and rodent cell lines. 282 93

We have cloned a human gene encoding the 70,000-dalton heat shock protein (HSP70) from a human genomic library, using the Drosophila HSP70 gene as a heterologous hybridization probe. The human recombinant clone hybridized to a 2.6-kilobase polyadenylated mRNA from HeLa cells exposed to 43 degrees C for 2 h. The 2.6-kilobase mRNA was shown to direct the translation in vitro of a 70,000-dalton protein similar in electrophoretic mobility to the HSP70 synthesized in vivo. From the analysis of S1 nuclease-resistant mRNA-DNA hybrids, the HSP70 gene appears to be transcribed as an uninterrupted mRNA of 2.3 kilobases. We show that the cloned HSP70 gene contains the sequences necessary for heat shock-induced expression by two criteria. First, hamster cells transfected with a subclone containing the HSP70 gene and flanking sequences synthesized a HSP70-like protein upon heat shock. Second, human cells transfected with a chimeric gene containing the 5' flanking sequences of the HSP70 gene and the coding sequences of the bacterial chloramphenicol acetyltransferase gene transcribed the chimeric gene upon heat shock. We show that the HSP70 mRNA transcribed in an adenovirus 5 transformed human cell line (293 cells) is identical to the HSP70 mRNA induced by heat shock.
Mol Cell Biol 1985 Feb
PMID:Structure and expression of the human gene encoding major heat shock protein HSP70. 285 50

The construction and isolation of three recombinant DNAs complementary to different mouse L-cell Mr = 68,000 heat shock protein (hsp68) mRNAs is described. cDNA libraries derived from heat-shocked mouse L-cell poly(A)+ RNA by the vector-linked primer strategy of cDNA synthesis and cloning of Okayama and Berg (Okayama, H., and Berg, P. (1982) Mol. Cell. Biol. 2, 161-170) were screened first with a Drosophila hsp70 heterologous probe and subsequently with a cDNA probe isolated from the first screening. Positive clones were assigned to one of three sets based on their restriction map, and the largest member of each group was chosen for further analysis. All three cDNAs hybrid-select mRNA for the mouse major heat shock protein (hsp68) as assayed by in vitro translation and hybridize preferentially to two heat shock-induced hsp68 mRNAs on Northern blots. The coding regions of the cDNAs are almost identical and closely resemble other HSP70 genes but the 3' untranslated regions diverge considerably. Differences in the lengths of the untranslated regions are responsible for the two different sized induced hsp68 mRNAs in mouse L-cells. The physical maps of these cDNA clones and the limited number of mouse genomic DNA fragments detected on Southern blots suggest that there are at least three closely related heat shock-inducible members of the mouse HSP70 gene family. None of the cloned cDNAs are derived from the two related cognate genes known to be present in the mouse genome.
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PMID:Molecular cloning and analysis of DNA complementary to three mouse Mr = 68,000 heat shock protein mRNAs. 286 9

The Escherichia coli-expressed adenovirus E1A 13S mRNA product injected into Xenopus oocytes was active, as assessed by its ability to stimulate the transcription of an injected gene which is normally responsive to E1A in mammalian cells. In the presence of the protein synthesis inhibitors pactamycin or cycloheximide, E1A was correctly posttranslationally modified (phosphorylated) and transported to the nucleus; but it failed to stimulate the transcription of an injected gene containing the human heat shock protein 70 promoter. The basal (unstimulated) level of transcription of the gene was unaffected by these inhibitors. If oocytes were cultured in the presence of cycloheximide after E1A stimulated transcription, however, the high level of transcription was maintained for several hours without new protein synthesis. Results of competition studies with the same promoter (the heat shock protein 70 promoter) linked to two marked genes demonstrated that once the induction of transcription by E1A took place, the stimulated levels of transcription were maintained, even when they were challenged with excess competitor DNA. Results of these studies suggest that E1A requires the synthesis of a cellular protein to form a stable transcription complex.
Mol Cell Biol 1987 Sep
PMID:Adenovirus E1A requires synthesis of a cellular protein to establish a stable transcription complex in injected Xenopus laevis oocytes. 295 58

Polyomavirus large T antigen binds to two sites located between positions -110 and -170 of a human heat shock protein 70 (hsp70) promoter. Methylation interference studies show that binding for each site is determined by two GPuGGC pentanucleotide sequences. The specificity of this binding interaction is similar to that observed for large T binding to the viral genome. The existence of sequences that bind a viral protein in a cellular promoter raises the possibility that these sequences play a role in gene expression in an uninfected cell. We show that hsp70 large T antigen binding site 1 is capable of functioning as an upstream promoter element in cells that do not contain any viral T antigen. Genetic analysis of this effect suggests that a cellular factor exists that has a binding specificity that overlaps but is not identical to that of polyomavirus large T antigen. To determine whether binding of polyomavirus large T antigen can regulate expression of the intact human hsp70 promoter, we have introduced the promoter into mouse cells with plasmids that express the polyomavirus early proteins. These proteins stimulate the level of correctly initiated hsp70 transcripts, but surprisingly the degree of stimulation remains unchanged for promoter constructs in which the large T antigen binding sites have been deleted. These observations suggest that trans activation of the hsp70 promoter by the polyomavirus early proteins occurs through protein-protein interactions and not through sequence-specific DNA binding.
Mol Cell Biol 1986 Sep
PMID:Binding of polyomavirus large T antigen to the human hsp70 promoter is not required for trans activation. 302 66

We have examined the effect of the anti-tumor drug VM-26 on purified Drosophila topoisomerase II, and used this drug to map (putative) topoisomerase II cleavage sites in chromatin. These studies indicate that VM-26 interferes with the strand breakage-rejoining catalytic cycle. VM-26 appears to stabilize the topoisomerase-II-cleavable complex and markedly enhances the formation of double-strand breaks in naked DNA. VM-26 also stimulates the formation of double-strand breaks in isolated Drosophila nuclei. Analysis of the parameters of the VM-26-stimulated cleavage reaction in nuclei strongly suggests that the double-strand scissions are generated by endogenous topoisomerase II. Finally, we have examined the distribution of (putative) cleavage sites for endogenous topoisomerase II in the chromatin of the 87A7 heat shock locus and the histone repeat unit. We have found that there are prominent VM-26-induced cleavage products from the 5' ends of the 87A7, the two heat shock protein 70 genes, and in the intergenic spacer separating these genes. Moreover, the pattern of VM-26-induced cleavage products is altered in nuclei prepared from heat-shocked cells. In the case of the histone repeat unit, only minor VM-26-induced cleavage products are observed in nuclei (in spite of the fact that experiments on naked DNA indicate that the histone repeat contains many major cleavage sites for purified topoisomerase II). These findings suggest that the nucleoprotein organization of different DNA segments may be important in determining whether specific sites are accessible to endogenous topoisomerase II in nuclei.
J Mol Biol 1986 Sep 20
PMID:Topoisomerase II cleavage in chromatin. 302 49

Two-dimensional protein gels were used to systematically assess changes in gene expression in Friend erythroleukemia cells after exposure to inducers of differentiation. A rapid decrease in expression of the stress protein HSP70 was observed after exposure to inducers. The kinetics of this change suggest that it may be related to the cellular events that regulate the onset of differentiation.
Mol Cell Biol 1988 May
PMID:Decreased expression of the stress protein HSP70 is an early event in murine erythroleukemic cell differentiation. 316 40

Activation of human heat shock gene transcription by heat shock, heavy metal ions, and amino acid analogs required the heat shock element (HSE) in the HSP70 promoter. Both heat shock- and metal ion-induced HSP70 gene transcription occurred independently of protein synthesis, whereas induction by amino acid analogs required protein synthesis. We identified a HSE-binding activity from control cells which was easily distinguished by a gel mobility shift assay from the stress-induced HSE-binding activity which appeared following heat shock or chemically induced stress. The kinetics of HSP70 gene transcription paralleled the rapid appearance of stress-induced HSE-binding activity. During recovery from heat shock, both the rate of HSP70 gene transcription and stress-induced HSE-binding activity levels declined and the control HSE-binding activity reappeared. The DNA contacts of the control and stress-induced HSE-binding activities deduced by methylation interference were similar but not identical. While stable complexes with HSE were formed with extracts from both control and stressed cells in vitro at 25 degrees C, only the stress-induced complex was detected when binding reactions were performed at elevated temperatures.
Mol Cell Biol 1988 Nov
PMID:Coordinate changes in heat shock element-binding activity and HSP70 gene transcription rates in human cells. 321 Nov 26

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