Structure of the Human TELO2-TTI1-TTI2 Complex

Phosphatidylinositol 3-kinase-related protein kinases (PIKKs) play critical roles in various metabolic pathways related to cell proliferation and survival. The TELO2-TTI1-TTI2 (TTT) complex has been proposed to recognize newly synthesized PIKKs and to deliver them to the R2TP complex (RUVBL1-RUVBL2-RPAP3-PIH1D1) and the heat shock protein 90 chaperone, thereby supporting their folding and assembly. Here, we determined the cryo-EM structure of the TTT complex at an average resolution of 4.2 Å. We describe the full-length structures of TTI1 and TELO2, and a partial structure of TTI2. All three proteins form elongated helical repeat structures. TTI1 provides a platform on which TELO2 and TTI2 bind to its central region and C-terminal end, respectively. The TELO2 C-terminal domain (CTD) is required for the interaction with TTI1 and recruitment of Ataxia-telangiectasia mutated (ATM). The N- and C-terminal segments of TTI1 recognize the FRAP-ATM-TRRAP (FAT) domain and the N-terminal HEAT repeats of ATM, respectively. The TELO2 CTD and TTI1 N- and C-terminal segments are required for cell survival in response to ionizing radiation.     

Ethanol-induced oxidative stress in rat astrocytes: role of HSP70

Ethanol intake is associated with increase in lipid peroxidation and formation of reactive oxygen species in different cerebral areas, in neurons as well as in astrocytes. The latter's integrity is essential for the normal growth of neurons. In previous studies we observed, in different cerebral areas of both acutely and chronically ethanol-treated rats, correlation between ethanol-induced oxidative stress and the increased expression of HSP70 (70 kDa heat shock proteins), chaperonins having a protective and stabilizing effect on stress–induced cell injury. In this study we examined, in vitro, the role of HSP70 on chronically ethanol-treated rat astrocytes by transfection with an anti-HSP70 antisense oligonucleotide. The results show that treatment with ethanol, from 50 to 100 mmol/L, induces a dose-dependent increase in the production of reactive oxygen species and of HSP70 levels, together with an impairment of the respiratory chain activity and a decrease in cell viability. In addition, our data indicate a drastic reduction of cellular metabolism in HSP70-deprived astrocytes, particularly when these cells were also ethanol-treated. In fact, transfection with HSP70 antisense induced moderate oxidative damage in control astrocytes and, consequently, a drastic decrease in the viability of ethanol-treated cells, with the mitochondrial functionality being particularly affected. Our results confirm that heat shock proteins confer a survival advantage to the astrocytes, preventing oxidative damage and nuclear DNA damage as well, and suggest the development of new drugs exerting a cytoprotective role either in physiological, or pathological conditions. This revised version was published online in July 2006 with corrections to the Cover Date.     

Molecular characterization of heat shock proteins 90 (HSP83?) and 70 in tropical strains of Bombyx mori

Following the concept of whole organism, we have extracted total protein from the Bombyx mori for the identification and analysis of HSPs. Expression of 90 kDa HSP in first, second and third instars, 84 kDa in fourth instar and 90‐, 84‐, 62‐, 60‐, 52‐ and 33‐kDa HSPs in fifth instar larvae of tropical polyvoltine and bivoltine silkworm strains were obvious. Further, we have combined single and 2‐DE with MALDI‐TOF for analysis of BmHSPs. Ninety kilodalton band excised from 1‐DE gel was identified as HSP83 by MALDI‐TOF‐MS. The immunoblot analysis confirmed the expression of HSP90 in all the instars larvae of B. mori. Heat shock‐induced protein spots were excised from 2‐DE gels for MALDI‐TOF‐MS analysis. The Mascot search results are for HSP68, HSC70‐1 and HSP70Ba in Pure Mysore, and major HSP70Bbb, HSP68, HSC‐3 and HSP83 in NB₄D₂. Multiple sequence alignment explicit the variations in amino acid sequence between Pure Mysore and NB₄D₂. Notably, the PMF of spot 2 matched the coding sequence of B. mori and its gene annotation was determined on chromosome 9. With this novel approach, expression of BmHSP90 was confirmed in all the instars and uncovered isoforms of BmHSP70, which provided unequivocal insight to analyze and understand the biological significance in B. mori.     

SGT1-HSP90 complex is required for CENP-A deposition at centromeres

The centromere plays an essential role in accurate chromosome segregation, and defects in its function lead to aneuploidy and thus cancer. The centromere-specific histone H3 variant CENP-A is proposed to be the epigenetic mark of the centromere, as active centromeres require CENP-A–containing nucleosomes to direct the recruitment of multiple kinetochore proteins. CENP-A K124 ubiquitylation, mediated by CUL4A-RBX1-COPS8 E3 ligase activity, is required for CENP-A deposition at the centromere. However, the mechanism that controls the E3 ligase activity of the CUL4A-RBX1-COPS8 complex remains obscure. We have discovered that the SGT1-HSP90 complex is required for recognition of CENP-A by COPS8. Thus, the SGT1-HSP90 complex contributes to the E3 ligase activity of the CUL4A complex that is necessary for CENP-A ubiquitylation and CENP-A deposition at the centromere.     

Restriction fragment length polymorphisms at the heat shock protein HSP70 gene(s) in pigs*

Pigs from a population consisting of eight US breeds or strains and three Chinese breeds were examined by restriction fragment length polymorphism (RFLP) analysis of the heat shock protein HSP70 gene(s). Limited polymorphisms with PstI and PvuII restriction enzymes were observed, but there were no polymorphisms with BomIII and BglI.     

Quantitative Proteomic Analysis Reveals Important Roles of the Acetylation of ER-Resident Molecular Chaperones for Conidiation in Fusarium oxysporum

Fusarium oxysporum is one of the most abundant and diverse fungal species found in soils and includes nonpathogenic, endophytic, and pathogenic strains affecting a broad range of plant and animal hosts. Conidiation is the major mode of reproduction in many filamentous fungi, but the regulation of this process is largely unknown. Lysine acetylation (Kac) is an evolutionarily conserved and widespread posttranslational modification implicated in regulation of multiple metabolic processes. A total of 62 upregulated and 49 downregulated Kac proteins were identified in sporulating mycelia versus nonsporulating mycelia of F. oxysporum. Diverse cellular proteins, including glycolytic enzymes, ribosomal proteins, and endoplasmic reticulum–resident molecular chaperones, were differentially acetylated in the sporulation process. Altered Kac levels of three endoplasmic reticulum–resident molecular chaperones, PDI^K70, HSP70^K604, and HSP40^K32 were identified that with important roles in F. oxysporum conidiation. Specifically, K70 acetylation (K70ac) was found to be crucial for maintaining stability and activity of protein disulphide isomerase and the K604ac of HSP70 and K32ac of HSP40 suppressed the detoxification ability of these heat shock proteins, resulting in higher levels of protein aggregation. During conidial formation, an increased level of PDI^K70ac and decreased levels of HSP70^K604ac and HSP40^K32ac contributed to the proper processing of unfolded proteins and eliminated protein aggregation, which is beneficial for dramatic cell biological remodeling during conidiation in F. oxysporum.     

Activation of autophagy is involved in the protective effect of 17β‐oestradiol on endotoxaemia‐induced multiple organ dysfunction in ovariectomized rats

Oestrogens have been reported to attenuate acute inflammation in sepsis. In this study, the effects of long‐term oestrogen replacement with 17β‐oestradiol (E₂) on endotoxaemia‐induced circulatory dysfunction and multiple organ dysfunction syndrome were evaluated in ovariectomized (Ovx) rats. E₂ (50 μg/kg, s.c., 3 times/week) was administered for 8 weeks, followed by the induction of endotoxaemia by intravenous infusion of lipopolysaccharides (LPS; 30 mg/kg/4 hrs). Oestrogen deficiency induced by ovariectomy for 9 weeks augmented the LPS‐induced damage, including endotoxic shock, myocardial contractile dysfunction, renal dysfunction and rhabdomyolysis. Cardiac levels of NF‐κB p65, iNOS and oxidized glutathione, free radical production in skeletal muscles, myoglobin deposition in renal tubules, and plasma levels of plasminogen activator inhibitor‐1, TNF‐α, and IL‐6 were more pronounced in the Ovx + LPS group than in the Sham + LPS group. Long‐term treatment of E₂ prevented this amplified damage in Ovx rats. Six hours after LPS initiation, activation of the autophagic process, demonstrated by increases in Atg12 and LC3B‐II/LC3B‐I ratios, and induction of haem oxygenase (HO)‐1 and heat‐shock protein (HSP) 70 protein expression in myocardium were increased significantly in the Ovx + E₂ + LPS group. These results suggest that activation of autophagy and induction of HO‐1 and HSP70 contribute to the protective effect of long‐term E₂ replacement on multiple organ dysfunction syndrome in endotoxaemia.     

Heat-shock protein 72 cell-surface expression on human lung carcinoma cells is associated with an increased sensitivity to lysis mediated by adherent natural killer cells

 The cell-surface expression patterns of major histocompatibility complex (MHC) class I, class II and heat-shock protein 72 (HSP72) molecules were measured on human lung (LX-1) and mammary (MX-1) carcinoma cells. No major differences were found in the MHC cell-surface expression pattern of both cell lines. However, they differ significantly in their capacity to express HSP72 on their cell surface. Under physiological conditions LX-1 cells express HSP72 molecules on more than 90% of the cells, whereas MX-1 cells exhibit no significant HSP72 cell-surface expression (less than 5%). These expression patterns remained stable in all further cell passages tested. The sensitivity to lysis mediated by an interleukin-2 (IL-2)-stimulated, adherent natural killer (NK) cell population could be correlated with the amount of cell-surface-expressed HSP72 molecules. By antibody-blocking studies, using HSP72-specific monoclonal antibody (mAb), a strong inhibition of lysis was only found with LX-1 cells but not with MX-1 cells. In contrast to the cell-surface expression, the cytoplasmic amount of HSP72 in MX-1 cells was twice as high compared to LX-1 cells under physiological conditions. After nonlethal heat-shock the rate of induction and the total cytoplasmic amounts of HSP72 were comparable in both cell lines. The clonogenic cell viability of LX-1 cells after incubation at temperatures ranging from 41°C to 44°C was significantly elevated compared to that of MX-1 cells. In conclusion we state the following: (i) HSP72 cell-surface expression on human carcinoma cells is independent of the cytoplasmic amount of HSP72; (ii) the cell-surface expression of HSP72 is associated with an increased sensitivity of tumour cells to lysis mediated by an IL-2-stimulated, adherent NK cell population; (iii) thermoresistance is not related to the cytoplasmic HSP72 level but might be related to the amount of HSP72 expressed on the cell surface. Received: 20 June 1996 / Accepted: 25 September 1996     

Heat shock protein (HSP)27: a further refinement in the diagnosis of suspicious fine needle aspirates of breast

The technique of fine needle aspiration (FNA) is increasingly used in the investigation of breast abnormalities both palpable and impalpable. However, up to 20% of aspirates fall into two categories which require further investigation, because they either show cytological atypia or exhibit features which are suspicious of malignancy (reporting categories C3 and C4). The usefulness of the 27-kD heat shock protein (HSP27) expression in refining these categories of suspicion, and possibly in predicting malignancy, was investigated using an established immunocytochemical staining procedure. Positive HSP27 staining was shown by 73.1% of C4 and 33.3% of C3 FNAs. Statistical analysis showed a significant difference between the results obtained for the C3 and C4 FNAs.     

The effect of heat shock on amino acid transport and cell volume in 3T3 cells

Summary. In 3T3 cells temperatures higher than physiological stimulated amino acid transport activity in a dose-dependent manner up to 44°C. However, the temperature increase did not induce widespread transport increase of all other nutrients tested. The activities of both amino acid transport systems A and ASC were enhanced within a few minutes following cell exposure to increased temperature. The maintenance of this effect required continuous exposure of the cells to hyperthermia. Kinetic analysis indicated that the stimulation of the activity of transport System A occurred through a mechanism affecting Vmax rather than Km. The continuous presence of cycloheximide did not prevent the transport changes induced by hyperthermia. These results suggest that the increased amino acid uptake reflects an activation or relocation of existing amino acid transport proteins. During the hyperthermic treatment, the content of ninhydrin-positive substances (NPS), mostly amino acids, increased within the cells and the accumulation of these compatible osmolytes was parallelled by an increase in cell volume. The withdrawal of amino acids from the culture medium immediately before and during the shock phase counteracted the increase and reduced the NPS content but did not prevent the increase in amino acid transport, the cell swelling and the induction of the heat shock response. Received June 30, 1999 Accepted July 27, 2000