Characterization of inactive and stress-induced active forms of the transcription factor HSF1 : an analysis at the cellular level

Vujanac, Milos

January 2000

No description available.

572.8

Heat shock; Nucleocytoplasmic transport

Development of shock testing techniques for industrial application

Trepess, David Harry

January 1991

No description available.

624.1

Shock loading shipboard equipment

The regulation of hepatic nitric oxide synthesis and inhibition of glucose output during endotoxic shock

Smith, Fiona Susan

January 1998

No description available.

572

Sepsis; Endotoxemia; Septic shock

The application of a transgenic strain of the nematode Caenorhabditis elegans to the biomonitoring of metal polluted soil

Power, Rowena Suzanne

January 2000

No description available.

615.9

Biomarker; Heat shock proteins

Hyperosmotic sensitivity of the Na'+ x H'+ exchanger, NHE1, in bovine articular chondrocytes

Yamazaki, Naho

January 1998

No description available.

572.8

Fluorimetric; Isoform; Hypertonic shock

Ancillary regulation of HSF activity

Hjorth-Sørensen, Bjørn

January 2001

No description available.

572

Heat shock factor proteins

Hsp72 modulation of inflammatory immune responses

Ireland, H. Elyse

January 2009

The body initiates an immune response to danger signals. The Danger model of the immune system postulates that danger signals are produced by exogenous molecules from foreign invaders, such as bacteria, and endogenous molecules released from damaged or injured cells. The response involves antigen recognition leading to up-regulation of cytokines and cell surface markers, followed by the recruitment of antigen presenting cells and T-helper cells which determine how the immune system responds. Endogenous danger signals include Hsp72 and HMGB-1. This thesis describes the development of specific antibodies and ELISAs for use in the quantification and detection of intra-cellular Hsp72 from cell extracts, and released Hsp72 from cell cultures which enabled the confirmation of physiological levels of Hsp72 from model systems. The ability of endogenous Hsp72 to stimulate an immune response was demonstrated and this response was not solely due to LPS contamination of recombinant protein preparations. Hsp72 was able to augment the response to LPS. In the presence of another endogenous danger signal, HMGB-1, relative amounts of Hsp72 were shown to augment a pro-inflammatory response whilst being able to maintain an anti-inflammatory response demonstrating Hsp72 has the ability to modulate the immune response. Hsp72 was also shown to be able to stimulate an immune response by binding to cell surface receptors, which could be blocked by specific peptides corresponding to known receptors. These include some receptors not utilised by LPS. The proportion of these different danger signals has consequences for the progression and outcome of an immune response and this may well be modulated by imposition of a supplemental or future stress at different points. In the most severe case, this can lead to death through sepsis following trauma.

616.079

heat shock proteins : Hsp72

Interactions between extracellular Hsp72 and blood cells

Williams, Helen

January 2010

In recent years, compelling evidence has accumulated suggesting heat shock proteins (HSPs) which are generally believed to be localised and functioning mainly within eukaryotic cells as cyto-protective molecular chaperones, are also localised in the extracellular milieu. Depending on their localisation, on the cell surface (membrance-bound or embedded), or in the peripheral circulation, extracellular HSPs may induce apoptotic cell death, or in contrast protect cells from cell damage and/or cell death when exposed to cellular stress, or may even elicit a stimulatory effect on the innate immune response including cell activiation and cytokine secretion. Hence, the localisation of intracellular and extracellular HSPs appears to be critical in determining their roles in terms of stimulating cell death, cyto-protection, or immune activiation under normal physiological conditions and following exposure to stress stimuli. This thesis describes the intracellular expression, up-regulation, and cell surface localisation of endogenous HSPs: HSP27, Hsp60, Hsp72 and Hsp90 by flow cytometry, florescence microscopy and Western blotting, under control conditions and in response to environmental stress using in vitro and ex vivo models with the intention of determining their physiological roles. The ability of extracellularly administered HSPs (Hsp70 and Hsp72) to protect cultured U937 cells in vitro or peripheral primary human leukogytes or erythrocytes ex vivo from various stress stimuli was demonstrated and was found to be dependent on surface binding and/or internalisation via scavenger receptors (SRs) or phosphatidylserine (PS), which could be blocked by receptor specific ligands. Extracellular HSPs were also shown to be able to stimulate an immune response through the induction of U937 monocyte differentiation into macrophages as evidenced through the up-regulation of the surface receptors: CD36, SR-A1 and CD91 analysed by flow cytometry. These proteins were able to stimulate TNF-x and IL-10 production and secretion by U937 macrophages, shown by ELISA, and chemotatic properties were demonstrated using Boyden chambers. The cyto-protective and immune regulatory effects of extracellular HSPs have potential therapeutic value as treatments in a wide variety of clinical situations.

571.6

Hsp72 : heat shock proteins

Evaluation of straight and swept ramp obstacles on enhancing deflagration-to-detonation transition in pulse detonation engines

Medina, Carlos A.

12 1900

The use of detonations to achieve thrust in pulse detonation engines (PDEs) offers significant advantages in efficiency, simplicity, and versatility. An enabling mechanism for practical PDE implementation will likely utilize an efficient deflagration-todetonation transition (DDT) process. This method simplifies detonation generation, but the required length is prohibitive in many applications and limits the frequency of repeatability. Obstacles have historically been employed to minimize the DDT distance, but often result in significant total pressure losses that degrade the delivered efficiency advantages of PDEs. This thesis explored the use of straight and swept ramp obstacles to accelerate DDT while minimizing the overall pressure losses. Computer modeling examined three-dimensional disturbances caused by such obstacles. Experimental tests measured combustion shockwave speed, flame velocity, and flame front interactions with obstacles. Evaluations were completed for several straight ramp obstacle configurations in a modeled two-dimensional flow. The placement of consecutive ramps resulted in flame acceleration accompanied by significant pressure spikes approaching 500 psi. Although detonation was not verified across the instrumented section, experimental data prove that straight ramp obstacles successfully accelerate the DDT process. Computer modeling predicts that swept ramps may be even more effective by introducing streamwise vorticity with a relatively low pressure drop.

Engineering

Shock waves

Speed

Thermodynamics

Fulminant Puerperal Sepsis caused by Hemolytic Group A Streptococci and Toxic Shock Syndrome – A Case Report and Review of the Literature

Bauerschmitz, G., Hellriegel, M., Strauchmann, J., Schäper, J., Emons, G.

03 September 2014

Summary Puerperal sepsis is a rare but serious and potentially lethal syndrome. It is imperative that severe postpartum malaise is taken seriously; early initiation of antibiotic therapy before sepsis becomes manifest can save lives.

Toxic Shock Syndrome

Sepsis

Streptococci