An IgG-Fc receptor induced in cytomegalovirus-infected human fibroblasts.

Cytomegalovirus- (CMV) infected cultured human fibroblasts incubated with normal human serum were shown to react with IgG by direct and indirect fluorescent antibody tests. The binding of IgG to infected cells was unrelated to the presence of anti-CMV complement fixing (CF) antibodies and was not observed with uninfected cells. The reaction was first observed 36 hours after infection as diffuse cytoplasmic staining which by 72 hr became localized into a dense perinuclear structure. The cytoplasmic fluorescence was not detected with anti-IgA or anti-IgM fluorescent conjugates. The reaction was seen with purified IgG and Fc fragments but was only minimally detectable with Fab fragments. It occurred in fibroblasts infected with three standard laboratory strains of CMV and seven recent CMV isolates from patients and was observed in six separate lots of human foreskin fibroblast cultures as well as in WI-38 cells. We conclude that CMV infection induces the formation of a IgG receptor in human fibroblasts.     

Altered accumulation of zinc by aging human fibroblasts in culture

Human fetal lung fibroblasts were tested for their ability to accumulate zinc and to bind bacteria after 20–24 generations in tissue culture and again after 56–57 generations when the fibroblasts are near the end of their capacity for cell division. Uptake of ⁶⁵ZnCl₂ (measured under unsaturated conditions as accumulation per cell and per mg cell protein during a 1-hour incubation) was stable between 20 and 24 generations, and over a 3-day period of confluency. However, there was a 40 percent reduction of zinc uptake per mg of fibroblast protein at 56–57 generations, when the cells were larger. In contrast, incubation of labeled bacteria for 1 hour with the fibroblasts resulted in a constant proportion binding per unit cell mass at 20–24 and 56–57 generations. It is concluded that bacterial binding sites on the cell surface do not diminish with aging of fibroblasts, whereas uptake of zinc per unit cytoplasm undergoes reduction as a consequence of the aging process.     

Herpes simplex virus ICP27 protein provides viral mRNAs with access to the cellular mRNA export pathway

The role of herpes simplex virus ICP27 protein in mRNA export is investigated by microinjection into Xenopus laevis oocytes. ICP27 dramatically stimulates the export of intronless viral mRNAs, but has no effect on the export of cellular mRNAs, U snRNAs or tRNA. Use of inhibitors shows, in contrast to previous suggestions, that ICP27 neither shuttles nor exports viral mRNA via the CRM1 pathway. Instead, ICP27-mediated viral RNA export requires REF and TAP/NXF1, factors involved in cellular mRNA export. ICP27 binds directly to REF and complexes containing ICP27, REF and TAP are found in vitro and in virally infected cells. A mutant ICP27 that does not interact with REF is inactive in viral mRNA export. We propose that ICP27 associates with viral mRNAs and recruits TAP/NXF1 via its interaction with REF proteins, allowing the otherwise inefficiently exported viral mRNAs to access the TAP-mediated export pathway. This represents a novel mechanism for export of viral mRNAs.     

Induction of surface IgG receptors in cytomegalovirus-infected human fibroblasts

Binding studies on diploid human fibroblasts with human immunoglobulin G (IgG) demonstrate the existence of a specific receptor for this class of immunoglobulin. The receptor preferentially binds aggregated human IgG and recognizes these complexes via the Fc portion of the molecule. Cytomegalovirus infection of diploid human fibroblasts results in a more than 100-fold increase in the number of IgG-receptors present on the cell surface. The binding of aggregated IgG by these newly expressed receptors exhibits the characteristics of the binding mediated by the receptors detectable in uninfected cells.     

Localization of the viral and cellular Src kinases to perinuclear vesicles in fibroblasts.

Previous studies have shown that the viral oncogene product, v-Src, is localized to a perinuclear structure. Here, we demonstrate by immunofluorescence analysis that the perinuclear structure corresponds to a local concentration of vesicles. Overexpressed normal cellular Src, c-Src, and a temperature-sensitive mutant of v-Src also are associated with these perinuclear vesicles. This perinuclear localization is observed in a variety of cell types using several different antibodies to Src, and it is independent of the fixation method. Immunoelectron ultracryomicroscopic analysis of rat fibroblast cells transformed by v-Src demonstrates an association of this protein with the limiting membranes of vesicles concentrated in the perinuclear region. These vesicles appear at the electron microscopic level to be multivesicular bodies on the basis of their size (0.3-1.0 microns in diameter), large electron-transparent lumens, and electron-dense vesicular inclusions. Morphometric analysis indicates that approximately 20% of the total cell v-Src protein is associated with these structures. This subpopulation of v-Src may have been recovered from the plasma membrane via the endocytotic pathway in a manner analogous to endocytosis of the epidermal growth factor receptor. Localization of the Src tyrosine kinases to these perinuclear endocytotic vesicles may be necessary for oncogenic transformation by v-Src and for normal functions of c-Src.     

Cortisol decreases the cellular concentration of translatable procollagen mRNA species in cultured human skin fibroblasts

The effect of cortisol on the cellular concentration of translatable procollagen mRNAs was studied in cultured human skin fibroblasts. Cortisol selectively decreased the amount of procollagen mRNAs, in comparison to the total mRNA activity, when the cells were grown in enriched medium conditions, i.e., with 10% newborn calf serum. The selective decrease was first observed after 6 h exposure to 1 μM cortisol. In depleted medium conditions, i.e., with 2% newborn calf serum, the initial response was a stimulatory one, followed after about 12 h by a decrease in the procollagen mRNA activity. The results suggest that the selective inhibitory effect of cortisol on the cellular concentration of translatable procollagen mRNA species needs an optimal serum concentration. Furthermore, the results give support to the hypothesis that the decrease in the procollagen mRNA concentration after cortisol administration is a secondary response, preceeded by the induction of some intracellular regulation system.     

Cortisol decreases the cellular concentration of translatable procollagen mRNA species in cultured human skin fibroblasts

The effect of cortisol on the cellular concentration of translatable procollagen mRNAs was studied in cultured human skin fibroblasts. Cortisol selectively decreased the amount of procollagen mRNAs, in comparison to the total mRNA activity, when the cells were grown in enriched medium conditions, i.e., with 10% newborn calf serum. The selective decrease was first observed after 6 h exposure to 1 microM cortisol. In depleted medium conditions, i.e., with 2% newborn calf serum, the initial response was a stimulatory one, followed after about 12 h by a decrease in the procollagen mRNA activity. The results suggest that the selective inhibitory effect of cortisol on the cellular concentration of translatable procollagen mRNA species needs an optimal serum concentration. Furthermore, the results give support to the hypothesis that the decrease in the procollagen mRNA concentration after cortisol administration is a secondary response, preceded by the induction of some intracellular regulation system.     

Interferon-induced proteins in human fibroblasts and development of the antiviral state.

Treatment of human fibroblasts with interferon induces the synthesis of several proteins, as detected by incorporation of [35S]methionine followed by analysis of cell extracts by polyacrylamide gel electrophoresis. The induction of these proteins had features in common with the development of the antiviral effect of interferon, such as (i) sensitivity to actinomycin D and cycloheximide when these compounds were added together with interferon, (ii) insensitivity to actinomycin D if the actinomycin D was added 2 h after the addition of interferon, (iii) similar dependence on interferon concentration, and (iv) species specificity for interferon. When interferon treatment was given in the presence of cycloheximide and actinomycin D was added before the removal of cycloheximide, all four proteins were induced, thus suggesting that their inductions are coordinated. Labeling for 2-h periods at varying time intervals after the addition of interferon revealed that the synthesis of these proteins was induced within a few hours, peaked at different time intervals, and was soon followed by a marked decline, suggesting that the mRNA's for these proteins have short half-lives. Moreover, this decline occurred despite the fact that the cells were continuously exposed to interferon, and there was no measurable loss of interferon activity in the medium. This suggests that the induction of these proteins is transient and is apparently subject to further control.     

Altered mRNA expression of glycosyltransferases in human gastric carcinomas.

Biosynthesis of carbohydrate structures is tissue-specific and developmentally regulated by glycosyltransferases like fucosyl-, sialyl- and N-acetylglucosaminyltransferases. During carcinogenesis, aberrant glycosylation leads to the development of tumor subpopulations with different adhesion properties. The aim of this contribution was to directly compare mRNA expression of several glycosyltransferases in surgical specimens of gastric carcinomas. Carcinoma specimens were classified and characterized according to the WHO/UICC system. In each case, the expression of 12 glycosyltransferase enzymes was studied simultaneously by RT-PCR. For semi-quantitative analysis, amplification of the sample sequence was compared with that of beta-actin, co-amplified within the same tube. Expression of N-acetylglucosaminyltransferase V in gastric carcinomas was significantly enhanced compared to normal tissue. Also, expression of sialyltransferase ST3Gal-IV and fucosyltransferase FT-IV was significantly enhanced in carcinoma tissue. No significant differences in glycosyltransferase expression were found in samples positive for Helicobacter pylori or between the different gastric regions. Thus, carcinogenesis is characterized by specific alterations in mRNA expression of several glycosyltransferases. Future studies will show whether RT-PCR detection of the expression of these enzymes could be helpful for prognostic purposes.     

Increase in the expression of human leukocyte antigen class I in human fibroblasts by soluble factors secreted from human cytomegalovirus-infected cells.

The human cytomegalovirus (HCMV) is known to downregulate the expression of the human leukocyte antigen (HLA) class I for escape from immune surveillance. In order to understand the HCMV immune evasion mechanism, expression of HLA class I on the surface of HCMV-infected cells was investigated. A decrease in the HLA class I expression was observed at higher MOI; whereas at a lower MOI a slight increase in the HLA class I expression was observed. When HCMV-infected and uninfected cells were separately prepared on coverslips and co-cultured, the increased HLA class I expression was observed in uninfected cells. Treatment of the uninfected cells with the culture supernatant from HCMV-infected cells resulted in an increase in the HLA class I expression. A biochemical analysis of the HCMV-infected cell culture supernatant revealed the presence of interferon (IFN) beta interleukin (IL)-1beta, and IL-6. The HLA class I-enhancing activity of the culture supernatant was mimicked by IFN beta, but not by IL1-beta or IL-6, and was partially reversed by pretreatment with an antibody to IFN beta. Therefore, it appears that the HCMV infection of human foreskin fibroblast cells induces interferon beta and other soluble factor(s) that are responsible for the up-regulation of the HLA class I expression.     

Adenovirus E1B proteins are required for accumulation of late viral mRNA and for effects on cellular mRNA translation and transport.

Late in adenovirus infection, large amounts of viral mRNA accumulate while cell mRNA transport and translation decrease. Viruses deleted in the E1B region of type 5 adenovirus do not produce the same outcome: (i) viral mRNA synthesis by the mutants is normal, delivery to the cytoplasm is 50 to 75% of normal, but steady-state levels of viral mRNA are decreased 10-fold; (ii) cell mRNA synthesis and transport continue normally in the mutant virus-infected cell; and (iii) translation of preexisting cell mRNA which is disrupted in wild-type infection remains normal in mutant-virus-infected cells. Thus E1B proteins are required for accumulation of virus mRNA and for induction of the failure of host cell mRNA transport and translation. If a single function is involved, by inference the transport and some aspect of translation of mRNAs could be linked.     

Differential glucocorticoid regulation of collagen mRNAs in human dermal fibroblasts. Keloid-derived and fetal fibroblasts are refractory to down-regulation

Abnormal regulation of collagen synthesis has been observed in fibroblasts from keloids, benign collagenous tumors that develop as a result of an inherited defect in dermal wound healing. Hydrocortisone reduces the rate of collagen synthesis in fibroblasts from normal adult dermis and scars, but fails to down regulate collagen synthesis in keloid-derived fibroblasts. We show here that loss of glucocorticoid control of collagen synthesis in keloid cells is due to an inability of hydrocortisone to reduce the levels of types I, III, and V collagen mRNA, whereas it coordinately lowers these RNAs in normal adult cells. The defective regulatory mechanism is expressed only in fibroblasts from the lesion. Fibroblasts from uninvolved dermis respond normally to hydrocortisone. Not all glucocorticoid-modulated matrix proteins are abnormally regulated in this disorder; fibronectin mRNA is induced to a similar extent in normal and keloid cells. The failure of hydrocortisone to reduce collagen gene expression is also seen in fibroblasts from fetal dermis. We have reported similarities between keloid and fetal cells with regard to growth factor requirements and growth response to hydrocortisone. Thus, keloids may be due to the inappropriate expression of a pattern of growth and matrix production that is developmentally regulated.     

MazF cleaves cellular mRNAs specifically at ACA to block protein synthesis in Escherichia coli

Escherichia coli contains operons called addiction modules, encoding toxin and antitoxin, which are responsible for growth arrest and cell death. Here, we demonstrate that MazF toxin encoded by mazEF addiction module is a sequence-specific (ACA) endoribonuclease functional only for single-stranded RNA. MazF works as a ribonuclease independent of ribosomes, and is, therefore, functionally distinct from RelE, another E. coli toxin, which assists mRNA cleavage at the A site on ribosomes. Upon induction, MazF cleaves whole cellular mRNAs to efficiently block protein synthesis. Purified MazF inhibited protein synthesis in both prokaryotic and eukaryotic cell-free systems. This inhibition was released by MazE, the labile antitoxin against MazF. Thus, MazF functions as a toxic endoribonuclease to interfere with the function of cellular mRNAs by cleaving them at specific sequences leading to rapid cell growth arrest and cell death. The role of such endoribonucleases may have broad implication in cell physiology under various growth conditions.