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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A cDNA expression library constructed from RNA derived from adult stage Brugia pahangi (mixed sexes) was screened with pooled sera from chronic, amicrofilaremic cases of human lymphatic filariasis from the Indonesian island of Tanjungpinang, where Brugia malayi is endemic. Polyclonal antisera raised to purified
beta-galactosidase
fusion proteins from two of the most highly reactive clones identified a protein of Mr 70,000 in all stages examined (microfilariae, L3 and adults) of both B. malayi and Brugia pahangi. Derivation of the amino acid sequence from these two overlapping cDNAs identified the encoded protein as a member of the
heat shock protein 70
family, and showed the closest similarity to the constitutively expressed "heat shock cognate 70" (hsc70) protein. Hybridization of hsc70 cDNAs to RNA and DNA from B. pahangi under stringent conditions identified a major transcript of 2.4 kb and revealed the existence of a family of related genes. In vitro culture of larval stages of B. pahangi at elevated temperatures (43 degrees C) resulted in increased expression of hsc70, and a classic heat shock response in which five proteins (mr 18,500, 22,000, 62,000, 70,000, and 85,000) were exclusively synthesized in microfilariae. Analysis of cross-reactivities by Western blotting implied that antibody generated by infection with B. malayi was directed at filarial-specific determinants of Brugia hsc70. However, ELISA with recombinant fusion proteins for both Plasmodium falciparum and Schistosoma mansoni hsc70 indicated that some individuals with Brugian or Bancroftian filariasis did produce antibodies which cross-reacted with plasmodial and schistosomal homologs. Thus filarial-specific antibody responses were not generated in all individuals, indicating that this molecule would not be suitable for diagnostic purposes. ELISA with a purified
beta-galactosidase
fusion protein from B. pahangi showed antibody responses to hsc70 across the clinical spectrum of filariasis. Alignment of the derived amino acid sequences from B. pahangi, P. falciparum, S. mansoni and rat hsc70 homologs, and comparison of the immunologic reactivity of the products of the two cDNA clones by Western blotting and ELISA suggested that these determinants were located primarily at the C terminus of the protein.
...
PMID:Heat shock cognate 70 is a prominent immunogen in Brugian filariasis. 265 68
The Saccharomyces cerevisiae SIS1 gene encodes an essential heat shock protein with similarity to the Escherichia coli DnaJ protein. In sis 1-85 and sis1-86 mutants, the sis1 RNA is induced to high levels at room temperature and without heat shock. The presence of wild type SIS1 in the sis1-85 mutant represses the overexpression of SIS1-85 protein. Furthermore, overexpression of wild type SIS1 reduces the
beta-galactosidase
activity expressed from a SIS1:lacZ fusion. These results suggest that SIS1 negatively regulates its own expression. The autoregulation of SIS1 transcription is mediated through a 39-base pair cis-element containing the SIS1 heat shock element plus additional flanking sequences on one side. Although SIS1 transcription is constitutive, it is transiently induced upon heat shock. In addition, SIS1 transcription is regulated by SSA (a class of
HSP70
proteins) function. The elevated transcription of SIS1 in ssa1 ssa2 mutants is mediated solely through the SIS1 heat shock element. Therefore, the SIS1 autoregulatory element is different from the SSA-responsive element, suggesting that the mechanism involved in autoregulation of SIS1 is distinct from regulation of SIS1 by SSA proteins.
...
PMID:Transcriptional regulation of the yeast DnaJ homologue SIS1. 857 23
Expression of the 70 kDa heat shock protein (
HSP70
) induced by a first insult is associated with protection from a subsequent ischemic insult in brain. Expression of the human inducible
HSP70
was previously shown to protect astrocytes in primary culture from combined oxygen-glucose deprivation. These studies have now been extended to demonstrate that
HSP70
expression also protects from isolated glucose deprivation. Slight protection was seen against hydrogen peroxide (H2O2) exposure. Glutathione levels decrease less after glucose deprivation or H2O2 exposure (200 microM) in the cells overexpressing
HSP70
, compared to either
beta-galactosidase
expressing or uninfected controls (P < 0.01). These data suggest that the
HSP70
-expressing cells suffered less oxidative stress since their glutathione levels were better preserved.
...
PMID:HSP70 protects murine astrocytes from glucose deprivation injury. 913 95
Hyperthermia is known to improve the response of tumors to radiation or chemotherapeutic treatment when combined in multimodal strategies. The cellular response to hyperthermia is associated with the synthesis of heat shock proteins (HSP). To study the stress response in prostate cancer we have developed a clone of Dunning R3327 rat prostate carcinoma cells stably transfected with a gene construct containing the E. coli
beta-galactosidase
gene driven by the Drosophila
HSP70
promoter. The measurement of
beta-galactosidase
serves as a rapid and semiquantitative assay of
HSP70
gene activation. The Dunning cell clone showed evidence of incorporation of the
HSP70
/
beta-galactosidase
construct within the genomic DNA by Southern blot analysis. When compared to mock-transfected control cells, the clone showed minimal baseline
beta-galactosidase
activity, which significantly increased following a hyperthermic stress. The time course of
beta-galactosidase
elevation following heat stress paralleled the time course of cellular
HSP70
elevation by Western blot analysis. These stably transfected Dunning R3327 cells may provide a useful tool to study the effects of hyperthermia, radiation, and chemotherapeutic agents on the cellular stress response and in the establishment of
HSP70
as a marker of cellular resistance in the multimodal treatment of prostate cancer.
...
PMID:Beta-galactosidase as a marker of HSP70 promoter induction in Dunning R3327 prostate carcinoma cells. 928 33
We examined the effects of X irradiation on activation of the promoter of the human HSP70B gene, which is activated only after heat shock. The HSP70B promoter was ligated to the bacterial
beta-galactosidase
(beta-gal) gene, and the reporter plasmid was transfected into NCI-H1299 carcinoma cells. The expression of the reporter gene was determined by an immunological assay using an anti-beta-gal monoclonal antibody. There was no expression of beta-gal protein in the control cells, and neither 2 cGy nor 6 Gy of X rays activated the HSP70B promoter. Heat-shock treatment at 43 degrees C for 2 h induced beta-gal expression, and this level was increased significantly by irradiation with 2 cGy of X rays 5 h before heat-shock treatment. This stimulative effect was not observed when cells were pretreated with 10 or 50 cGy of X rays. Furthermore, irradiation of cells with 6 Gy of X rays before or immediately after heat-shock treatment did not affect the level of beta-gal expression. In situ staining of beta-gal-positive cells using X-gal as substrate revealed that low-dose irradiation did not increase the overall level of induction of beta-gal but increased the number of cells capable of inducing beta-gal in response to heat shock. Since preirradiation with 2 cGy of X rays did not alter either the constitutive level or the induced level of HSP72, another member of the
HSP70
family, the effect of low-dose irradiation may not be obvious if the promoter is already active. Thus these results indicate that pretreatment with low doses of ionizing radiation may enhance the susceptibility of cells to various stresses, which would then facilitate the activation of gene transcription in response to a subsequent insult.
...
PMID:Effect of low-dose preirradiation on induction of the HSP70B-LacZ fusion gene in human cells treated with heat shock. 945
We examined the effects of cellular aging on the expression of the heat shock-inducible
HSP70
gene in WI-38 diploid human fibroblasts serially passaged in vitro. The senescence of the cells was established by evaluating population doubling level, cell density at confluency, and cell morphology along with the detection of senescence-associated
beta-galactosidase
activity (histochemically detectable at pH 6), a reliable marker of aging in low-density cultures. A marked decrease in the synthesis and accumulation of the inducible
HSP70
protein was observed in serum-fed late passage cells exposed to a severe heat shock (30 min at 45 degrees C) in comparison to early passage cells. However, the degree of HSF-DNA binding, monitored by gel retardation assay was similar in both early and late passage cells. Similarly, Northern blotting analysis indicated that comparable amounts of inducible
HSP70
mRNA were present in the total RNA fraction, in the total polyadenylated RNA fraction, or in the nuclear polyadenylated RNA fraction extracted from both early and late passage cells. In contrast, much less inducible
HSP70
mRNA was detected in the total cytoplasmic RNA fraction or in the polyadenylated cytoplasmic RNA fraction of late passage cells. Thus age-related differences in heat-induced
HSP70
synthesis and accumulation observed in serum-fed WI-38 cells appeared to result from an impairment in the posttranscriptional processing of the
HSP70
mRNA at a level following the polyadenylation step and preceding translocation from the nucleus to the cytoplasm. When HF were serum deprived for 20 h before heat shock, the induction of
HSP70
mRNA was less than 30% reduced in early passage cells in comparison to serum-fed cells; however, the level of
HSP70
mRNA was markedly (over 80%) decreased in serum-deprived late passage cells. This result indicated that the presence of serum has a strong influence on heat shock-induced
HSP70
gene expression in human fibroblasts aging in vitro.
...
PMID:Attenuated expression of 70-kDa heat shock protein in WI-38 human fibroblasts during aging in vitro. 1050 96
The murine
hsp70
gene family includes the evolutionarily conserved
hsp70
.1 and
hsp70
.3 genes, which are the major proteins induced by heat and other stress stimuli.
hsp70
.1 and
hsp70
.3 encode identical proteins which protect cells and facilitate their recovery from stress-induced damage. While the
hsp70
gene family has been widely studied and the roles of the proteins it encodes as molecular chaperones in a range of human pathologies are appreciated, little is known about the developmental regulation of
hsp70
.1 and
hsp70
.3 expression and the in vivo biological function of their products. To directly study the physiological role of these proteins in vivo, we have generated mice deficient in
heat shock protein 70
(
hsp70
) by replacing the
hsp70
.1 or
hsp70
.3 gene with an in-frame
beta-galactosidase
sequence. We report here that the expression of
hsp70
.1 and
hsp70
.3 is developmentally regulated at the transcriptional level, and an overlapping expression pattern for both genes is observed during embryo development and in the tissues of adult mice.
hsp70
.1-/- or
hsp70
.3-/- mice are viable and fertile, with no obvious morphological abnormalities. In late embryonic stage and adult mice, both genes are expressed constitutively in tissues exposed directly to the environment (the epidermis and cornea) and in certain internal organs (the epithelium of the tongue, esophagus, and forestomach, and the kidney, bladder, and hippocampus). Exposure of mice to thermal stress results in the rapid induction and expression of
hsp70
, especially in organs not constitutively expressing
hsp70
(the liver, pancreas, heart, lung, adrenal cortex, and intestine). Despite functional compensation in the single-gene-deficient mice by the intact homologous gene (i.e.,
hsp70
.3 in
hsp70
.1-/- mice and vice versa), a marked reduction in
hsp70
protein expression was observed in tissues under both normal and heat stress conditions. At the cellular level, inactivation of
hsp70
.1 or
hsp70
.3 resulted in deficient maintenance of acquired thermotolerance and increased sensitivity to heat stress-induced apoptosis. The additive or synergistic effects exhibited by coexpression of both
hsp70
genes, and the evolutionary significance of the presence of both
hsp70
genes, is hence underlined.
...
PMID:Insights into regulation and function of the major stress-induced hsp70 molecular chaperone in vivo: analysis of mice with targeted gene disruption of the hsp70.1 or hsp70.3 gene. 1171 91
We have investigated the role of the double-stranded RNA-dependent protein kinase gene (pkr) in the regulation of the heat shock response. We show that the pkr gene is essential for efficient activation of the heat shock response and that pkr disruption profoundly inhibits
heat shock protein 70
(
HSP70
) synthesis and blocks the development of thermotolerance. Despite these profound effects, pkr disruption did not markedly affect the activation of heat shock factor 1 by heat and did not reduce the rate of transcription of the
HSP70
gene after heat shock. However, despite the lack of effect of pkr disruption on
HSP70
gene transcription, we found a significant decrease in the expression of
HSP70
mRNA in pkr-/- cells after heat shock. Kinetic studies of mRNA turnover suggested a block in the thermal stabilization of
HSP70
mRNA in pkr-/- cells. As the thermal stabilization of
HSP70
mRNA is thought to involve cis-acting A+U rich (ARE) elements in the 3'-untranslated region (UTR), we examined a potential role for pkr in this process. We found that a reporter
beta-galactosidase
mRNA destabilized by introduction of a functional ARE into the 3'-UTR became stabilized by heat but only in cells containing an intact pkr gene. Our studies suggest therefore that pkr plays a significant role in the stabilization of mRNA species containing ARE destruction sequences in the 3'-UTR and through this mechanism, contributes to the regulation of the heat shock response and other processes.
...
PMID:Double-stranded RNA-dependent protein kinase (pkr) is essential for thermotolerance, accumulation of HSP70, and stabilization of ARE-containing HSP70 mRNA during stress. 1220 33
Induction of
heat shock protein 70
(Hsp70) via sublethal stress protects neurons from subsequent lethal injuries. Here we show that specific and efficient intracellular transduction of Hsp70 can be achieved utilizing an 11 amino acid leading sequence from human immunodeficiency virus (TAT-Hsp70) in primary neuronal cultures. Western blot and immunohistochemistry demonstrated intracellular accumulation of Hsp70 in insoluble protein fractions and mitochondrial compartments. We then examined the effects of Hsp70 overexpression using TAT-Hsp70 in models of nitrosative and excitotoxic neuronal death in vitro. Neurons were pre-incubated with 300 nM TAT-Hsp 70 overnight, then exposed to either peroxynitrite (ONOO-) or glutamate. TAT-Hsp70 maintained cellular respiration, inhibited extracellular lactate dehydrogenase release, and/or reduced cell death assessed by flow cytometry vs. vehicle, wild-type Hsp70, and TAT-
beta-galactosidase
controls. Hsp70 transduction using a TAT fusion protein is an effective method to selectively increase Hsp70 in neurons and is sufficient to provide neuroprotection from nitrosative stress and excitotoxicity. Further study is needed to confirm whether TAT-Hsp70 is protective in in vivo models of brain injury.
...
PMID:Selectively increasing inducible heat shock protein 70 via TAT-protein transduction protects neurons from nitrosative stress and excitotoxicity. 1599 87
In Escherichia coli, the molecular chaperone
HSP70
(DnaK) is necessary for 30S and 50S ribosomal subunit assembly at temperatures above 37 degrees C. Inhibitors of DnaK should therefore hinder ribosome biogenesis, in addition to all of the other DnaK-dependent cellular functions. An easily testable phenotype of DnaK is described here based on alpha-complementation of
beta-galactosidase
. This protein fragment complementation requires a functional DnaK in vivo, offering a suitable method for screening for DnaK inhibitors. Subsequently, it will be of great importance to check whether inhibitors of bacterial DnaK selected in this way have an effect (inhibitory or stimulatory) on the activities of eukaryotic
HSP70
and HSC70 chaperones, because of the universal conservation in all biota of these chaperones in both their structural and functional properties. This question is important due to their implication in many pathways in immunology, cancer biology, and neurodegenerative disorders.
...
PMID:Inhibition of chaperone-dependent bacterial ribosome biogenesis. 1843 7
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