Thermophilic Myceliophthora thermophila decomposes cellulose

A thermophilic microscopic fungus was isolated from cattle rumen and identified as Myceliophthora thermophila (Apinis) van Oorschot. The culture synthesized cellulolytic enzymes and xylanase when it was grown in media containing cellulase at 50 degrees C under the conditions of submerged cultivation. The morphological and physiological characteristics of the culture are described and its taxonomic position is discussed.     

The balance between Hsp70 and its cochaperones Hdj1 and Bag1 determines its substrate-binding activity

Heat shock protein Hsp70 presents one of the most effective cell protective systems. Its protective activity is mostly due to the fact that Hsp70 is able to restore native conformation of newly synthesized or damaged proteins. Two other proteins. Hdj and Bag 1, are involved in the process, allowing Hsp70 to perform binding-release cyclec of target proteins. The aim of this study was to investigate interactions between cochaperones Hdj 1 and Bag 1, and the major cell chaperone Hsp in vitro. The accumulation of Hsp70 and Hdj 1 in human erythroleukemia K562 cells was stimulated by heat stress (43 degrees C, 60 min). Cells were collected at certain time periods after heat stress, and amounts of cell chaperones were measured using Western blotting and ELISA assay. The level of Hsp70 chaperone activity in cell extracts was estimated using original technique. The effects of exogenous cochaperones and of their parts on this activity were also investigated. The results of the study indicate that Hsp70 chaperone activity is regulated by the level of its cochaperones, especially Hdj 1. At the same time the amount of ATP appears to be critical for functional activity of Hsp70. Hdj 1 and Bag 1 peptides, which bind to Hsp70 with high affinity, are able to significally reduce its chaperone activity. This finding confirms the possibility of using peptide approach for regulation of Hsp70 function at the cellular and organismal levels.     

Content of chaperon Hsp70 in dopaminergic neurons of the black substance increases in proteasome dysfunstion

In Wistar rats, specific inhibitor UPS lactacystin induced degeneration of 24% of the dopaminergic neurons in the black substance. The work shows that a moderate weakening of the UPS function is characterized by an enhanced activity of the shaperon system. This process seems to restore and maintain population of the dopaminergic neurons.     

The release of Hsp70 from A431 carcinoma cells is mediated by secretory-like granules

In our earlier work we have demonstrated that the treatment of squamous carcinoma cell line A431 with a pharmacological inhibitor of phospholipase C activity, U73122, resulted in fast release of stress-inducible heat shock protein 70 (Hsp70) into the extracellular medium (Evdonin et al., Cancer Cell Int., 4, 2, 2004). The purpose of the present study was to identify cellular organelles involved in the release of Hsp70 from A431 cells. We determined that Hsp70 is present in granules located at the periphery of cells, which had been treated with U73122 or subjected to heat shock. An inhibitor of the classical protein export pathway, brefeldin A was found to prevent the U73122-induced appearance of Hsp70 in the extracellular medium and in the peripheral granules. These findings suggest that vesicular transport is involved in Hsp70 release. The Hsp70-containing granules did not carry markers specific for lipid bodies, endosomes, or lysosomes. However, they were positive for a marker of secretory granules, i.e. chromogranin A. The levels of extracellular Hsp70 and chromogranin A were found to increase simultaneously. The secretory-like granule-dependent transport of Hsp70 was also studied in minimally transformed human HaCaT keratinocytes. We found that after U73122 and heat stress treatment, HaCaT cells secreted Hsp70 in a manner similar to A431 cells. Collectively our results suggest that human keratinocyte-derived cells release Hsp70 in the extracellular medium through a pathway involving secretory-like granules.