There are very few reports on the involvement of bacterial proteinases on the blood clotting system using both human plasma and purified clotting factors. We studied whether microbial proteinases from the opportunistic pathogens Candida albicans, Pseudomonas aeruginosa and Serratia marcescens activate the blood clotting cascade by using normal human plasma, human plasmas deficient in clotting factor XII or X, and also by using purified clotting factors XII, X and prothrombin. All proteinases tested activated either clotting factor XII or prothrombin in vitro, thus resulting in generation of thrombin. Clotting factor X was converted to the active form (Xa) by both Candida and Pseudomonas proteinases, but not by Serratia proteinase. These results suggest that peripheral and systemic blood circulation may be impaired by activation of the blood clotting cascade by microbial infections, especially in septic patients, which would enhance disseminated intravascular coagulation and multi-organ failure.
Secretory proteinase from Candida albicans was studied for its ability to activate plasma clotting. The experiments were carried out by using the proteinase with normal plasma, Hageman factor deficient plasma and Factor X deficient plasma. When each plasma was treated with the
We investigated the cellular function of Msi3p, belonging to the heat shock protein 70 family, in Candida albicans. The mutant strain tetMSI3 was generated, in which MSI3 was controlled by a tetracycline-repressive promoter, because there is evidence to suggest that MSI3 is an essential gene. We controlled the MSI3 expression level by doxycycline (DOX) and compared its phenotype with that of a control strain with the tetracycline-repressive promoter and a wild-type copy MSI3. The results indicated that MSI3 was essential for cell growth. In addition, all the tetMSI3-infected mice survived after DOX administration. Drug susceptibility tests indicated that repression of MSI3 expression resulted in hypersensitivity to fluconazole and conferred fungicidal activity to fluconazole. The expression levels of MSI3 and calcineurin-dependent genes were upregulated in response to fluconazole in the control strain. In tetMSI3, the upregulation of MSI3 was lost, and the expression level of the calcineurin-dependent genes was no longer elevated in response to fluconazole and was not affected by DOX, indicating that the upregulation of MSI3 expression was required for the induction of the calcineurin-dependent gene expression. These data suggest that Msi3p confers fluconazole tolerance by partially influencing the calcineurin signaling pathway and also other tolerance mechanisms.
We have reported previously that the expression of CGR1 increased at an early stage of the yeast-mycelial transition (morphogenesis) in Candida albicans. We now show that Cgr1p interacts in a yeast two-hybrid system with the C. albicans Msi3p (CaMsi3p), a putative novel member of the heat shock protein 70 (HSP70) family. The DNA sequence of CaMSI3 encodes a predicted protein of 702 amino acids with a molecular mass of 78.6 kDa. The amino acid sequence of CaMsi3p is 63% identical to Msi3p/Sse1p of the HSP70 family of Saccharomyces cerevisiae. Further, CaMSI3 complemented the temperature-sensitive phenotype of the msi3 − mutant of S. cerevisiae. Other heat shock proteins of C. albicans are required for morphogenesis and are highly antigenic. These observations suggest that CaMSI3 may well provide functions for this organism unrelated to a heat shock function. The DDBJ Accession No. for the sequence reported in this paper is AB061274.
Recently, many studies have focused on biomedical and pharmaceutical applications of self-assembled nanoparticles. In addition, several biodegradable nanoparticles have been reported to possess poor dispersion stability and poor size-controllability. However, these nanoparticles require complicated fabrication procedures using synthesis techniques. We developed an efficient method for producing nanoparticles derived from a biological origin of molecule poly(gamma-glutamic acid) (gamma-PGA), a cationic lipid, and doxorubicin (Dox). The complex had a size of 510 nm and was able to encapsulate over 90% of the added Dox. An in vivo assay of antitumor activity demonstrated that the complex had significant antitumor activity in sarcoma 180-bearing mice, and was effectively accumulated in solid tumors based on the EPR effect. The data suggested that this complex is a promising formulation of gamma-PGA for targeted delivery to solid tumors. gamma-PGA-12GP2 complexes may possess several unique advantages, including simplicity of nanoparticle preparation, high drug-carrying capacity, appropriate size to allow deeper penetration based on EPR effect into solid tumors, and lack of necessity to modify the chemical structure of the drugs. These data indicate that the gamma-PGA-12GP2 complexes are potentially useful in cancer chemotherapy.
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