Corynebacterium glutamicum is used for the large-scale production of L-glutamate, but the efflux of this amino acid is poorly understood. This study shows that addition of ethambutol (EMB) to growing cultures of C. glutamicum causes L-glutamate efflux at rates of up to 15 nmol min "1 (mg dry wt) "1 , whereas in the absence of EMB, no efflux occurs. EMB is used for the treatment of Mycobacterium tuberculosis, and at a molecular level it targets a series of arabinosyltransferases (EmbCAB). The single arabinosyltransferase-encoding emb gene of C. glutamicum was placed under the control of a Tet repressor (TetR). Experiments with this strain, as well as with an emb-overexpressing strain, coupled with biochemical analyses showed that: (i) emb expression was correlated with L-glutamate efflux, (ii) emb overexpression increased EMB resistance, (iii) EMB caused less arabinan deposition in cell wall arabinogalactan, and (iv) EMB caused a reduced content of cell-wall-bound mycolic acids. Thus EMB addition resulted in a marked disordering of the cell envelope, which was also discernible by examining cellular morphology. In order to further characterize the cellular response to EMB addition, genome-wide expression profiling was performed using DNA microarrays. This identified 76 differentially expressed genes, with 18 of them upregulated more than eightfold. Among these were the cell-wall-related genes ftsE and mepA (encoding a secreted metalloprotease); however, genes of central metabolism were largely absent. Given that an altered lipid composition of the plasma membrane of C. glutamicum can result in L-glutamate efflux, we speculate that major structural alterations of the cell envelope are transmitted to the membrane, which in turn activates an export system, perhaps via increased membrane tension.
In an attempt to collect more information about the features of the vernix caseosa (VC), a relatively unstudied material, some of the histochemical, ultrastructural, and immunological characteristics of VC cells have been investigated. Histochemistry and light microscopy was used to demonstrate the activity of acid and alkaline phosphatase in VC cells, enzymes with a marked increase in activity in the amniotic fluid toward term. Acid phosphatase activity was strongly present either as intracytoplasmic granules or as amorphous material between the cells; alkaline phosphatase activity was absolutely nonexistent. The ultrastructural morphology of the VC cells was analyzed by scanning and transmission electron microscopy (TEM). Significant differences can be demonstrated in the individual surface patterns of the VC keratinocytes. TEM showed irregularly flattened cells in various stages of keratinization. The ultrastructural findings confirm the dissimilarity, which exists between the individual VC cells. Finally, immunofluorescent staining tests of frozen VC smears showed that only immunoglobulin G conjugate gives strong positive reaction at the antigen sites of the VC cells. The special finding in this study is the polymorph appearance of the surface pattern and the cytoplasma structure of the VC cells, as well as the lack of uniform appearance of the acid phosphatase activity in and between the cells. All these suggest that the status of the individual VC cell is not similar in regard to their keratinization and desquamation activities.
Damage to vascular endothelium may play an important role during metastasis. We used a three-dimensional model of tumour cell extravasation to test the hypothesis that certain types of tumour cells are able to induce vascular endothelial cell injury. Multicellular tumour spheroids (MCTS) of 14 human cancer cell lines and spheroids from two benign cell lines were transferred onto confluent monolayers of human endothelial cells (EC). MCTS from 4 of 7 melanoma cell lines induced damage of the endothelium which was closely associated with tumour cell attachment. Endothelial cell injury became evident morphologically by loss of cell membrane integrity and sensitivity to shear stress. Similar results were obtained with EC derived from human umbilical veins, umbilical arteries and saphenous veins. Addition of the oxygen radical scavenger catalase showed a dose- and time-dependent inhibition (up to 48 h) of EC damage in the case of the melanoma cell lines ST-ML-11, ST-ML-14 and SK-MEL-28. The scavenging enzyme superoxide dismutase proved to be protective (up to 12 h) in ST-ML-12 MCTS. In contrast, allopurinol, deferoxamine mesylate, ibuprofen, nor-dihydroguaretic acid, soybean trypsin inhibitor or aprotinin had no protective effect. None of the non-melanoma cancer cell lines or benign cells induced endothelial cell damage. Endothelial injury has been shown to enhance the process of metastasis. Our results suggest that free-radical-mediated endothelial cell damage may be one of the mechanisms contributing to the devastating metastatic potential of melanoma.
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