Research Interests:
Research Interests:
YY1 (Yin Yang 1) is present in the Xenopus oocyte cytoplasm as a constituent of messenger ribonucleoprotein complexes (mRNPs). Association of YY1 with mRNPs requires direct RNA-binding activity. Previously, we have shown YY1 has a high... more
YY1 (Yin Yang 1) is present in the Xenopus oocyte cytoplasm as a constituent of messenger ribonucleoprotein complexes (mRNPs). Association of YY1 with mRNPs requires direct RNA-binding activity. Previously, we have shown YY1 has a high affinity for U-rich RNA; however, potential interactions with plausible in vivo targets have not been investigated. Here we report a biochemical characterization of the YY1–RNA interaction including an investigation of the stability, potential 5′-methylguanosine affinity, and specificity for target RNAs. The formation of YY1–RNA complexes in vitro was highly resistant to thermal, ionic, and detergent disruption. The endogenous oocyte YY1–mRNA interactions were also found to be highly stable. Specific YY1–RNA interactions were observed with selected mRNA and 5S RNA probes. The affinity of YY1 for these substrates was within an order of magnitude of that for its cognate DNA element. Experiments aimed at determining the potential role of the 7-methylguanosine cap on RNA-binding reveal no significant difference in the affinity of YY1 for capped or uncapped mRNA. Taken together, the results show that the YY1–RNA interaction is highly stable, and that YY1 possesses the ability to interact with structurally divergent RNA substrates. These data are the first to specifically document the interaction between YY1 and potential in vivo targets.
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The asymmetric distribution of many components of the Xenopus oocyte, including RNA, proteins, and pigment, provides a framework for cellular specialization during development. During maturation, Xenopus oocytes also acquire metals needed... more
The asymmetric distribution of many components of the Xenopus oocyte, including RNA, proteins, and pigment, provides a framework for cellular specialization during development. During maturation, Xenopus oocytes also acquire metals needed for development, but apart from zinc, little is known about their distribution. Synchrotron X-ray fluorescence microprobe was used to map iron, copper, and zinc and the metalloid selenium in a whole oocyte. Iron, zinc, and copper were asymmetrically distributed in the cytoplasm, while selenium and copper were more abundant in the nucleus. A zone of high copper and zinc was seen in the animal pole cytoplasm. Iron was also concentrated in the animal pole but did not colocalize with zinc, copper, or pigment accumulations. This asymmetry of metal deposition may be important for normal development. Synchrotron X-ray fluorescence microprobe will be a useful tool to examine how metals accumulate and redistribute during fertilization and embryonic development.
Research Interests: Scanning Probe Microscopy, Cell Biology, Oogenesis, Synchrotron Radiation, Biological Sciences, and 15 moreHeavy metals, Copper, Selenium, Animals, Zinc, Iron, Embryonic Development, Sequences, Xenopus laevis, Oocytes, X ray Fluorescence, Embryos, Biochemistry and cell biology, Pentose Phosphate Pathway, and Medical and Health Sciences
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Research Interests:
Research Interests:
Research Interests:
Contractile failure of myocardial cells is a common cause of mortality in ischemic heart disease. In response to hypoxic conditions, cells upregulate the activity of hypoxia-inducible factor 1 (HIF-1) and express a number of genes... more
Contractile failure of myocardial cells is a common cause of mortality in ischemic heart disease. In response to hypoxic conditions, cells upregulate the activity of hypoxia-inducible factor 1 (HIF-1) and express a number of genes encoding proteins that either enhance O ...
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Members of the eukaryotic Hsp90 family function as important molecular chaperones in the assembly, folding and activation of cellular signaling in development. Two hsp90 genes, hsp90 and hsp90, have been identified in fish and... more
Members of the eukaryotic Hsp90 family function as important molecular chaperones in the assembly, folding and activation of cellular signaling in development. Two hsp90 genes, hsp90 and hsp90, have been identified in fish and homeothermic vertebrates but not in poikilothermic vertebrates. In the present study, the expression of hsp90 and hsp90 genes in Xenopus laevis, which is phylogenetically positioned between zebrafish and mammals, has been addressed. Partial Xenopus hsp90 and hsp90 cDNA were identified and isolated using RT-PCR, and a full-length Xenopus hsp90 cDNA was isolated from an embryonic cDNA library. Northern-blot analysis was used to study the expression of hsp90 and hsp90 genes in total RNA of the embryos and in situ hybridization was used to compare the expression of these genes with that of hsp70 and MyoD genes in Xenopus embryogenesis. Northern-blot analysis revealed that the hsp90 gene was strongly expressed constitutively at all stages of embryogenesis, but weak...
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Troglitazone (TRG) is an antidiabetic agent that increases the insulin sensitivity of target tissues in non-insulin-dependent diabetes mellitus. Therapy with troglitazone has been associated with severe hepatic injury in a small... more
Troglitazone (TRG) is an antidiabetic agent that increases the insulin sensitivity of target tissues in non-insulin-dependent diabetes mellitus. Therapy with troglitazone has been associated with severe hepatic injury in a small percentage of patients and the mechanism of TRG-induced hepatotoxicity remains unclear. A family of highly conserved stress proteins identified as heat shock proteins (Hsps), are well-known to protect cells against a wide variety of toxic conditions such as extreme temperature changes, oxidative stress and toxic drugs. The stress-inducible Hsp 70 protein is one of the best-known endogenous factors protecting cells from injury under various stress conditions. Here we examined the effects of TRG on Hsp 70 mRNA and protein expression in primary cultures of rat hepatocytes. We also investigated the effects of TRG in an in vivo model by examining Hsp 70 protein levels in livers prepared from C57 mice fed a 0.2% dietary admixture of TRG. Levels of Hsp 70 mRNA incr...
Research Interests: Gene expression, Liver diseases, Ubiquitin, Mice, Animals, and 15 moreMale, Histones, Ubiquitin Proteasome System, Rats, Hepatocytes, Protein Expression, Multienzyme complexes, Cysteine endopeptidases, Heat Shock Proteins, Pharmacological, Heat Shock Protein, Primary Culture, Drug Induced Liver Injury, Ubiquitin proteasome pathway, and Pharmacology and pharmaceutical sciences
Contractile failure of myocardial cells is a common cause of mortality in ischemic heart disease. In response to hypoxic conditions, cells upregulate the activity of hypoxia-inducible factor 1 (HIF-1) and express a number of genes... more
Contractile failure of myocardial cells is a common cause of mortality in ischemic heart disease. In response to hypoxic conditions, cells upregulate the activity of hypoxia-inducible factor 1 (HIF-1) and express a number of genes encoding proteins that either enhance O (2)delivery or increase cellular ATP levels. HIF-1 is a heterodimer of bHLH-PAS proteins, HIF-1 alpha and HIF-1 beta. Both subunits are constitutively expressed under normoxic conditions, but HIF-1 alpha levels are kept low by proteolytic degradation, then stabilized under conditions of low O (2)by a mechanism that is poorly understood. Here we tested the hypothesis that expression of HIF-1 alpha in cardiac cells may be affected by two known cardioprotective agents. We tested l-carnosine, a naturally occurring dipeptide which has been shown to improve myocardial contractility during hypoxia, and verapamil, a calcium channel blocker frequently prescribed for the treatment of heart disease. The levels of HIF-1 alphamRN...
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Rapid and transient activation of heat shock genes in response to stress is mediated in eukaryotes by the heat shock transcription factor HSF1. It is well established that cells maintain a dynamic equilibrium between inactive HSF1... more
Rapid and transient activation of heat shock genes in response to stress is mediated in eukaryotes by the heat shock transcription factor HSF1. It is well established that cells maintain a dynamic equilibrium between inactive HSF1 monomers and transcriptionally active trimers, but little is known about the mechanism linking HSF1 to reception of various stress stimuli or the factors controlling oligomerization. Recent reports have revealed that HSP90 regulates key steps in the HSF1 activation-deactivation process. Here, we tested the hypothesis that components of the HSP90 chaperone machine, known to function in the folding and maturation of steroid receptors, might also participate in HSF1 regulation. Mobility supershift assays using antibodies against chaperone components demonstrate that active HSF1 trimers exist in a heterocomplex with HSP90, p23, and FKBP52. Functional in vivo experiments in Xenopus oocytes indicate that components of the HSF1 heterocomplex, as well as other com...
Research Interests: Transcription Factors, Gene expression, Heat Shock Transcription Factor, Biological Sciences, Molecular and cellular biology, and 11 moreAnimals, Cell nucleus, Xenopus laevis, Heating, Heat Shock, Oocytes, Cytoplasm, DNA binding proteins, Dynamic equilibrium, heat shock factor, and Medical and Health Sciences
Transcriptional activation of heat shock genes is a reversible and multistep process involving conversion of inactive heat shock factor 1 (HSF1) monomers into heat shock element (HSE)-binding homotrimers, hyperphosphorylation, and further... more
Transcriptional activation of heat shock genes is a reversible and multistep process involving conversion of inactive heat shock factor 1 (HSF1) monomers into heat shock element (HSE)-binding homotrimers, hyperphosphorylation, and further modifications that induce full transcriptional competence. HSF1 is controlled by multiple regulatory mechanisms, including suppression by additional cellular factors, physical interactions with HSP70, and integration into different cellular signaling cascades. However, the signaling mechanisms by which cells respond to stress and control the HSF1 activation-deactivation pathway are not known. Here we demonstrate that HSP90, a cellular chaperone known to regulate several signal transduction molecules and transcription factors, functions in the regulation of HSF1. The existence of HSF1-HSP90 heterocomplexes was shown by coimmunoprecipitation of HSP90 with HSF1 from unshocked and heat-shocked nuclear extracts, recognition of HSF1-HSE complexes in vitr...
Research Interests: Transcription Factors, Signal Transduction, Biological Sciences, Stress response, Female, and 15 moreAnimals, Monoclonal Antibodies, Transcription Factor, Physical Interaction, Cell nucleus, Xenopus laevis, Heat Shock, Oocytes, Protein Binding, Cytoplasm, DNA binding proteins, Immunoblotting, heat shock factor, Medical and Health Sciences, and In Vitro Techniques
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Research Interests:
Research Interests: Biological Chemistry, Transcription Factors, Biological Sciences, Animals, Biological, and 12 morePhosphorylation, Transcription Factor, CHEMICAL SCIENCES, Heat stress, DNA binding, Xenopus laevis, Heat Shock, Heat Shock Proteins, Protein Conformation, DNA binding proteins, heat shock factor, and Medical and Health Sciences
Research Interests: RNA, Biological Chemistry, Transcription Factors, Biological Sciences, Animals, and 12 moreCHEMICAL SCIENCES, Xenopus laevis, Amino Acid Sequence, Ribonucleoproteins, Oocytes, Protein Binding, Cytoplasm, DNA binding proteins, Protein Transport, Immunoblotting, Molecular Sequence Data, and Medical and Health Sciences
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Microinjected human HSP70 promoter-chloramphenical acetyl transferase (CAT) chimeric genes are constitutively expressed immediately after the midblastula transition of Xenopus embryogenesis. Analysis of a series of 5'-deletion... more
Microinjected human HSP70 promoter-chloramphenical acetyl transferase (CAT) chimeric genes are constitutively expressed immediately after the midblastula transition of Xenopus embryogenesis. Analysis of a series of 5'-deletion mutants in the HSP70 promoter revealed that sequences within 74 bases of the transcriptional start site were sufficient for strong basal activity. We investigated the role of specific sequences in the basal promoter by injecting HSP70-CAT vectors containing linker-scanner mutations in the basal elements (CCAAT, purine-rich element, GC-element, ATF/AP1, and TATA). Our data reveal that deletion of any of these cis-acting elements in the basal promoter prevents expression after the midblastula stage of development. Furthermore, we have identified specific binding activities in embryonic nuclear extracts that complex with basal promoter elements (CCAAT, ATF, and GC) of the heterologous HSP70 promoter. These trans-acting factors are detectable in nuclear extracts of early blastula embryos, and their respective binding activity increases dramatically after the midblastula transition. The expression of the human HSP70 gene after the midblastula transition of Xenopus embryogenesis requires an array of cis-acting elements, which interact with specific Xenopus transcription factors.
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Research Interests: Biological Chemistry, Apoptosis, Gene expression, Biological Sciences, DNA, and 15 moreCell line, Cardiac Hypertrophy, Female, Animals, Biological, CHEMICAL SCIENCES, European, DNA binding, Heat Shock, Amino Acid Sequence, Angiotensin II, Gene Family, DNA binding proteins, Glycogen Synthase Kinase, and Glycogen synthase kinases
Exposure of Xenopus laevis embryos to heat shock induced the accumulation of ubiquitin mRNA (size range, 1.7-3.5 kb) in a developmental stage-dependent fashion. While constitutive ubiquitin transcripts were detectable throughout... more
Exposure of Xenopus laevis embryos to heat shock induced the accumulation of ubiquitin mRNA (size range, 1.7-3.5 kb) in a developmental stage-dependent fashion. While constitutive ubiquitin transcripts were detectable throughout development, heat shock-induced accumulation did not occur until the fine-cell blastula stage. Continuous exposure of neurulae to heat shock (33 degrees C) induced a transient accumulation of ubiquitin mRNA with peak levels occurring after 2 hr. Finally, placement of Xenopus neurulae at 22 degrees C after a 1-hr heat shock at 33 degrees C produced a decrease in ubiquitin mRNA levels to near control levels by 24 hr.
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Research Interests:
Xenopus oocytes have a complex heat shock response. During transition of the oocyte into fertilized egg, the heat shock response undergoes several qualitative and quantitative changes culminating in its complete extinction. Heat shock... more
Xenopus oocytes have a complex heat shock response. During transition of the oocyte into fertilized egg, the heat shock response undergoes several qualitative and quantitative changes culminating in its complete extinction. Heat shock induces oocytes to synthesize four heat shock proteins (hsps): 83, 76, 70, and 57. After ovulation, two additional proteins (hsps 22 and 16) are inducible. The heat shock response of spawned eggs can be modified by changing the ionic configuration of the external medium and by adding pyruvate and oxaloacetate to the media. Since Xenopus eggs do not synthesize mRNA, these modifications to the external medium apparently alter the utilization of preexisting messenger RNAs in protein synthesis. Artificial activation terminates inducibility of hsps 76, 57, and 16 and diminishes the hsp 70 response. Two new heat shock proteins-66 and 48-are also inducible in artificially activated eggs. Fertilization, on the other hand, terminates the heat shock response; no hsps can be induced. However, hsp 70 appears to be made constitutively in fertilized eggs. RNA blot analyses reveal that oogenic hsp 70 messenger RNA is retained in eggs and early embryos. This messenger is apparently used for heat-induced synthesis of hsp 70 before fertilization and for constitutive synthesis of hsp 70 in zygotes.
Research Interests: Developmental Biology, Protein synthesis, Biological Sciences, Female, Ovulation, and 12 moreAnimals, Nucleic acid hybridization, Sodium Dodecyl Sulfate-Polyacrylamide Gel Electrophoresis, Developmental, Thermal Shock, Fertilization, Xenopus laevis, Heat Shock Proteins, Heat Shock Protein, Oocytes, Oocyte, and Medical and Health Sciences
Research Interests: Developmental Biology, Kinetics, Heat Shock Transcription Factor, Biological Sciences, DNA, and 15 moreHumans, Female, Animals, Egg Proteins, Cadmium, Developmental, Heat Shock, Heat Shock Proteins, Heat Shock Protein, Embryos, Chemical Treatment, DNA binding proteins, heat shock factor, binding sites, and Medical and Health Sciences
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Heat shock factors (HSFs) are the major transcription factors responsible for heat-induced upregulation of heat shock protein (Hsp) genes. All three mammalian HSFs (HSF1, HSF2, HSF4) have also been shown to be required for normal... more
Heat shock factors (HSFs) are the major transcription factors responsible for heat-induced upregulation of heat shock protein (Hsp) genes. All three mammalian HSFs (HSF1, HSF2, HSF4) have also been shown to be required for normal mammalian development. It is currently unknown if HSFs play similarly important roles during normal development of non-mammalian vertebrates. In the present study, a morpholino modified antisense oligonucleotide (MO) approach targeted against hsf1 mRNA (hsf1-MO) was used to examine the requirement of HSF1 in zebrafish development. Embryos depleted of HSF1 displayed a reproducible small eye phenotype characterized by an immature lens and a disorganized retinal structure. These defects were strikingly similar to those observed when constitutive, lens specific Hsp70 expression was reduced through the microinjection of MO targeting hsp70. The data suggest that HSF1 is involved in regulating constitutive lens specific expression of hsp70 in the embryonic zebrafish. This conclusion is supported by a marked reduction in Hsp70 protein in hsf1-MO injected embryos. Microinjection of MO targeted to hsf2 mRNA (hsf2-MO) did not result in a small eye phenotype in a significant number of embryos. These data also suggest that HSF1 and HSF2 play distinct roles in non-mammalian vertebrates, similarly to what has been demonstrated previously in mouse.
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Research Interests:
Research Interests:
Immobilized metal affinity chromatography (IMAC) is widely used for the production of recombinant proteins for a variety of applications; however, a number of challenges are typically encountered by researchers depending on the properties... more
Immobilized metal affinity chromatography (IMAC) is widely used for the production of recombinant proteins for a variety of applications; however, a number of challenges are typically encountered by researchers depending on the properties of the specific proteins in question. Here, we describe technical issues we have encountered in production of recombinant zinc finger nucleic acid-binding proteins by IMAC intended for detailed and accurate in vitro analysis. The process encountered leading to a modified IMAC protocol for effective production of high-purity, native zinc finger nucleic acid-binding proteins is described in detail. The parameters with respect to solubility, lysis and redox conditions, removal of residual metal ions with chelating agents, and renaturation in the presence of divalent metal cations are described. These procedures have been extended to production of a wide array of RNA-binding proteins in our laboratory and would be relevant to a number of protein purification applications.
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YY1 (Yin Yang 1) is present in the Xenopus oocyte cytoplasm as a constituent of messenger ribonucleoprotein complexes (mRNPs). Association of YY1 with mRNPs requires direct RNA-binding activity. Previously, we have shown YY1 has a high... more
YY1 (Yin Yang 1) is present in the Xenopus oocyte cytoplasm as a constituent of messenger ribonucleoprotein complexes (mRNPs). Association of YY1 with mRNPs requires direct RNA-binding activity. Previously, we have shown YY1 has a high affinity for U-rich RNA; however, potential interactions with plausible in vivo targets have not been investigated. Here we report a biochemical characterization of the YY1–RNA interaction including an investigation of the stability, potential 5′-methylguanosine affinity, and specificity for target RNAs. The formation of YY1–RNA complexes in vitro was highly resistant to thermal, ionic, and detergent disruption. The endogenous oocyte YY1–mRNA interactions were also found to be highly stable. Specific YY1–RNA interactions were observed with selected mRNA and 5S RNA probes. The affinity of YY1 for these substrates was within an order of magnitude of that for its cognate DNA element. Experiments aimed at determining the potential role of the 7-methylguan...
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The binding of heat shock transcription factor (HSF) to the heat shock element (HSE) is necessary for transcriptional activation of eukaryotic heat shock protein (HSP) genes. The properties of Xenopus embryo HSF were examined by DNA... more
The binding of heat shock transcription factor (HSF) to the heat shock element (HSE) is necessary for transcriptional activation of eukaryotic heat shock protein (HSP) genes. The properties of Xenopus embryo HSF were examined by DNA mobility shift analysis employing a synthetic oligonucleotide corresponding to the proximal HSE in the promoter of the Xenopus HSP70B gene. Heat shock induced activation of HSF binding in Xenopus neurulae was not affected by an inhibition of protein synthesis, indicating that the mode of activation may be posttranslational. Also, while HSF binding was activated in control Drosophila cell extracts by in vitro heat shock or other chemical treatments, HSF binding in Xenopus embryo or somatic cell extract was not. Thus, the activation of Xenopus HSE–HSF binding may occur via a different mechanism compared with Drosophila. Furthermore, we determined that the native size of heat-induced HSF in pre- and post-midblastula stage Xenopus embryos is approximately 53...
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The promoter sequences involved in the basal expression of a human 70-kilodalton heat shock protein (HSP70) gene during Xenopus embryogenesis were analyzed by microinjection of mutant promoters of a HSP70 – chloramphenicol... more
The promoter sequences involved in the basal expression of a human 70-kilodalton heat shock protein (HSP70) gene during Xenopus embryogenesis were analyzed by microinjection of mutant promoters of a HSP70 – chloramphenicol acetyltransferase fusion gene into fertilized eggs and following their expression during early development. While deletion of the HSP70 gene promoter to −100 base pairs (bp) did not affect basal transcription in postmidblastula stage embryos, linker–scanner mutations in the CCAAT and purine box elements blocked expression. However, extension of the 5′ boundary to −188 bp restored full wild-type expression to these mutants. These results suggest that multiple redundant cis-acting regulatory elements present in the human HSP70 gene promoter can function during Xenopus embryogenesis.Key words: heat shock protein gene, Xenopus embryos, microinjection, linker–scanner mutations, transcription.
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Hsp90 chaperone complexes function in assembly, folding, and activation of numerous substrates. The 2 vertebrate homologues encoded by the genes hsp90a and hsp90b are differentially expressed in embryonic and adult tissues and during... more
Hsp90 chaperone complexes function in assembly, folding, and activation of numerous substrates. The 2 vertebrate homologues encoded by the genes hsp90a and hsp90b are differentially expressed in embryonic and adult tissues and during stress; however, it is not known whether they possess identical functional activities in chaperone complexes. This question was addressed by examining potential differences between the Hsp90 isoforms with respect to both cochaperone and substrate interactions. Epitope-tagged proteins were expressed in mammalian cells or Xenopus oocytes and subjected to immunoprecipitation with an array of cochaperones. Both isoforms were shown to participate equally in multichaperone complexes, and no significant differences in cochaperone distribution were observed. The substrates Raf-1, HSF1, Cdc37, and MEK1 interacted with both Hsp90α and Hsp90β, and the relative patterns of these interactions were not affected by heat shock. The substrate kinases c-Src, CKIIB, A-raf...
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Elevation of the incubation temperature of Xenopus laevis neurulae from 22 to 33–35 °C induced the accumulation of heat shock protein (hsp) 70 mRNA (2.7 kilobases (kb)) and a putative hsp 87 mRNA (3.2 kb). While constitutive levels of... more
Elevation of the incubation temperature of Xenopus laevis neurulae from 22 to 33–35 °C induced the accumulation of heat shock protein (hsp) 70 mRNA (2.7 kilobases (kb)) and a putative hsp 87 mRNA (3.2 kb). While constitutive levels of both hsp mRNAs were detectable in unfertilized eggs and cleavage-stage embryos, heat-induced accumulation was not observed until after the mid-blastula stage. Exposure of Xenopus laevis embryos to other stressors, such as sodium arsenite or ethanol, also induced a developmental stage-dependent accumulation of hsp 70 mRNA. To characterize the effect of temperature on hsp 70 mRNA induction, neurulae were exposed to a range of temperatures (27–37 °C) for 1 h. Heat-induced hsp 70 mRNA accumulation was first detectable at 27 °C, with relatively greater levels at 30–35 °C and lower levels at 37 °C. A more complex effect of temperature on hsp 70 mRNA accumulation was observed in a series of time course experiments. While continuous exposure of neurulae to hea...
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The effect of fluoride treatment on the expression of a panel of osteogenic and stress markers in Stage 55 premetamorphic Xenopus larvae was examined at the precise onset of replacement of the larval cartilaginous skeleton with bone. A... more
The effect of fluoride treatment on the expression of a panel of osteogenic and stress markers in Stage 55 premetamorphic Xenopus larvae was examined at the precise onset of replacement of the larval cartilaginous skeleton with bone. A dosing regimen of 10 mmol/L sodium fluoride over 8 days was followed, during which time larvae developed to Stage 58, when the process of progressive ossification takes place in the vertebral column and membranous bones of the skull, pelvic, and pectoral girdles and portions of the appendicular skeleton. Markers of bone formation, including COL1A1, the transcription factors Osterix, RUNX2-II, and matrix metalloproteinases MMP1 and MMP13, decreased relative to age-matched controls, though the osteoblast marker BGLAP was not significantly altered. Expression of the pro-osteoclastogenic factor RANKL decreased, whereas expression of the anti-osteoclastogenic factor osteoprotegerin increased. Altered expression of oxidative stress markers, with the excepti...
Research Interests: Oxidative Stress, Transcription Factors, Gene expression, Biological Sciences, Cell Differentiation, and 13 moreCollagen, Animals, Catalase, Superoxide Dismutase, Larva, Xenopus laevis, Glutathione Transferase, Osteoblasts, Genetic Markers, Biochemistry and cell biology, Sodium Fluoride, bone development, and Medical and Health Sciences
The asymmetric distribution of many components of the Xenopus oocyte, including RNA, proteins, and pigment, provides a framework for cellular specialization during development. During maturation, Xenopus oocytes also acquire metals needed... more
The asymmetric distribution of many components of the Xenopus oocyte, including RNA, proteins, and pigment, provides a framework for cellular specialization during development. During maturation, Xenopus oocytes also acquire metals needed for development, but apart from zinc, little is known about their distribution. Synchrotron X-ray fluorescence microprobe was used to map iron, copper, and zinc and the metalloid selenium in a whole oocyte. Iron, zinc, and copper were asymmetrically distributed in the cytoplasm, while selenium and copper were more abundant in the nucleus. A zone of high copper and zinc was seen in the animal pole cytoplasm. Iron was also concentrated in the animal pole but did not colocalize with zinc, copper, or pigment accumulations. This asymmetry of metal deposition may be important for normal development. Synchrotron X-ray fluorescence microprobe will be a useful tool to examine how metals accumulate and redistribute during fertilization and embryonic developm...
Research Interests: Scanning Probe Microscopy, Cell Biology, Oogenesis, Synchrotron Radiation, Biological Sciences, and 15 moreHeavy metals, Copper, Selenium, Animals, Zinc, Iron, Embryonic Development, Sequences, Xenopus laevis, Oocytes, X ray Fluorescence, Embryos, Biochemistry and cell biology, Pentose Phosphate Pathway, and Medical and Health Sciences
Research Interests: Medical Microbiology, Heat Shock Transcription Factor, Biological Sciences, Humans, Copper, and 15 moreFemale, Animals, Methanol, Ethanol, Iron, Heat stress, Model System, DNA binding, Heat Shock, DNA binding proteins, Oocyte, Biochemistry and cell biology, Gene Expression Regulation, Chlorides, and heat shock factor
Since Hsp90 is a known modulator of HSF1 activity, we examined the effects of two pharmacological inhibitors of Hsp90, novobiocin and geldanamycin, on HSF1 DNA-binding activity in the Xenopus oocyte model system. Novobiocin exhibits... more
Since Hsp90 is a known modulator of HSF1 activity, we examined the effects of two pharmacological inhibitors of Hsp90, novobiocin and geldanamycin, on HSF1 DNA-binding activity in the Xenopus oocyte model system. Novobiocin exhibits antiproliferative activity in culture cells and interacts with a C-terminal ATP-binding pocket on Hsp90, inhibiting Hsp90 autophosphorylation. Treatment of oocytes with novobiocin followed by heat shock results in a dose-dependent decrease in HSF1 DNA-binding and transcriptional activity. Immunoprecipitation experiments demonstrate novobiocin does not alter HSF1 activity through dissociation of Hsp90 from either monomeric or trimerized HSF1, suggesting that the effect of novobiocin on HSF1 is mediated through alterations in Hsp90 autophosphorylation. Geldanamycin binds the N-terminal ATPase site of Hsp90 and inhibits chaperone activity. Geldanamycin treatment of oocytes resulted in a dose-dependant increase in stability of active HSF1 trimers during subm...