A critical step in estrogen action is the recognition of estrogen responsive elements (EREs) by liganded estrogen receptor. Our current studies were designed to determine whether an extended estrogen response element half-site (ERRE) contributes to the differential estrogen responses of the human and mouse lactoferrin overlapping chicken ovalbumin upstream promoter/ERE sequences (estrogen response modules, ERMs) in the context of their natural promoters. Transient transfections of MCF-7 cells show that liganded estrogen receptor (ER ) activates transcription of the human lactoferrin ERM fourfold higher than the mouse lactoferrin ERM in the context of their natural promoters. Since the ERRE of the human lactoferrin gene naturally occurs 18 bp upstream from the ERM and is absent in the mouse lactoferrin gene promoter, we created a chimeric mouse lactoferrin CAT reporter, which now encodes the ERRE in the identical location as in the human lactoferrin gene. The addition of the ERRE in the mouse lactoferrin gene rendered this reporter extremely responsive to estrogen stimulation. Using limited protease digestions and electrophoretic mobility shift assays, we showed that the binding and protease sensitivity of ER bound to the mouse ERM with or without the ERRE, differed. Importantly, occupancy of additional nuclear receptors at the ERRE may contribute to ER binding and activation. Furthermore, the presence of ERRE influences the selectivity of coactivators in liganded ER -mediated transcriptional activity. When the receptor is bound to human and mouse plus genes, which contain the ERRE, steroid receptor coactivator (SRC)-2 was preferred, while SRC-1 and SRC-3 coactivators selectively enhanced the mouse lactoferrin gene activity. Moreover, peroxisome proliferator activated receptor-coactivator-1 (PGC-1 ) and PGC-1-related estrogen receptor coactivator (PERC) robustly increase the transcriptional function of ER in the presence of the ERRE. In conclusion, these data show that the context of the lactoferrin gene influences the ER -mediated transcriptional activity.
TAL6003 is an engineered form of human plasmin under development for thrombolytic therapy. TAL6003 (38.2kDa) contains nine disulfide bonds distributed within and between its two functional domains, a 25.2 kDa serine protease domain linked to a 13.0 kDa kringle I domain; kringles 2-5 present in native human plasmin have been deleted from this plasmin molecule. TAL6003 is expressed as its zymogen in Escherichia coli and is harvested in inclusion bodies. Following solubilization of inclusion bodies with urea as the chaotrope and glutathione as the reducing agent, this zymogen is refolded by dilution to a final concentration of 0.5mg/ml, with a yield of 48% (relative to total zymogen). Refolded TAL6003 zymogen is filtered, diafiltered, and filtered again prior to capture and purification on SP Sepharose, which is highly effective in removing host-cell protein. Subsequent affinity purification on ECH-Lysine Sepharose serves to capture polypeptide chains containing correctly refolded kringle 1 domain, which is the locus of the molecule's lysine-binding site, and to further eliminate host-cell protein. TAL6003 zymogen eluted from the ECH-Lysine Sepharose column is activated to TAL6003 with streptokinase, with an activity yield of approximately 80%. Proteolytically active TAL6003 is stripped of streptokinase by passage through an anion-exchange (Q) membrane and is then affinity purified on Benzamidine Sepharose, which serves to remove unreacted TAL6003 zymogen and proteolytically degraded TAL6003. An ultrafiltration/diafiltration step, to concentrate and to formulate TAL6003, completes the purification process. The final product exhibited a specific activity of close to unity and high purity by several relevant criteria.
SYNOPSIS A chemical method for the sterilization of pancreatin and trypsin is given. Evidence is presented to show that this treatment does not diminish the specific activity of the enzymes and has some advantages in microbiological techniques.Beta-propiolactone (BPL) is of value as a sterilizing agent because it causes negligible alteration to the antigenic structure of microorganisms (Sever, Castellano, Pelon, Huebner, and Wolman, 1964), and, since it is rapidly hydrolysed to beta-hydroxypropionic and beta-chloropionic acids, needs no subsequent removal (Peck, 1960
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