One approach to treat periodontal diseases is grafting of tissue-engineered periodontal ligaments. Therefore, periodontal ligaments were constructed by layering cell sheets. A cell sheet was prepared by enzymatic digestion of salmon collagen gel on which human periodontal ligament fibroblasts (HPLFs) were co-cultured with or without human umbilical vein endothelial cells (HUVECs). Three cell sheets were layered and then cultured in angiogenic media, in which the HUVECs were found to form capillary-like structures when co-cultured on the HPLFs. The layered HPLFs sheets with HUVEC co-culture (PL-EC construct) demonstrated longer survival, higher alkaline phosphatase activities and lower osteocalcin production than layered HPLFs sheets without HUVEC co-culture (PL construct). Hematoxylin-eosin and Masson’s trichrome staining of histological sections showed that cell density, mass and extracellular matrix deposition of the PL-EC construct were higher than those of the PL construct. Furthermore, CD31 immunostaining revealed the formation of capillary-like structures throughout the PL-EC construct. In conclusion, we successfully developed tissue-engineered periodontal ligament constructs with intrinsic angiogenic potential using cell sheet engineering and HUVEC co-culture.
Amino acid Schiff base Cu(II) complexes were synthesized under microwave irradiation using methanol as a solvent, to maximize the best conditions to obtain the attained compounds, containing aromatics possessing no, one or two chlorine atoms. The compounds’ antibacterial activities were tested against Gram-positive and Gram-negative bacteria, and the most active were tested for their antioxidant activities, and as E. coli, in particular, was found to be sensitive to these compounds, their interaction with this bacterium was investigated. It was found that, depending on the amino acid used for the formation of the Schiff base ligand, its LogPo/w mono-chlorinated or bis-chlorinated compounds are the most efficient against the tested bacteria.
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