Adult Human Keratinocytes Migrating over Nonviable Dermal Collagen Produce Collagenolytic Enzymes That Degrade Type I and Type IV Collagen

Human adult keratinocytes migrating on a nonviable dermal substrate in cultures without fibroblasts induce thinning and degradation of the collagen substrate beneath the migrating epithelium. Further, unconcentrated conditioned medium from the cultures exhibit collagenolytic activity against both type I and type IV collagen which is inhibited by EDTA but not by phenylmethylsulfonyl fluoride or N-ethylmaleimide. Since the migrating epithelium and dermal substrate do not contain fibroblasts, this study shows that migratory keratinocytes in contact with interstitial collagen are capable of producing collagenases against type I and type IV collagen. Moreover, migratory keratinocytes appear to be similar to highly metastatic cells in their ability to degrade basement membrane collagen

Simulating Operations Policies in a Container Terminal

Annual Summer Conferenceinfo:eu-repo/semantics/publishe

Performance Evaluation by Simulation of Operations Policies in a Container Terminal

Triesteinfo:eu-repo/semantics/publishe

Eye-Derived Growth Factor Isolated from Bovine Retina and Used for Epidermal Wound Healing In Vivo

Eye-derived growth factor (EDGF) has been found in several ocular tissues and shown to be able to stimulate the in vitro proliferation of cells from various tissues and organisms. It had already been shown that EDGF differs biochemically and biologically from other growth factors such as epidermal growth factor (EGF) and fibroblast growth factor in that it is the only one that can stimulate the in vitro growth of human adult keratinocytes. Moreover EDGF stimulates reepithelialization and neovascularization. In this paper we report data concerning the effect on the rate of epidermal wound healing in guinea pigs of different extracts obtained from adult bovine retina. Our results show that EDGF can significantly increase the rate of reepithelialization when epidermis is detached from dermis and removed after induction of a blister. The doses used were comparable to the ones used to obtain maximal increase of cell proliferation in vitro. However no attempt was made to further investigate the mechanism accounting for the observed wound healing. At 24 h, control wounds maintained under occlusive dressing had only about 50% of their surface covered with cells as opposed to EDGF-treated wounds which were covered up to about 80% (p = 0.05). On the other hand, EGF does not increase the rate of wound healing in this model even at 1000-fold higher doses than those used in in vitro bioassays. Although EDGF is still not purified to homogeneity and another 10- to 100-fold purification might be necessary to achieve homogeneity, our results suggest that EDGF may find therapeutic applications as a potent in vivo epidermal wound healing agent

Thermolysin in human cultured keratinocyte isolation

BACKGROUND: When treating extensively burned patients using cultured epidermal sheets, the main problem is the time required for its production. Conventional keratinocyte isolation is usually done using Trypsin. We used a modification of the conventional isolation method in order to improve this process and increase the number of colonies from the isolated epidermal cell population. PURPOSE: To compare the action of trypsin and thermolysin in the keratinocyte isolation using newborn foreskin. METHODS: This method used thermolysin as it selectively digests the dermo-epidermal junction. After dermis separation, the epidermis was digested by trypsin in order to obtain a cell suspension. RESULTS: Compared to the conventional procedure, these experiments demonstrated that in the thermolysin group, the epidermis was easily detached from the dermis, there was no fibroblast contamination and there were a larger number of keratinocyte colonies which had a significant statistical difference. CONCLUSION: The number of colonies in the thermolysin group was significantly greater than in the trypsin group