Five new diketopiperazines, prenylcyclotryprostatin B (1), 20-hydroxycyclotryprostatin B (2), 9-hydroxyfumitremorgin C (3), 6-hydroxytryprostatin B (4), and spirogliotoxin (5), were isolated from the marine-derived fungus Aspergillus fumigatus YK-7, along with nine known compounds, 6-14. Their structures were elucidated by spectroscopic methods, and their antiproliferative effects on human leukemic monocyte lymphoma U937 and human prostate cancer PC-3 cell lines were assessed in vitro. Compounds 10, 12, and 13 exhibited significant cell growth-inhibitory activities against U937 cell line, with the IC(50) values of 1.8, 0.2, and 0.5 μM, respectively.
A new cytotoxic dimeric naphthopyrone, aurasperone H (1), together with eight related known polyketides (2-9) was isolated from a marine-derived fungus Aspergillus niger 2HL-M-8. The structure of new compound 1 was elucidated on the basis of its spectroscopic data (1D, 2D NMR and CD). Compound 1 exhibited moderate inhibitory activity against the human lung adenocarcinoma A549 and the human leukaemia HL-60 cell lines. Compound 5 displayed significant in vitro antiproliferative activity against HL-60 cell line with an IC50 value of 0.8 μM.
Fusion expression is a promising strategy for the production of bioactive peptides in Escherichia coli. In this study, we constructed a new recombinant expression plasmid containing the coding sequence of 56-residue B1 domain of streptococcal protein G (GB1). For easy purification and cleavage of the recombinant proteins, except GB1, an engineered hexahistidine and tobacco etch virus (TEV) protease recognition sites were included in the fusion sequence. Next, we cloned the coding sequence of human epidermal growth factor (hEGF) into this new plasmid and produced the recombinant hEGF in E. coli. The bioactive hEGF is a 53-amino acid peptide and is stabilized by three intramolecular disulphide bonds. Compared with glutathione Stransferase, thioredoxin and small ubiquitin-related modifier, GB1 greatly improved the expression and solubility of hEGF. Moreover, the recombinant hEGF bound to the nickel nitrilotriacetic acid resin column, was easily cleaved by TEV protease and the free hEGF was released. The results showed that this new plasmid was appropriate for recombinant production of small bioactive peptides, such as hEGF, which contains a high proportion of hydrophobic residues and intramolecular disulphide linkages.
In vivo engineering of hepatic tissue based on primary hepatocytes offers new perspectives for the treatment of liver diseases. However, generation of thick, three-dimensional liver tissue has been limited by the lack of vasculature in the tissue-engineered constructs. Here, we used collagen hydrogel as a matrix to generate engineered hepatic units to reconstitute three-dimensional, vascularized hepatic tissue in vivo. Hepatocytes harvested from Sprague-Dawley rats were mixed with liquid type I collagen, concentrated Dulbecco's modified Eagle's medium (2 x), and hepatocyte maintenance medium to create hepatocyte/collagen hydrogel constructs. The constructs were then dissociated into cylindrical hepatic units (diameter/height: 2000-4000 microm/500-1000 microm). Stacking of hepatic units under the subcutaneous space resulted in significant cell engraftment, with the formation of large fused hepatic system (more than 0.5 cm thickness) containing blood vessels. In contrast, only less cell engraftment could be achieved when hepatocytes were transplanted in a manner of whole constructs. Functional maintenance of the engineered hepatic tissue was confirmed by the expression of liver-specific mRNA and proteins. The engineered hepatic tissue has the ability to respond to the regenerative stimulus. In conclusion, large hepatic tissue containing blood vessels could be engineered in vivo by merging small hepatic units. This approach for tissue engineering is simple and represents an efficient way to engineer hepatic tissue in vivo.
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