Differential expression of the receptors for epidermal growth factor and insulin in the developing human placenta

The detailed cellular distribution of epidermal growth factor (EGF) receptors and insulin receptors during the development of the human placenta was examined. We show that EGF receptors are expressed by villous cytotrophoblast cells in first trimester human placentae. However, where these cells proliferate to form extravillous cytotrophoblast cell columns, there is a dramatic decrease in EGF receptor expression. There is no such differential expression of insulin receptors on this cell population. In contrast, both EGF-and insulin-receptors are present throughout gestation on the microvillous membrane of the terminally differentiated and non-proliferative syncytiotrophoblast although, at term, EGF-but not insulin-receptors are also found on the basolateral membrane of this epithelium. We further show that EGF receptors isolated from first trimester and term human placentae have functional tyrosine kinase activities but differ in their extent of glycosylation. These results suggest that EGF receptors probably play several distinct functional roles in these epithelial cells depending on their proliferative capacity and differentiation status.     

Evidence for probenecid-sensitive organic anion transporters on polarized thyroid cells in culture

Epithelial thyroid cells in primary cultures loaded with BCECF/AM rapidly released the impermeant fluorescent dye BCECF (bis(carboxyethyl)carboxyfluorescein) in the incubation medium. Cells organized into follicles rapidly cleared BCECF (80% within 10 min) whereas fluorescence microscopy did not show any fluorescence in the follicular cavity. Cells organized into monolayers on plastic exported BCECF into the medium (70% within 40 min) whereas fluorescence microscopy showed intense fluorescence under the domes. BCECF efflux was blocked by probenecid, one of the known inhibitors of organic anion transporters, with similar efficiency in both structures. Maximal and half-maximal effects were respectively observed for 5 mM and 0.4 mM probenecid. The polarity of BCECF efflux was studied by using monolayers on collagen-coated Nuclepore filters: 85% of BCECF released was found in the basal compartment and 15% in the apical compartment. These findings suggested that thyroid cells in culture expressed a transport mechanism for the anionic form of BCECF. Furthermore, the observed activation of the Na+/H+ exchanger by probenecid suggested that the presence of this blocker did not overcome problems arising in the use of BCECF as intracellular pH indicator for thyroid cells.     

Resistance to H-2-restricted but not to allo-H2-specific graft and cytotoxic T lymphocyte responses in lymphoma mutant

The lymphoma mutant RMA-S escaped graft rejection after transplantation over a minor histocompatibility barrier, whereas it was rejected in H-2 allogeneic mice. The parental control line was rejected in both situations. The mutant, which had been selected against MHC class I molecules retained 5 to 10% of the wild-type H-2Db, Kb, and beta 2-microglobulin expression on the cell surface. It remained sensitive to allo-H-2b CTL in vitro, but was completely resistant to minor histocompatibility antigen-specific, H-2b-restricted CTL. It was equally resistant to other H-2b-restricted responses against internally derived Ag, such as tumor-specific CTL or a CTL clone specific for the influenza virus nucleoprotein. The results indicate a target cell defect that selectively abolishes the sensitivity to H-2-restricted CTL directed against internally processed Ag. This appears sufficient to shift the transplantation response over a minor histocompatibility Ag barrier from rejection to acceptance. There are two possible explanations for the results: 1) a block in the MHC class I-directed pathway for internal Ag processing, and 2) subthreshold H-2/Ag ligand density in relation to triggering requirements of restricted CTL. Regardless of the type of defect, the results demonstrate a difference between allo-H-2-specific and H-2-restricted CTL recognition at the level of the target cell.     

Detection of 1q polysomy in interphase nuclei of human solid tumors with a biotinylated probe

Summary A biotinylated probe (L23-21) specific for the 1q12 band of human karyotype was used to detect the 1q segment in interphase nuclei of breast and colon carcinomas. This probe was selected because trisomy or polysomy 1q is the most frequent chromosomal change observed in solid tumors. This method enables cancerous cells, including near-diploid ones carrying an unbalanced rearrangement of 1q, to be easily identified.     

Subcellular localization of the major pneumococcal autolysin: a peculiar mechanism of secretion in Escherichia coli

The major pneumococcal autolysin (N-acetylmuramoyl-L-alanine amidase) has been localized in the cellular envelope of Streptococcus pneumoniae and Escherichia coli by using immunocytochemical labeling on ultrathin sections and whole-mounted cells. Cell fractionation experiments in E. coli confirmed the peripheral localization of the pneumococcal amidase and suggested that this enzyme is weakly bound to the outer face of the cytoplasmic membrane. This interaction does not depend on the presence of choline but represents an intrinsic property of the amidase. The autolysin, that is synthesized without any N-terminal signal sequence (García, P., García, J. L., García, E., and López, R. (1986) Gene (Amst.) 43, 265-272) was not processed during translocation. A new regulatory mechanism that might be specific for bacterial autolysins is discussed.