Specific induction of heat shock protein 90beta by high hydrostatic pressure

In chondrocytes, a low-amplitude intermittent hydrostatic pressure induces production of extracellular matrix molecules, while high hydrostatic pressure inhibits it. High pressure increases cellular heat shock protein 70 level in a number of cell types on account of increased stabilisation of the heat shock protein 70 mRNA. In our experiments, only bovine primary chondrocytes, but not an immortalized chondrocytic cell line, could resist the induction of the stress response in the presence of continuous 30 MPa hydrostatic pressure. We have recently shown that protein synthesis is required for the stabilization. According to two-dimensional gel electrophoresis the synthesis of heat shock protein 90 was also increased in a chondrocytic cell line and in HeLa cells, and mass spectrometric analysis suggested that the induction was rather due to increase in heat shock protein 90beta than in heat shock protein 90alpha. The stress response was rather intense in HeLa cells, therefore, we investigated the effect of continuous 30 MPa hydrostatic pressure on the expression of the two heat shock protein 90 genes in HeLa cells using Northern and Western blot analyses. Heat shock protein 90beta mRNA level increased within 6 hours of exposure to 30 MPa hydrostatic pressure, while hsp90alpha level remained stable. At protein level there was a clear increase in the heat shock protein 90beta/heat shock protein 90alpha ratio, too. These results show a specific regulation of stress proteins in cells exposed to high hydrostatic pressure.     

Molecular cloning and analysis of DNA complementary to three mouse Mr = 68,000 heat shock protein mRNAs

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.     

Zea mays ZmMybst1 cDNA,encodes a single Myb-repeat protein with the VASHAQKYF motif

A cDNA clone from a 4 DAP dissected maize embryo sac encoding a novel Zea mays single-repeat Myb protein is reported here. This full-length cDNA contains an ORF of 948 bp. The gene ZmMybst1 contains two introns (1166 and 706 bp) and is a single copy gene. The ZmMybst1 protein shares high sequence identity with the potato Mybst1 protein (58%). Northern blot, RT-PCR and electronic northern analysis shows that ZmMybst1 is expressed in endosperm between 4 and 30 DAP, coinciding with the period of aleurone cell differentiation and development.     

Identification of a putative ribosomal protein mRNA in Chironomus riparius and its response to cadmium, heat shock, and actinomycin D

A putative ribosomal protein (rp) mRNA in Chironomus riparius has been found using differential display (DD). Its sequence has 84.8% identity with mosquito rp L8, Aedes albopictus, and is approximately 0.9 kb. Studies were undertaken in order to evaluate rp as a control for environmentally relevant genes. Responses of Drosophila heat shock 70 gene (hsp70) were used to establish heat shock temperatures and cadmium (Cd) concentrations for Chironomus experiments and to validate DD. Expression of hsp70 was induced over control by 28 degrees C at 30 minutes and 1 mM Cd at 24 hours (p< or =0.05). For Chironomus, DD, Northern blot, and nuclease sensitivity were used to measure responses to two stressors: heat shock for 30 minutes and Cd for 24 or 48 hours. Differential display and nuclease sensitivity assays found expression of rp mRNA at 37 degrees C and 16 mM Cd to be similar to controls. Northern blots indicated statistically significant effects for heat shock (p = 0.046) but not Cd (p = 0.406). However, mRNA levels at 37 degrees C were increased only 1.72-fold over controls. A concentration of 24 nM actinomycin D suppressed rp expression as measured by nuclease sensitivity assays. Stressors should not affect rp mRNA levels below their LC-50s.     

Gene expression profiles in chondrosarcoma cells subjected to cyclic stretching and hydrostatic pressure. A cDNA array study

Mechanical forces have a profound effect on cartilage tissue and chondrocyte metabolism. Strenuous loading inhibits the cellular metabolism, while optimal level of loading at correct frequency raises an anabolic response in chondrocytes. In this study, we used Atlas Human Cancer cDNA array to investigate mRNA expression profiles in human chondrosarcoma cells stretched 8% for 6 hours at a frequency of 0.5 Hz. In addition, cultures were exposed to continuous and cyclic (0.5 Hz) 5 MPa hydrostatic pressure. Cyclic stretch had a more profound effect on the gene expression profiles than 5 MPa hydrostatic pressure. Several genes involved with the regulation of cell cycle were increased in stretched cells, as well as mRNAs for PDGF-B, glucose-1-phosphate uridylyltransferase, Tiam1, cdc37 homolog, Gem, integrin alpha6, and matrix metalloproteinase-3. Among down-regulated genes were plakoglobin, TGF-alpha, retinoic acid receptor-alpha and Wnt8b. A smaller number of changes was detected after pressure treatments. Plakoglobin was increased under cyclic and continuous 5 MPa hydrostatic pressure, while mitogen-activated protein kinase-9, proliferating cell nuclear antigen, Rad6, CD9 antigen, integrins alphaE and beta8, and vimentin were decreased. Cyclic and continuous pressurization induces a number of specific changes. In conclusion, a different set of genes were affected by three different types of mechanical stimuli applied on chondrosarcoma cells.     

Use of bidirectional blots in differential display analysis

We have used bidirectional transfer methods in concert with SMART total cDNA complex probes to sequentially screen differential display arrays. In this report we show the utility of this methodology in examining a manganese superoxide dismutase cDNA fragment which we detected while evaluating the effects of the proinflammatory cytokines IL1-beta, TNF-alpha, and IL6 on human umbilical vein endothelial cell (HUVEC) gene expression. By using parallel hybridization of the bidirectional blots with SMART total cDNA (32)P probes derived from untreated or cytokine-treated HUVECs, differential expression between cell treatments can be clearly evaluated. Subsequent screening using this bidirectional blot method results in detection of modulated cDNA clones. Northern and total cDNA blot hybridization with the cDNA clonal fragment confirmed both modulated expression and the efficacy of this screening method. These procedures allow one to use bidirectional blots to evaluate band modulation on agarose gels which are initially run to evaluate the reamplification of display fragments or to confirm cloned cDNA fragments. Thus, bidirectional blot analysis using SMART total cDNA probes allows direct evaluation of differential display bands from the initial reamplification through plasmid insert cloning, increasing the investigator's ability to eliminate false-positive bands during each step of analysis.     

人软骨细胞压力实验模型的建立与评估

目的:人承重关节内受到的多种机械应力(剪切力、张力、静水压力等)在调节关节软骨细胞的生理功能方面起着重要作用。建立对人膝关节软骨细胞施加不同强度周期性静水压的压力模型,观察不同压力强度下软骨细胞的生长形态、增殖和凋亡情况。方法:采用酶消化法分离培养正常成人膝关节软骨细胞,将培养的第3代软骨细胞分为6组:对照组、0.5 MPa组、1.0 MPa组、3.0MPa组、5.0 MPa组、8.0 MPa组,应用高压恒温静水压加载系统分别给予各组不同强度压力作用5 d,每日1 h。甲苯胺蓝染色法和Ⅱ型胶原免疫组织化学染色法鉴定软骨细胞,倒置相差显微镜观察细胞形态和生长状况,流式细胞术检测细胞凋亡,四甲基偶氮唑蓝(MTT)法绘制细胞生长曲线。结果:与对照组相比,0.5 MPa、3.0 MPa组无明显差异(P0.05);1.0 MPa组能促进软骨细胞增殖,抑制凋亡(P0.05);5.0 MPa组出现细胞增殖能力下降,细胞活力降低,凋亡率增加(P0.05);8.0 MPa组则表现出明显的细胞增殖的抑制和细胞凋亡趋势(P0.05),以及细胞形态学的改变。结论:不同强度的周期性压力对人软骨细胞的新陈代谢产生了不同影响,尤其在软骨细胞的增殖和凋亡水平方面。利用本压力实验模型能体外模拟人负重关节软骨细胞的受压情况,初步确定了人软骨细胞压力实验中压力梯度的选择。为软骨细胞的压力损伤研究提供了实验数据,为进一步探寻压力作用与骨关节炎的关系提供了实验平台。     

Involvement of differential gene expression and mRNA stability in the developmental regulation of the hsp 30 gene family in heat-shocked Xenopus laevis embryos

Four complete hsp 30 genes have been isolated from Xenopus laevis: hsp 30A, hsp 30B (a pseudogene), hsp 30C, and hsp 30D. The hsp 30A and hsp 30C genes are first heat inducible at the early tailbud stage, as determined by RNase protection and RT-PCR assays. In this study, we determined by RT-PCR that the hsp 30D gene was first heat inducible (33^oC for 1 h) at the mid-tailbud stage, approximately 1 day later in development than hsp 30A and hsp 30C. Furthermore, using Northern blot analysis, we detected the presence of very low levels of hsp 30 mRNA at the heat-shocked late blastula stage. The relative levels of these pre-tailbud (PTB) hsp 30 mRNAs increased at the gastrula and neurula stage followed by a dramatic enhancement in heat shocked tail-bud and tadpole stage embryos (50- to 100- fold relative to late blastula). Interestingly, treatment of blastula or gastrula embryos at high temperatures (37^oC for 1 h) or with the protein synthesis inhibitor, cycloheximide, followed by heat shock, led to enhanced accumulation of the pre-tailbud (PTB) hsp 30 mRNAs. hsp 70, hsp 87, and actin messages were not stabilized at high temperatures or by cycloheximide treatment. Finally, hsp 30D mRNA was not detected by RT-PCR analysis of cycloheximidetreated, heat-shocked blastula stage embryos, confirming that it is not a member of the PTB hsp 30 mRNAs. This study indicates that differential gene expression and mRNA stability are involved in the regulation of hsp 30 gene expression during early Xenopus laevis development. © 1995 Wiley-Liss, Inc.     

Adaptation of Saccharomyces cerevisiae to high hydrostatic pressure causing growth inhibition

Genome-wide mRNA expression profiles of Saccharomyces cerevisiae growing under hydrostatic pressure were characterized. We selected a hydrostatic pressure of 30 MPa at 25 degrees C because yeast cells were able to grow under these conditions, while cell size and complexity were increased after decompression. Functional characterization of pressure-induced genes suggests that genes involved in protein metabolism and membrane metabolism were induced. The response to 30 MPa was significantly different from that observed under lethal conditions because protein degradation was not activated under 30 MPa pressure. Strongly induced genes those that contribute to membrane metabolism and which are also induced by detergents, oils, and membrane stabilizers.     

Gadd45 mutations are uncommon in human tumour cell lines

GADD45 is an evolutionarily conserved gene that encodes a small acidic, nuclear protein and is an example of a p53 responsive gene. Gadd45 protein has been shown to interact with PCNA and also p21^waf1. It has been implicated in growth arrest, DNA repair, chromatin structure and signal transduction. The confusing biochemical data has been clarified by the demonstration that Gadd45 null mice have a phenotype strikingly similar to that of p53 null mice, being tumour prone and showing marked genomic instability. We have tested the hypothesis that mutations in the GADD45 coding region might substitute for p53 abnormalities in tumour cell lines where p53 is wild type. After generating cDNA from mRNA in a panel of 24 cell lines we sequenced the GADD45 cDNA and have demonstrated that no mutations can be observed, even in the p53 wild type cell lines. Such data suggest that Gadd45 mutations are uncommon in human cancer. From this we postulate that, despite the phenotype of the GADD45 null mouse, GADD45 is unlikely to be the key mechanistic determinant of the tumour suppressor activity of the p53 pathway.
Note on nomenclature: We have employed GADD45 to designate the gene and Gadd45 to designate the encoded protein. This gene has also be denoted GADD45 α elsewhere in the literature.     

A novel role for GADD45beta as a mediator of MMP-13 gene expression during chondrocyte terminal differentiation

The growth arrest and DNA damage-inducible 45beta (GADD45beta) gene product has been implicated in the stress response, cell cycle arrest, and apoptosis. Here we demonstrated the unexpected expression of GADD45beta in the embryonic growth plate and uncovered its novel role as an essential mediator of matrix metalloproteinase-13 (MMP-13) expression during terminal chondrocyte differentiation. We identified GADD45beta as a prominent early response gene induced by bone morphogenetic protein-2 (BMP-2) through a Smad1/Runx2-dependent pathway. Because this pathway is involved in skeletal development, we examined mouse embryonic growth plates, and we observed expression of Gadd45beta mRNA coincident with Runx2 protein in pre-hypertrophic chondrocytes, whereas GADD45beta protein was localized prominently in the nucleus in late stage hypertrophic chondrocytes where Mmp-13 mRNA was expressed. In Gadd45beta(-/-) mouse embryos, defective mineralization and decreased bone growth accompanied deficient Mmp-13 and Col10a1 gene expression in the hypertrophic zone. Transduction of small interfering RNA-GADD45beta in epiphyseal chondrocytes in vitro blocked terminal differentiation and the associated expression of Mmp-13 and Col10a1 mRNA in vitro. Finally, GADD45beta stimulated MMP-13 promoter activity in chondrocytes through the JNK-mediated phosphorylation of JunD, partnered with Fra2, in synergy with Runx2. These observations indicated that GADD45beta plays an essential role during chondrocyte terminal differentiation.     

Abnormal levels of gadd45alpha in developing neocortex impair neurite outgrowth

To better understand the short and long-term effects of stress on the developing cerebral cortex, it is necessary to understand how early stress response genes protect or permanently alter cells. One family of highly conserved, stress response genes is the growth arrest and DNA damage-45 (Gadd45) genes. The expression of these genes is induced by a host of genotoxic, drug, and environmental stressors. Here we examined the impact of altering the expression of Gadd45alpha (Gadd45a), a member of the Gadd45 protein family that is expressed throughout the developing cortices of mice and humans. To manipulate levels of Gadd45a protein in developing mouse cortex, we electroporated cDNA plasmids encoding either Gadd45a or Gadd45a shRNA to either overexpress or knockdown Gadd45a levels in the developing cortices of mice, respectively. The effects of these manipulations were assessed by examining the fates and morphologies of the labeled neurons. Gadd45a overexpression both in vitro and in vivo significantly impaired the morphology of neurons, decreasing neurite complexity, inducing soma hypertrophy and increasing cell death. Knockdown of Gadd45a partially inhibited neuronal migration and reduced neurite complexity, an effect that was reversed in the presence of an shRNA-resistant Gadd45a. Finally, we found that shRNA against MEKK4, a direct target of Gadd45a, also stunted neurite outgrowth. Our findings suggest that the expression of Gadd45a in normal, developing brain is tightly regulated and that treatments or environmental stimuli that alter its expression could produce significant changes in neuronal circuitry development.