Middle Ear "Adenoma": a Neuroendocrine Tumor with Predominant L Cell Differentiation

This morphological and immunohistochemical study demonstrates that tumors currently known as "middle ear adenomas" are truly well-differentiated epithelial neuroendocrine tumors (NETs) composed of cells comparable to normal intestinal L cells, and therefore, these tumors resemble hindgut NETs. These tumors show consistent expression of glucagon, pancreatic polypeptide, PYY, and the transcription factor SATB2, as well as generic neuroendocrine markers and keratins. The same L cell markers are expressed by cells within the normal middle ear epithelium. These markers define a valuable immunohistochemical profile that can be used for differential diagnosis of middle ear neoplasms, particularly in distinguishing epithelial NETs from paragangliomas. The discovery of neuroendocrine cells expressing the same markers in non-neoplastic middle ear mucosa opens new areas of investigation into the physiology of the normal middle ear and the pathophysiology of middle ear disorders.

What Is an L-Cell and How Do We Study the Secretory Mechanisms of the L-Cell?

Synthetic glucagon-like peptide-1 (GLP-1) analogues are effective anti-obesity and anti-diabetes drugs. The beneficial actions of GLP-1 go far beyond insulin secretion and appetite, and include cardiovascular benefits and possibly also beneficial effects in neurodegenerative diseases. Considerable reserves of GLP-1 are stored in intestinal endocrine cells that potentially might be mobilized by pharmacological means to improve the body's metabolic state. In recognition of this, the interest in understanding basic L-cell physiology and the mechanisms controlling GLP-1 secretion, has increased considerably. With a view to home in on what an L-cell is, we here present an overview of available data on L-cell development, L-cell peptide expression profiles, peptide production and secretory patterns of L-cells from different parts of the gut. We conclude that L-cells differ markedly depending on their anatomical location, and that the traditional definition of L-cells as a homogeneous population of cells that only produce GLP-1, GLP-2, glicentin and oxyntomodulin is no longer tenable. We suggest to sub-classify L-cells based on their differential peptide contents as well as their differential expression of nutrient sensors, which ultimately determine the secretory responses to different stimuli. A second purpose of this review is to describe and discuss the most frequently used experimental models for functional L-cell studies, highlighting their benefits and limitations. We conclude that no experimental model is perfect and that a comprehensive understanding must be built on results from a combination of models.

Regulation of MAP kinase-directed mitogenic and protein kinase B-mediated signaling by cannabinoid receptor type 1 in skeletal muscle cells

OBJECTIVE

The endogenous cannabinoid (or endocannabinoid) system (ECS) is part of a central neuromodulatory system thought to play a key role in the regulation of feeding behavior and energy balance. However, increasing evidence suggests that modulation of the ECS may also act to regulate peripheral mechanisms involved in these processes, including lipogenesis in adipose tissue and liver, insulin release from pancreatic beta-cells, and glucose uptake into skeletal muscle. It was recently shown that cannabinoid receptor type 1 (CB1) and type 2 (CB2), both key components of the ECS, are expressed in human and rodent skeletal muscle. However, their role in modulating insulin sensitivity in this metabolically active tissue has yet to be determined. Our aim was to establish the role, if any, of these receptors in modulating insulin sensitivity in skeletal muscle cells.

RESEARCH DESIGN AND METHODS

Cultured skeletal muscle cells were exposed to CB1 and/or CB2 pharmacological agonists/antagonists/inverse agonists, and the resulting effects on insulin-regulated phosphatidylinositol 3 kinase (PI 3-kinase)-protein kinase B (PKB) and extracellular signal-related kinases 1/2 (ERK1/2)-directed signaling were determined.

RESULTS

Here, we report that modulating the activity of the ECS in skeletal muscle regulates both insulin-dependent mitogen-activated protein (MAP) kinase (ERK1/2) and the canonical PI 3-kinase/PKB signaling pathways. We show that pharmacological activation or inhibition of CB1 receptor activity exerts a differential effect with regard to MAP kinase- and PKB-directed signaling.

CONCLUSIONS

Our study provides evidence that signaling via cannabinoid receptors can significantly modulate mitogenic and metabolic signaling in skeletal muscle with important implications for muscle growth and differentiation as well as the regulation of glucose and lipid metabolism.

Blockade of tumor necrosis factor (TNF) receptor type 1-mediated TNF-alpha signaling protected Wistar rats from diet-induced obesity and insulin resistance

TNF-alpha plays an important role in the pathogenesis of obesity and insulin resistance in which the effect of TNF-alpha signaling via TNF receptor type 1 (TNFR1) largely remains controversial. To delineate the role of TNFR1-mediated TNF-alpha signaling in the pathogenesis of this disorder, a TNFR1 blocking peptide-Fc fusion protein (TNFR1BP-Fc) was used for the present study. Wistar rats were fed a high-fat/high-sucrose (HFS) diet for 16 wk until obesity and insulin resistance developed. In comparison with increased body weight and fat weight, enlarged adipocytes, and hypertriglyceridemia in the obese state, the subsequent 4-wk treatment with TNFR1BP-Fc resulted in significant weight loss characterized by decreased fat pad weight and adipocyte size and reduced plasma triglycerides. Furthermore, obesity-induced insulin resistance, including hyperinsulinemia, elevated C-peptide, higher degree of hyperglycemia after glucose challenge, and less hypoglycemic response to insulin, was markedly improved, and the compensatory hyperplasia and hypertrophy of pancreatic islets were reduced. Interestingly, treatment with TNFR1BP-Fc markedly suppressed systemic TNF-alpha release and its local expression in pancreatic islets and muscle and adipose tissues. In addition, blockage of TNFR1-mediated TNF-alpha signaling in obese rats significantly enhanced tyrosine phosphorylation of insulin receptor substrate 1 (IRS-1) in the muscle and fat tissues. Our results strongly suggest a pivotal role for TNFR1-mediated TNF-alpha signaling in the pathogenesis of obesity and insulin resistance. Thus, TNFR1BP-Fc may be a good candidate for the treatment of this disease.

Role of endocytosis in the transfection of L929 fibroblasts by polyethylenimine/DNA complexes

Polyethylenimine (PEI) is one of the most efficient nonviral vectors for gene therapy. The aim of this study was to investigate the role of endocytosis in the transfection of synchronized L929 fibroblasts by PEI/DNA complexes. This was performed by confocal microscopy and flow cytometry, using the endocytosis marker FM4-64 and PEI/DNA complexes labeled either with the DNA intercalator YOYO-1, or with fluorescein covalently linked to PEI. Endocytosis appeared as the major if not the sole mode of entry of the PEI/DNA complexes into the L929 cells. The complexes followed a typical fluid phase endocytosis pathway and were efficiently taken up in less than 10 min in endosomes that did not exceed 200 nm in diameter. Later, the localization of the complexes became perinuclear and fusion between late endosomes was shown to occur. Comparison with the intracellular trafficking of the same complexes in EA.hy 926 cells (W.T. Godbey, K. Wu, A.G. Mikos, Proc. Natl. Acad. Sci. USA 96 (1999)) revealed that endocytosis of PEI/DNA complexes is strongly cell-dependent. In L929 cells, escape of the complexes from the endosomes is a major barrier for transfection. This limited the number of transfected cells to a few percent, even though an internalization of PEI/DNA complexes was observed in most cells. In addition, the entry of the complexes into the nucleus apparently required a mitosis and did not involve the lipids of the endosome membrane. This entry seems to be a short-lived event that involves only a few complexes.

Recognition of chlamydial antigen by HLA-B27-restricted cytotoxic T cells in HLA-B*2705 transgenic CBA (H-2k) mice

OBJECTIVE

The association of reactive arthritis (ReA) with HLA-B27 and the presence of bacterial antigen in joints with ReA suggest that bacterial peptides might be presented by the HLA-B27 molecule and thus stimulate CD8 T cells. This study was performed to investigate the B27-restricted cytotoxic T lymphocyte (CTL) response to Chlamydia trachomatis, using the model of HLA-B27 transgenic mice.

METHODS

CBA (H-2k) mice homozygous for HLA-B*2705 and human beta2-microglobulin expression were immunized with C trachomatis or with the chlamydial 57-kd heat-shock protein (hsp57) coupled to latex beads. Cytotoxicity of lymphocytes from in vivo-primed transgenic mice was tested against C trachomatis-infected targets. Blocking experiments were performed with monoclonal antibodies (MAb) against class I major histocompatibility complex molecules.

RESULTS

A Chlamydia-specific lysis of both B27-transfected and nontransfected target cells was observed. This response could be inhibited by anti-B27 and anti-H2 MAb. CTL from mice immunized with hsp57 were not able to lyse Chlamydia-infected target cells, and Chlamydia-specific CTL could not destroy targets loaded with hsp57.

CONCLUSION

These results suggest the existence of at least 2 CTL populations in this mouse model: one recognizing peptide of bacteria-infected cells restricted by HLA-B*2705 and the other recognizing peptide of bacteria-infected cells restricted by the murine H-2Kk molecule. It does not appear that hsp57 is a major target for the CD8 T cell response directed against Chlamydia. This animal model opens the way for identifying bacterial epitopes presented by HLA-B27, and might thus help to clarify the pathogenesis of B27-associated diseases.

Interactions of tunicate immunomodulatory proteins with mammalian cells

The ability of a tunicate immunomodulatory protein, tunIL1, to interact with mammalian cells was investigated. TunIL1 is known to regulate inflammatory defence reactions in tunicates and to stimulate the proliferation of mammalian thymocytes. In the current study, tunIL1 was shown to enchance L929 fibroblast proliferation, induce IL-2 secretion from human mononuclear cells and enhance IL-2 receptor expression by EL-4 murine lymphoma cells. These biological activities are comparable with those of the mammalian inflammatory cytokine, IL-1. However, tunIL1 does not appear to stimulate its effects on mammalian cells by interacting with cell surface receptors in a manner analogous to mammalian IL-1. TunIL1 cannot block the binding of anti-IL-1 receptor antibodies to EL-4 cells, nor can anti-IL-1 receptor antibodies inhibit the capacity of tunIL1 to stimulate thymocyte proliferation. This indicates that tunIL1 does not induce its IL-1-like activities via structural homology to mammalian IL-1.

Direct and indirect mechanisms of repression participate in suppression of T-cell-specific gene expression in T x L-cell hybrids

Expression of tissue-specific genes can be altered upon fusion of mammalian cells of different types. To resolve the genetic basis of this phenomenon and to identify components of the regulatory circuits that are involved, we have established a series of somatic cell hybrids between mouse T cells and L cells. These hybrids have an unusual and interesting phenotype. Unlike many hybrid cells studied, in which the expression of an entire set of tissue-specific genes was coordinately extinguished, in our T x L-cell hybrids only two out of seven T-cell-restricted genes were completely extinguished, whereas the other genes were repressed to various degrees. These hybrids extinguish the production of TCR beta and Thy-1 mRNA, repress the expression of TCR alpha, GATA-3, TCF-1, and LEF-1 genes to different extents, exhibit small changes in the level of CD3-epsilon mRNA, and continue to express the fibroblast-specific fibronectin gene, and the ets-1 gene. In this study we have evaluated for the first time the molecular mechanisms that underlie the repression of TCR alpha and TCR beta chain genes in T x L-cell hybrids. We have shown that multiple repression mechanisms, both direct and indirect, contribute to TCR alpha and TCR beta suppression. Repression of the expression of these genes correlated not only with the downregulation of GATA-3, TCF-1, and LEF-1 transcription factor expression, and with a change in the chromatin structure, but more importantly, with the activation of the silencer activity. Our study provides evidence for the existence of at least two negatively regulating elements, located at the TCR alpha enhancer-containing fragment and at the silencer region, which are active in our hybrid cells. We have shown that there was no correlation between the levels of GATA-3, TCF-1, and LEF-1 expression versus the level of TCR alpha mRNA in the independent hybrids. In contrast, both the silencer activity and the ability of the TCR alpha enhancer to downregulate thymidine kinase (TK) promoter activity were found to be in an inverse correlation with the ability of the different hybrid cells to express TCR alpha mRNA.

Voltage sensing by fluorescence resonance energy transfer in single cells

A new mechanism has been developed for achieving fast ratiometric voltage-sensitive fluorescence changes in single cells using fluorescence resonance energy transfer. The mechanism is based on hydrophobic fluorescent anions that rapidly redistribute from one face of the plasma membrane to the other according to the Nernst equation. A voltage-sensitive fluorescent readout is created by labeling the extracellular surface of the cell with a second fluorophore, here a fluorescently labeled lectin, that can undergo energy transfer with the membrane-bound sensor. Fluorescence resonance energy transfer between the two fluorophores is disrupted when the membrane potential is depolarized, because the anion is pulled to the intracellular surface of the plasma membrane far from the lectin. Bis-(1,3-dialkyl-2-thiobarbiturate)-trimethineoxonols, where alkyl is n-hexyl and n-decyl (DiSBA-C6-(3) and DiSBA-C10-(3), respectively) can function as donors to Texas Red labeled wheat germ agglutinin (TR-WGA) and acceptors from fluorescein-labeled lectin (FI-WGA). In voltage-clamped fibroblasts, the translocation of these oxonols is measured as a displacement current with a time constant of approximately 2 ms for 100 mV depolarization at 20 degrees C, which equals the speed of the fluorescence changes. Fluorescence ratio changes of between 4% and 34% were observed for a 100-mV depolarization in fibroblasts, astrocytoma cells, beating cardiac myocytes, and B104 neuroblastoma cells. The large fluorescence changes allow high-speed confocal imaging.

Cell surface P- and E-selectin support shear-dependent rolling of bovine gamma/delta T cells

The vascular selectins P- and E-selectin are inducible adhesion proteins expressed by endothelial cells that have been shown to support shear-dependent rolling of myeloid cells. This interaction is thought to be a prerequisite event for subsequent steps, such as tight adhesion/aggregation and transendothelial cell migration, involved in the accumulation of leukocytes into tissues. Certain lymphocyte subsets have also been shown to bind the vascular selectins, but the importance of this interaction in mediating shear-dependent rolling, as described for myeloid cells, has not been demonstrated. We expand on our earlier observation that bovine gamma/delta T cells bind E-selectin by showing that this interaction leads to a reproducible rolling event in assays done under shear forces that approximate those that occur in vivo. E-selectin, expressed by L cell transfectants or cytokine-stimulated human and bovine endothelial cells, equally supports the shear-dependent rolling interaction. The lymphocyte adhesion proteins L-selectin, CD44, and CD2 do not contribute to this event. Neuraminidase treatment of the gamma/delta T cells or addition of EDTA to the assay completely blocks the rolling interaction. We further show for the first time that P-selectin expressed by thrombin-activated platelets or a soluble P-selectin/human Ig chimera specifically binds gamma/delta T cells. The P-selectin interaction is similar to the rolling event mediated by E-selectin--it requires divalent cations and sialic acid on the lymphocyte, it lacks involvement of L-selectin and CD44, and rolling occurs under physiologic shear conditions. These results provide the documentation that the vascular selectins can support shear-dependent rolling of a lymphocyte subset and that P-selectin mediates the adhesion of gamma/delta T cells.

In vitro bioassay for human serum follicle-stimulating hormone (FSH) based on L cells transfected with recombinant rat FSH receptor: validation of a model system

FSH plays a central role in normal reproductive function, i.e. control of follicular maturation in the female and initiation and maintenance of spermatogenesis in the male. The effects of FSH are mediated by its interaction with a specific receptor that belongs to the superfamily of guanine nucleotide-binding protein-coupled receptors. Due to the microheterogeneity of gonadotropins, measurement of immunoreactivity does not necessarily reflect their bioactivity. Mutations in gonadotropin beta-subunits, which affect bioreactivity and/or immunoreactivity of gonadotropins, have been described as causes of infertility, thus highlighting the need for rapid and convenient methods to measure bioactivity. To establish a model system for recombinant in vitro bioassays for FSH that would obviate the use of live animals, we developed a strategy for efficient expression of the rat FSH receptor (FSHR) in L cells. A cell line, FSHR 7/12, was developed that bound [125I]FSH with high affinity (Kd 1.42 nM) and responded to human FSH with an increase in cAMP accumulation. Untreated human serum was found to have an unspecific inhibitory effect on cAMP formation. This effect could be thoroughly avoided by mild heating (10 min at 56 C) of serum samples before addition to cells without detectable loss of FSH immunoactivity or bioactivity. Studies on the hormone-sensitive adenylyl cyclase system of transformed FSHR 7/12 cells and of the parental Ltk- cells showed that the cellular response to FSH was highly specific. Using a parallel line assay design, FSHR 7/12 cells were used to validate a novel recombinant in vitro bioassay relying on intracellular cAMP accumulation as a readout system. Up to 10% of serum could be added to the incubation buffer without leading to nonparallelism to the standard curve. When 70 serum samples of male patients attending an infertility clinic were analyzed, the novel assay system displayed high sensitivity and a close correlation (r > 0.8; P < 0.01) to the established rat Sertoli cell aromatase bioassay and to a highly specific fluoroimmunoassay. When sera of 25 normal menstruating women were analyzed for FSH bioactivity at different stages of the menstrual cycle, a midcycle FSH peak followed by a decline in the late luteal phase could be discerned. The analysis of 26 serum samples of postmenopausal women revealed a close correlation between FSH values obtained by the novel in vitro bioassay and by a fluoroimmunoassay (r = 0.90; P < 0.01). Thus, the present in vitro bioassay represents a sensitive, rapid, and convenient model system to measure bioactive FSH in human serum.

Proliferation of human leukemic pre-B cells induced by human bone marrow stromal cells and murine fibroblasts

Aim of the study was the establishment of a standardized in vitro culture system for studies on proliferation and differentiation of human leukemic pre-B cells. Coincubation with human stromal cells led to a significantly higher proliferation of the cytokine-sensitive leukemic pre-B cell line BLIN-1. Clones from the murine fibroblast cell line L929 provided identical results. Coincubation with the murine cells also resulted in a significantly higher numbers of viable cells in 5 of 8 patient samples with newly diagnosed B lineage ALL. The results show that in vitro bone marrow stromal cells can be substituted by murine fibroblasts and form the basis for a simpler and more reproducible assay system.

Extracellular domain of pemphigus vulgaris antigen (desmoglein 3) mediates weak homophilic adhesion

Pemphigus vulgaris antigen is in the cadherin supergene family. We hypothesized that the extracellular domain of pemphigus vulgaris antigen might mediate homophilic cell adhesion because 1) the originally described cadherins (e.g., E-cadherin) mediate this type of adhesion, 2) pemphigus vulgaris antigen is localized in desmosomes that are cell adhesion junctions, and 3) autoantibodies in pemphigus vulgaris patients cause loss of cell adhesion. To test this hypothesis we used a system developed for E-cadherin that, when transfected into L cells (mouse fibroblasts), has been shown to cause aggregation. Because this aggregation requires the cytoplasmic domain of E-cadherin to bind to catenins, we made a chimeric cDNA construct that encodes the extracellular domain of pemphigus vulgaris antigen and the cytoplasmic domain of E-cadherin. Analysis by immunofluorescence and flow cytometry with pemphigus vulgaris sera indicated that the pemphigus vulgaris antigen extracellular domain of this chimeric molecule (PVEC) was expressed on the cell surface of transiently transfected cells and permanently transfected L-cell clones. Immunoprecipitation of the chimeric molecule from extracts of these clones showed that the E-cadherin cytoplasmic domain bound catenins. Surprisingly, these L-cell clones displayed only slight aggregation compared to an L-cell clone transfected with E-cadherin. This weak aggregation was, however, specific and homophilic, as determined by cell sorting of only PVEC transfectants into aggregates from mixtures of PVEC and neomycin resistance gene transfectants, one of which was labeled with a fluorescent dye. We conclude that the extracellular domain of pemphigus vulgaris antigen mediates weak homophilic adhesion and is not interchangeable in function with the extracellular domain of E-cadherin.

Adhesion of epidermal Langerhans cells to keratinocytes mediated by E-cadherin

Langerhans cells (LC) are the principal accessory cells present in epidermis. Because LC have limited capacity for self-renewal, epidermis is continually repopulated by as-yet uncharacterized bone marrow-derived LC progenitors. In addition, although LC persist in epidermis for extended periods, LC are induced to migrate from skin to regional lymph nodes after antigen exposure. To begin to elucidate mechanisms involved in LC trafficking, we characterized LC-keratinocyte (KC) interactions. Here we report that fresh murine LC express cadherins, and that LC adhere to KC in vitro through E-cadherin. Cultured LC (which may bear a phenotypic and functional relationship to LC that have migrated to lymph nodes) express lower levels of E-cadherin and exhibit decreased affinity for KC. These results suggest that expression of E-cadherin by LC promotes persistence of these cells in epidermis, and that cadherins may play important and unanticipated roles in interactions between leukocytes and epithelia.

Absence of HSP28 synthesis and phosphorylation during the development of chronic thermotolerance in murine L929 cells

We investigated the correlation between chronic thermotolerance development and phosphorylation, synthesis, or expression of the HSP28 family in murine L929 cells. Chronic thermotolerance developed during heating at 41.5 degrees C as indicated by a biphasic survival curve. However, heat-induced phosphorylation of HSP28 was not detected. Furthermore, we failed to detect HSP28 synthesis during chronic heating by using two-dimensional polyacrylamide gel electrophoresis. The lack of HSP28 synthesis was also confirmed in acute thermotolerance. Similar results were observed in NIH 3T3 cells. Although Southern blots clearly demonstrated the presence of the HSP28 gene in genomic DNA, Northern blots failed to demonstrate its expression. Unlike HSP28, the expression of constitutive and inducible HSP70 genes, along with the synthesis of their proteins, were stimulated during chronic heating at 41.5 degrees C in L929 cells. These results suggest that HSP28 synthesis and its phosphorylation are not required to develop both chronic and acute thermotolerance in L929 cells.

Avian reovirus S1133 can replicate in mouse L cells: effect of pH and cell attachment status on viral infection

Previous reports have suggested that avian reovirus S1133 fails to replicate in mouse L cells. In this article, we report that replication does occur under certain culture conditions. The avian reovirus was found to grow in mouse L cells at pH 6.4 and 7.2 but not at pH 8.2. Culture medium with a basic pH directly inhibited viral transcription and genome replication. As a result, viral protein synthesis was also affected. At permissive pH levels, avian reovirus grew better in monolayers than in suspension cultures of L cells because of the influence of cell attachment status on viral macromolecular synthesis. Our results not only show that avian reovirus can replicate in mouse L cells but also help to explain why it did not in previous studies.

The stimulatory effect of actinomycin D on avian reovirus replication in L cells suggests that translational competition dictates the fate of the infection

Indirect immunostaining of avian reovirus S1133-infected L-cell monolayers showed that most of the cells can support viral replication. However, the number of cells in which the virus was actually replicating depended on the multiplicity of virus infection. The presence of actinomycin D during infection increased viral protein synthesis, viral growth, and the number of actively infected cells at late infection times. The antibiotic elicited these effects by triggering viral replication in cells that already contained unproductive cytoplasmic virus but that would not get productively infected in the absence of the drug. From these results, we propose a model for the interaction between L cells and avian reovirus S1133 in which viral versus host mRNA competition for the translational machinery determines the fate of the virus infection.

Reovirus 1 and 3 bind and internalise at the apical surface of intestinal epithelial cells

Displacement of [125I]reovirus from the surface of L cells by homologous and heterologous reovirus serotypes has indicated the presence of two different receptors. Corresponding experiments with Caco-2 cells and apical membrane vesicles suggest either two different receptors or different affinity of each reovirus serotype for the same receptor. Binding and internalisation of reovirus at the apical surface of Caco-2 cells and apical membrane vesicles has been demonstrated and the implications of this for models of reovirus infectivity in the intestine are discussed.

Normalization of current kinetics by interaction between the alpha 1 and beta subunits of the skeletal muscle dihydropyridine-sensitive Ca2+ channel

Purification of skeletal muscle dihydropyridine binding sites has enabled protein complexes to be isolated from which Ca2+ currents have been reconstituted. Complementary DNAs encoding the five subunits of the dihydropyridine receptor, alpha 1, beta, gamma, alpha 2 and delta, have been cloned and it is now recognized that alpha 2 and delta are derived from a common precursor. The alpha 1 subunit can itself produce Ca2+ currents, as was demonstrated using mouse L cells lacking alpha 2 delta, beta and gamma (our unpublished results). In L cells, stable expression of skeletal muscle alpha 1 alone was sufficient to generate voltage-sensitive, high-threshold L-type Ca2+ channel currents which were dihydropyridine-sensitive and blocked by Cd2+, but the activation kinetics were about 100 times slower than expected for skeletal muscle Ca2+ channel currents. This could have been due to the cell type in which alpha 1 was being expressed or to the lack of a regulatory component particularly one of the subunits that copurifies with alpha 1. We show here that coexpression of skeletal muscle beta with skeletal muscle alpha 1 generates cell lines expressing Ca2+ channel currents with normal activation kinetics as evidence for the participation of the dihydropyridine-receptor beta subunits in the generation of skeletal muscle Ca2+ channel currents.

Antibodies against human neutrophil LECAM-1 (LAM-1/Leu-8/DREG-56 antigen) and endothelial cell ELAM-1 inhibit a common CD18-independent adhesion pathway in vitro

Neutrophil adhesion to interleukin-1 (IL-1)-stimulated human umbilical vein endothelial cells (HUVEC) involves the CD18 family of leukocyte integrins (lymphocyte function-associated antigen-1 [LFA-1], Mac-1, and p150,95) and LECAM-1 (DREG-56/LEU-8/LAM-1 antigen) on neutrophils and intercellular adhesion molecule-1 (ICAM-1) and endothelial leukocyte adhesion molecule-1 (ELAM-1) on the endothelium. In this study, we compare CD18-independent adhesion pathways mediated by neutrophil LECAM-1 and endothelial ELAM-1 and find that these two pathways overlap in a variety of assays: (1) anti-LECAM-1 and anti-ELAM-1 monoclonal antibody (MoAb) inhibit neutrophil binding to HUVEC, and the inhibitory effect is not additive; (2) anti-LECAM-1 MoAb, like anti-ELAM-1 MoAb, inhibits neutrophil binding to HUVEC stimulated for 3 hours with IL-1, but not to HUVEC stimulated for 8 hours, by which time ELAM-1 expression is downregulated; (3) anti-ELAM-1 MoAb has no effect on transendothelial migration, a CD18-dependent, LECAM-1-independent neutrophil function. Interestingly, anti-ELAM MoAb has a reduced but significant inhibitory effect on the adhesion of activated neutrophils that have shed their cell-surface LECAM-1. We also show that neutrophil binding to ELAM-1-transfected L cells is inhibited not only by anti-ELAM-1 but also by anti-LECAM-1 MoAb. These results suggest that LECAM-1 and ELAM-1 can operate in the same adhesion pathway, possibly as a receptor-counterreceptor pair. LECAM-1 and ELAM-1 are likely to interact with other ligands as well, perhaps through carbohydrate determinants that modify more than one glycoprotein.

The construction of human somatic cell hybrids containing portions of the mouse X chromosome and their use to generate DNA probes via interspersed repetitive sequence polymerase chain reaction

Interspersed repetitive sequence polymerase chain reaction (IRS-PCR) has become a powerful tool for the rapid generation of DNA probes from human chromosomes present in rodent somatic cell hybrids. We have constructed a somatic cell hybrid containing a major portion of the mouse X chromosome in a human background (clone 8.0). IRS-PCR was developed for the specific amplification of mouse DNA using either of two primers from the rodent-specific portion of the murine B1 repeat. Amplification was subsequently performed with clone 8.0 and a subclone, 8.1/1, which retains a small murine X-chromosomal fragment including Hprt and the Gdx locus. A total of 15-20 discrete PCR products ranging in size from less than 500 to greater than 3000 bp were obtained from clone 8.0 with each primer. In clone 8.1/1, a subset of these bands plus some additional bands were observed. Nine bands amplified from clone 8.1/1 have been excised from gels and used as probes on Southern blots. All of the fragments behaved as single-copy probes and detected domesticus/spretus variation. They have been regionally mapped using an interspecific backcross. The probe locations are compatible with those of markers known to be present in clone 8.1/1. These results demonstrate the feasibility of this method as applied to the mouse genome and the high likelihood of generating useful DNA probes from a targeted region.

Isolation of chick tenascin variants and fragments. A C-terminal heparin-binding fragment produced by cleavage of the extra domain from the largest subunit splicing variant

The extracellular-matrix glycoprotein, tenascin, consists of disulfide-linked subunits of 190, 200 and 230 kDa (the three splicing variants reported in chicken) and usually exists as a six-armed structure under the electron microscope. We used monoclonal antibodies to isolate and characterize different splicing variants and proteolytic fragments obtained from the native protein. Purified monomeric tenascin has a native molecular mass of 216 kDa and is structured as single arms. Tenascin fragments obtained by pepsin digestion bind to monoclonal antibody (mAb) TnM1 which is directed against epidermal-growth-factor-like repeats in the N-terminal half of all subunits. These fragments represent the thin proximal part of the tenascin arms and they are still partially linked to dimers and trimers via disulfide bridges. Using mAb Tn68, that reacts with a fibronectin-type-III repeat towards the C-terminus, a tenascin fragment, generated by treatment with pronase, can be isolated. Ultrastructurally, this fragment looks like the thicker distal part of the tenascin arms. Only the 230-kDa variant of tenascin gives rise to this distal fragment after cleavage within the alternatively spliced fibronectin-type-III repeats. Native tenascin and all fragments containing the distal part of its arms bind to heparin-agarose, whereas the proximal fragments do not. Oligomeric and monomeric tenascin inhibit fibronectin-mediated fibroblast spreading with comparable efficiency when added to the culture medium, while the proximal fragment has no effect. The distal fragment as well as reduced and alkylated tenascin are active in this assay, but only at higher molar concentrations when compared to the native protein.

Cell-cell contacts mediated by E-cadherin (uvomorulin) restrict invasive behavior of L-cells

L-cells were cotransfected with plasmids coding for mouse E-cadherin (uvomorulin) and the neophosphotransferase gene, and stable transfectants expressing E-cadherin at the cell surface were selected and cloned. Control transfection was done with the neophosphotransferase gene alone. The invasive migration of transfected and untransfected L-cells into three-dimensional collagen gels was then analyzed. L-cells not expressing E-cadherin migrated efficiently into the gels, whereas invasion of the E-cadherin-expressing L-cells was restricted in a cell density dependent manner. At sparse density, when the cells exhibited little cell-cell contacts, no difference was observed between the level of invasion of the cadherin-expressing cells and the control cells. However, with increasing cell density, decreasing amounts of the cadherin-expressing cells but increasing amounts of the control cells migrated into the gels. At confluent density hardly any cadherin-expressing cells were able to migrate into the gels. The inhibition of the invasion of the cadherin-expressing cells could be reverted if confluent cells were cultured in the presence of monoclonal antibodies against E-cadherin. Since the expression of E-cadherin did not influence the invasive mobility of single cells, these results indicate that E-cadherin-mediated cell-cell contacts inhibited invasive cellular migration. Time-lapse videoscopy and studies of cell migration from a monolayer into a cell-free area demonstrated that the restricted invasion could be explained by contact inhibition of cell movement of the cadherin-expressing cells.

The role of tyrosine kinase activity in endocytosis, compartmentation, and down-regulation of the epidermal growth factor receptor

Occupancy-induced down-regulation of cell surface epidermal growth factor (EGF) receptors attenuates signal transduction. To define mechanisms through which down-regulation of this class of growth factor receptors occurs, we have investigated the relative roles of ligand-induced internalization and recycling in this process. Occupied, kinase-active EGF receptors were internalized through a high affinity, saturable endocytic system at rates up to 10-fold faster than empty receptors. In contrast, full length EGF receptors lacking tyrosine kinase activity underwent internalization at a rate independent of occupancy. This "kinase-independent" internalization rate appeared to reflect constitutive receptor internalization since it was similar to the internalization rate of both receptors lacking a cytoplasmic domain and of antibodies bound to empty receptors. EGF internalized by either kinase-active or kinase-inactive receptors was efficiently recycled and was found within endosomes containing recycling transferrin receptors. However, targeting of internalized receptors to lysosomes did not require receptor kinase activity. All receptors that displayed ligand-induced internalization also underwent down-regulation, indicating that the proximal cause of down-regulation is occupancy-induced endocytosis. Tyrosine kinase activity greatly enhances this process by stabilizing receptor association with the endocytic apparatus.

Structural and functional studies of full-length vascular cell adhesion molecule-1: internal duplication and homology to several adhesion proteins

Full-length vascular cell adhesion molecule-1 (VCAM-1) cDNA cloned by polymerase chain reaction (PCR) of poly(A)+RNA from interleukin-1 (IL-1)-activated human umbilical vein endothelial cells (HUVEC) contained an insert of 276 nucleotides after position 1,034 of the previously published sequence. Synthetic oligomer probes, specific for each of the two possible species of VCAM-1 mRNA, detected only the longer form of VCAM-1 by Northern analysis of activated endothelial cell mRNA. This full-length VCAM-1 contains two internally repeated domains of approximately 273 amino acids with a high degree of homology. This new sequence information reveals homologies with additional members of the immunoglobulin superfamily and improves ALIGN scores for previously cited adhesion proteins. Removal of the transmembrane domain and the carboxy-terminal end of the full-length VCAM-1 molecule allows the molecule to be secreted into the culture medium from cells transfected with an expression vector containing the corresponding VCAM-1 cDNA.

Four molecular pathways of T cell adhesion to endothelial cells: roles of LFA-1, VCAM-1, and ELAM-1 and changes in pathway hierarchy under different activation conditions

T cell adhesion to endothelium is critical to lymphocyte recirculation and influx into sites of inflammation. We have systematically analyzed the role of four receptor/ligand interactions that mediate adhesion of peripheral human CD4+ T cells to cultured human umbilical vein endothelial cells (HUVEC): T cell LFA-1 binding to ICAM-1 and an alternative ligand ("ICAM-X"), T cell VLA-4 binding to VCAM-1, and T cell binding to ELAM-1. Contributions of these four pathways depend on the activation state of both the T cell and HUVEC, and the differentiation state of the T cell. ELAM-1 plays a significant role in mediating adhesion of resting CD4+ T cells to activated HUVEC. LFA-1 adhesion dominates with PMA-activated T cells but the strength and predominant LFA-1 ligand is determined by the activation state of the HUVEC; while ICAM-1 is the dominant ligand on IL-1-induced HUVEC, "ICAM-X" dominates binding to uninduced HUVEC. Adhesion via VLA-4 depends on induction of its ligand VCAM-1 on activated HUVEC; PMA activation of T cells augments VLA-4-mediated adhesion, both in the model of T/HUVEC binding and in a simplified model of T cell adhesion to VCAM-1-transfected L cells. Unlike LFA-1 and VLA-4, ELAM-1-mediated adhesion is not increased by T cell activation. Differential expression of adhesion molecules on CD4+ T cell subsets understood to be naive and memory cells also regulates T/HUVEC adhesion. Naive T cell adhesion to HUVEC is mediated predominantly by LFA-1 with little or no involvement of the VLA-4 and ELAM-1 pathways. In contrast, memory T cells bind better to HUVEC and utilize all four pathways. These studies demonstrate that there are at least four molecular pathways mediating T/HUVEC adhesion and that the dominance/hierarchy of these pathways varies dramatically with the activation state of the interacting cells and the differentiation state of the T cell.

Targeted inactivation of the insulin receptor gene in mouse 3T3-L1 fibroblasts via homologous recombination

To study the role of the insulin receptor in determining adipocyte differentiation of the mouse cell line 3T3-L1, we have introduced a mutation that inactivates the insulin receptor gene by homologous recombination. In two independent clones, inactivation of one allele of the insulin receptor gene was associated with a 50-70% reduction in the number of insulin receptors. In addition, both clones were markedly impaired in their ability to differentiate into adipocytes. The defect in adipocyte-specific differentiation was corrected by expression of transfected human insulin receptor cDNA. These data suggest that the insulin receptor may play an important role in promoting differentiation of 3T3-L1 cells into adipocytes in vitro.

Lipophilic polylysines mediate efficient DNA transfection in mammalian cells

Low molecular weight (Mr approximately 3000) poly(L-lysine) (PLL) conjugated to N-glutarylphosphatidylethanolamine is an effective carrier to promote DNA-mediated transfection in cultured mammalian cells. The conjugates, named 'lipopolylysines', contained an average of two phospholipid groups per molecule of PLL. Similar conjugates of the non-degradable poly(D-lysine) also had a similar transfection activity, indicating that the degradation of the carrier is not required for the activity. Unconjugated polylysines had little activity. The transfection activity of the lipopolylysine has been optimized with respect to the DNA concentration, DNA/carrier ratio, incubation time and the presence of serum in the incubation medium. The binding of lipopolylysine with DNA was measured by the degree of retardation of DNA in agarose gel electrophoresis. It was found that at the optimal DNA/lipopolylysine ratio for transfection, all DNA were found in large complexes which did not enter the gel. The transfection activity of the lipopolylysine, under optimal conditions, was approximately 3-fold higher than that of lipofectin, a widely used commercial reagent. Moreover, lipopolylysine mediated transfection even in the presence of 10% calf serum; whereas the lipofectin lost about 70% of its activity under the same condition. However, unlike lipofectin the transfection activity of the lipopolylysine depended on scraping the treated cells. Furthermore, lipopolylysine only transfected attached monolayer cells, and not suspension cells.

The 102 kd cadherin-associated protein: similarity to vinculin and posttranscriptional regulation of expression

The E-cadherin cell adhesion molecule is associated with cytoplasmic polypeptides, and this association is essential for its cell-binding function. Using isolated adherens junctions of the liver, we purified a 102 kd protein that can associate with E-cadherin (CAP102) and isolated cDNAs encoding this protein. Sequence analysis of the cDNAs revealed that this protein has a similarity to vinculin. L cells not expressing endogenous cadherin express the mRNA for CAP102 but have only a trace amount of CAP102 protein. Introducing exogenous E-cadherin into these cells, however, induced a high expression of CAP102 protein without affecting the amount of its mRNA, suggesting that there is a posttranscriptional regulatory mechanism for this molecule. The same effect was observed by introducing N- or P-cadherin into L cells.

Sequence requirements for premature transcription arrest within the first intron of the mouse c-fos gene

A strong block to the elongation of nascent RNA transcripts by RNA polymerase II occurs in the 5' part of the mammalian c-fos proto-oncogene. In addition to the control of initiation, this mechanism contributes to transcriptional regulation of the gene. In vitro transcription experiments using nuclear extracts and purified transcription templates allowed us to map a unique arrest site within the mouse first intron 385 nucleotides downstream from the promoter. This position is in keeping with that estimated from nuclear run-on assays performed with short DNA probes and thus suggests that it corresponds to the actual block in vivo. Moreover, we have shown that neither the c-fos promoter nor upstream sequences are absolute requirements for an efficient transcription arrest both in vivo and in vitro. Finally, we have characterized a 103-nucleotide-long intron 1 motif comprising the arrest site and sufficient for obtaining the block in a cell-free transcription assay.

Multimerization of AAGTGA and GAAAGT generates sequences that mediate virus inducibility by mimicking an interferon promoter element

Multimeric AAGTGA and GAAAGT, when inserted before a minimal promoter, mediate virus-inducible transcription. We have determined that the active sequence within these multimers is TGAAAGTGAAAGT, which is structurally similar to GAGAAGTGAAAGT, a positive response element delineated in the beta-interferon gene promoter. Both sequences behave like protoenhancers and are similar as regards induction by virus or interferon regulatory factor 1 when supported by a simian virus 40 enhancer.

Molecular cloning of a gene encoding the histamine H2 receptor

The H2 subclass of histamine receptors mediates gastric acid secretion, and antagonists for this receptor have proven to be effective therapy for acid peptic disorders of the gastrointestinal tract. The physiological action of histamine has been shown to be mediated via a guanine nucleotide-binding protein linked to adenylate cyclase activation and cellular cAMP generation. We capitalized on the technique of polymerase chain reaction, using degenerate oligonucleotide primers based on the known homology between cellular receptors linked to guanine nucleotide-binding proteins to obtain a partial-length clone from canine gastric parietal cell cDNA. This clone was used to obtain a full-length receptor gene from a canine genomic library. Histamine increased in a dose-dependent manner cellular cAMP content in L cells permanently transfected with this gene, and preincubation of the cells with the H2-selective antagonist cimetidine shifted the dose-response curve to the right. Cimetidine inhibited the binding of the radiolabeled H2 receptor-selective ligand [methyl-3H]tiotidine to the transfected cells in a dose-dependent fashion, but the H1-selective antagonist diphenhydramine did not. These data indicate that we have cloned a gene that encodes the H2 subclass of histamine receptors.

Herpes simplex virus particles are unable to traverse the secretory pathway in the mouse L-cell mutant gro29

The mouse L-cell mutant gro29 was selected for its ability to survive infection by herpes simplex virus type 1 (HSV-1) and is defective in the propagation of HSV-1 and vesicular stomatitis virus (F. Tufaro, M. D. Snider, and S. L. McKnight, J. Cell Biol. 105:647-657, 1987). In this report, we show that gro29 cells harbor a lesion that inhibits the egress of HSV-1 virions during infection. We also found that HSV-1 glycoprotein D was slow to traverse the secretory pathway en route to the plasma membrane of infected gro29 cells. The movement of glycoproteins was not blocked entirely, however, and immunofluorescence experiments revealed that infected gro29 cells contained roughly 10% of the expected amount of glycoprotein D on their cell surface at 12 h postinfection. Furthermore, nucleocapsids and virions assembled inside the cells during infection, suggesting that the lesion in gro29 cells impinged on a late step in virion maturation. Electron micrographs of infected cells revealed that many of the intracellular virions were contained in irregular cytoplasmic vacuoles, similar to those that accumulate in HSV-1-infected cells treated with the ionophore monensin. We conclude from these results that gro29 harbors a defect that blocks the egress of HSV-1 virions from the infected cell without seriously impeding the flux of individual glycoproteins to the cell surface. We infer that HSV-1 maturation and egress require a host cell component that is either reduced or absent in gro29 cells and that this lesion, although not lethal to the host cell, cannot be tolerated by HSV-1 during its life cycle.

Single amino acid substitutions in one Ca2+ binding site of uvomorulin abolish the adhesive function

We show that a synthetic peptide corresponding to the sequence of one putative Ca2+ binding motif of the cell adhesion molecule uvomorulin is able to complex Ca2+. This function is abolished if the first Asp in the peptide is replaced by Lys. Accordingly, we expressed in L cells mutant uvomorulin with a replacement of Asp to Lys or Ala. Mutant protein was resistant to Ca2+/trypsin under mild conditions but became susceptible at or near the site of replacement at higher concentrations, leaving the remaining Ca2+ binding domains protected. Remarkably, in cell aggregation assays both mutant uvomorulins failed to mediate cell adhesiveness, demonstrating that a single amino acid substitution in one Ca2+ binding site inactivates the adhesive function.

The N-terminal quarter of reovirus cell attachment protein sigma 1 possesses intrinsic virion-anchoring function

Previously the receptor recognition domain of the reovirus serotype 3 (T3) cell attachment protein (sigma 1) was mapped to the C-terminal half of the protein using deletion mutagenesis of the reovirus S1 gene. A similar approach has been adopted in the present study to map the domain on T3 sigma 1 that is responsible for incorporation into the virion (i.e., the anchoring domain). Restriction enzymes which divide the T3 S1 cDNA into four segments (5'-I-II-III-IV-3') of similar size were used to generate four mutants, each with a particular segment deleted. The mutants were cloned into SV40 expression vectors and used to transfect COS-1 cells which were subsequently with reovirus serotype 1. Progeny viral particles with truncated T3 sigma 1 proteins incorporated were then identified by radioimmunoprecipitation with a serotype-specific anti-T3 sigma 1 serum. It was found that the mutant lacking I (mutant dl) was totally incapable of being incorporated into the virion, whereas the mutant lacking domain II (mutant dII) was incorporated efficiently. Due to altered antigenicities of the mutants lacking domain III (mutant dIII) or domain IV (mutant dIV), incorporation of these two proteins into virions was less detectable using the above assay. Evidence that domain I (the N-terminal 121 amino acids) alone dictates the incorporation of sigma 1 into the virion came from the subsequent demonstration that a chimeric protein containing domain I fused to chloramphenicol acetyltransferase (CAT) was incorporated into the virion (detectable with an anti-CAT serum) as efficiently as the full-length sigma 1 protein.

Transfer of a yeast artificial chromosome carrying human DNA from Saccharomyces cerevisiae into mammalian cells

To test the feasibility of transferring yeast artificial chromosomes (YACs) into mammalian cells, we modified a YAC that carries approximately 450 kilobases (kb) of human DNA, by inserting a neomycin-resistance gene. Saccharomyces cerevisiae cells carrying this YAC were fused by polyethylene glycol to mouse L cells and G418-resistant colonies were obtained. A high percentage of these clones contained virtually intact YAC sequences as revealed by "Alu fingerprint" analysis and restriction enzyme analysis using pulsed-field gel electrophoresis. Furthermore, the YAC sequences were stably integrated into the mouse chromosomes, as shown by in situ hybridization and by the stability of the G418 resistance. These results establish that large segments of the mammalian genome, cloned in yeast, can be efficiently transferred into cultured mammalian cells.

Conformational variability of a picornavirus capsid: pH-dependent structural changes of Mengo virus related to its host receptor attachment site and disassembly

The structure of Mengo virus had been determined from crystals grown in the presence of 100 mM phosphate buffer at pH 7.4. It is shown that Mengo virus is poorly infectious at the phosphate concentration similar to that in which it was crystallized. Maximal infectivity is achieved at 10 mM phosphate or less in physiological saline. The phosphate effect is ameliorated when the pH is lowered to 4.6. Although it has not been possible to study the crystal structure of the virus at low phosphate concentrations, it is shown that increasing the Cl- concentration at pH 6.2 or decreasing the pH to 4.6 causes substantial conformational changes confined to the "pit," a deep surface depression. These structural changes involve a movement of the "FMDV loop" (GH loop) in VP1, an ordering of the "VP3 loop" (GH loop in VP3) between 3176 and 3182, the displacement of a bound phosphate near the "FMDV loop" (GH loop in VP1), and movement of the carboxy terminus of VP2. The changes in conformation are correlated with the dissociation of the virion into pentamers at pH 6.2 and 150 mM Cl-. The localization of the conformational changes and the correlated role of the phosphate in controlling infectivity support the hypothesis that the "pit" is the receptor attachment site.

Mouse fibroblast mutants selected for survival against mouse hepatitis virus infection show increased resistance to infection and virus-induced cell fusion

We describe here a genetic approach to the analysis of host cell functions involved in determining permissiveness to mouse hepatitis virus (MHV). Using the chemical mutagen, ethyl methane sulfonate (EMS), mouse fibroblast cell mutants were generated which were selected for resistance to cell-killing by MHV. These mutants were then screened for their susceptibility to MHV infection, ability to replicate MHV and relative sensitivity to MHV-induced cell fusion. In contrast to wild type L-2 cells which were acutely and terminally infected by MHV, all five mutants examined replicated MHV in a persistent manner. These mutants showed a reduced susceptibility to MHV infection and an increased resistance to MHV-induced cell fusion. Fusion resistance was specific to that mediated by the MHV E2 protein; mutant as well as wild type L-2 cells were equally sensitive to fusion by polyethylene glycol. The combined effect of reduced infectability and increased fusion resistance was to limit MHV infection to only a small percentage of the total cells in culture, thereby permitting survival of both virus and cells. The observed high rate of generation of the cell mutants suggests that the conversion of a fully MHV-susceptible cell to a semi-resistant one (capable of supporting a persistent infection) is a fairly common event, possibly involving a single mutation.

[The release of transforming growth factors by cells resistant to ethidium bromide and growing on a serum-free medium]

350sf and 625sf cells growing in serum free medium secrete transforming growth factors (TGFs) that induce NIH 3T3 indicator cells to form colonies in soft agar. The addition of 2 ng/ml of EGF increases twice the number of colonies of NIH 3T3 indicator cells. The TGFs secreted by 350sf and 625 sf cells do not compete with 125I EGF for binding to EGF receptors on human A-431 cells. The number of EGF receptors on 350 sf and 625 sf and 625 sf cells continuously grown in serum-free medium do not differ from that of EGF receptors on parental Lebr-350 and Lebr-625 cells continuously grown in the presence of 10% serum. These results suggest that TGFs produced by 350 sf and 625 sf cells are not alpha TGF. It is possible that cells secrete beta TGFs of yet unknown type.

Negative trans-acting factors extinguish Ia expression in B cell-L 929 somatic cell hybrids

Numerous studies have implicated trans-acting factors in the regulation of MHC class II gene expression. Some of these factors have been shown to act by inducing the expression of class II genes while others have been demonstrated to downregulate such expression. These reports have dealt almost exclusively with the role of trans-acting factors in the regulation of class II gene expression in hematopoietic-derived cells. We decided to extend these studies to the role trans-acting factors play in nonhematopoietic-derived (NHD) cells. In order to address this question we made somatic cell hybrids between the NHD Ltk- cell line and normal B cells to determine if the existence of positive trans-acting factors from the B cell would lead to the expression of Ltk- class II genes in the resultant hybrid. Our results clearly indicate that not only was there no induction of Ltk- class II gene expression in the hybrids, but there was a loss of B cell class II gene expression as well. These results suggest that Ltk- cells possess negative trans-acting factors that appear to predominate over the positive trans-acting factors possessed by B cells. We have further extended these studies to test the MHC-inducing activity of IFN-gamma and IL-4 on these hybrids. Our results indicate that the hybrids responded to IFN-gamma with an increase in class I but not class II expression for both fusion partners. Furthermore, neither B cell nor L cell class II genes were induced by IL-4. Taken together, these results indicate that Ltk- cells possess negative trans-acting factors that not only maintain the Ia- phenotype of these cells, but also block the action of positive trans-acting factors from B cells.

Site-directed mutagenesis of beta-adrenergic receptors. Identification of conserved cysteine residues that independently affect ligand binding and receptor activation

Using site-directed mutagenesis of the human beta 2-adrenergic receptor and continuous expression in B-82 cells, the role of 3 conserved cysteines in transmembrane domains and 2 conserved cysteines in the third extracellular domain in receptor function was examined. Cysteine was replaced with serine in each mutant receptor as this amino acid is similar to cysteine in size but it cannot form disulfide linkages. Replacement of cysteine residues 77 and 327, in the second and seventh transmembrane-spanning domains, respectively, had no effect on ligand binding or the ability of the receptor to mediate isoproterenol stimulation of adenylate cyclase. Substitution of cysteine 285, in the sixth transmembrane domain of the receptor, produced a mutant receptor with normal ligand-binding properties but a significantly attenuated ability to mediate stimulation of adenylate cyclase. Mutation of cysteine residues 190 and 191, in the third extracellular loop of the beta 2 receptor, had qualitatively similar effects on ligand binding and isoproterenol-mediated stimulation of adenylate cyclase. Replacement of either of these residues with serine produced mutant receptors that displayed a marked loss in affinity for both beta-adrenergic agonists and antagonists. Replacement of both cysteine 190 and 191 with serine had an even greater effect on the ability of the receptor to bind ligands. Consistent with the loss of Ser190 and/or Ser191 mutant receptor affinity for agonists was a corresponding shift to the right in the dose-response curve for isoproterenol-induced increases in intracellular cyclic AMP concentrations in cells expressing the mutant receptors. These data implicate one of the conserved transmembrane cysteine residues in the human beta 2-adrenergic receptor in receptor activation by agonists and also suggest that conserved cysteine residues in an extracellular domain of the receptor may be involved in ligand binding.

On the fidelity of mRNA translation in the nuclease-treated rabbit reticulocyte lysate system

As a test of the fidelity of the rabbit reticulocyte lysate system, we have examined the products of translation of various different influenza virus mRNAs, produced by in vitro transcription. A common finding with all mRNA species was that the ratio of full-length translation product to incomplete products decreased with increasing mRNA concentration. These short products are a mixture of (i) polypeptides initiated at the authentic initiation site but terminated prematurely, and (ii) polypeptides initiated at internal sites and terminated at the correct site. Analysis of mRNA stability during the translation assay showed very little degradation, quite insufficient to be the principle cause of incomplete product synthesis. Investigation of the influence of various parameters on the ratio of full-length to incomplete products leads to the conclusion that a high fidelity of translation can be obtained provided certain precautions are followed: the use of capped, rather than uncapped, mRNAs at low concentrations, with KCl concentrations about 20 mM above the level that gives maximum incorporation.

Activation of single-channel currents in mouse fibroblasts by platelet-derived growth factor

A nonselective cation channel that we characterized in the mouse L-cell membrane becomes quiescent with serum deprivation (arrested cell growth) and rapidly active upon readdition of serum or, specifically, platelet-derived growth factor (PDGF). Using the patch-clamp technique, we find that the predominant channel in the LMTK- cell line is a bursting nonselective cation channel (the NS channel). In cell-attached and inside-out patches, the channel has a conductance of 28 pS; equal selectivity for Na+, K+, and Cs+; and no anion or divalent cation permeability. The channel open probability is voltage insensitive and in inside-out patches does not correlate with intracellular calcium (0.5 nM to 50 microM). When cultures are rendered quiescent by incubation in serum-free medium, channel open probability is virtually 0 as compared to 0.26 (+/- 0.17) in exponentially growing cultures. If mitogenesis is initiated by readdition of serum to quiescent cells while maintaining cell-attached recording, there is a rapid (15-30 s) activation of the channel (n = 12). The open probability of the patch increases (greater than 0.75) for 2-3 min and then decreases. We have attempted applications of several growth factors (fibroblast-derived growth factor, epidermal growth factor, insulin, bombesin, alpha-thrombin, and vasopressin, individually or in combination) but find that only PDGF (5-100 ng/ml; n = 9) produces channel activation. This activation should provide a Na+ entry pathway parallel to that of the Na/H exchanger.

Sequence organization and cytological localization of the minor satellite of mouse

A complete 120 bp genomic consensus sequence for the mouse minor satellite has been determined from enriched L929 centromeric sequences. The extensive sequence homology existing between the major and minor satellite suggests an evolutionary relationship. Some sequences flanking the minor satellite has also been identified and they provide insight into centromeric DNA organization. Isotopic in situ hybridization analysis of the minor satellite to mouse L929 and Mus musculus metaphase spreads showed that this repetitive DNA class is localized specifically to centromeres of all chromosomes of the karyotype. With the use of high resolution non-isotopic fluorescence in situ hybridization the minor satellite is further localized to the outer surface of the centromere in a discrete region at or immediately adjacent to the kinetochore. Our cytological data suggests that the minor satellite might play a role in the organization of the kinetochore region rather than, as previously suggested, sites for general anchoring of the genome to the nuclear matrix.

Guidance of optic nerve fibres by N-cadherin adhesion molecules

The dendritic branches (neurites) of developing neurons migrate along specific pathways to reach their targets. It has been suggested that this migration is guided by factors present on the surface of other neurons or glial cells. The molecular nature of such factors, however, remains to be elucidated. N-cadherin is a cell-surface glycoprotein which belongs to the cadherin family of cell-cell adhesion molecules. This adhesion molecule is expressed in various neuronal cells as well as in glial cells of the central and peripheral nervous systems in vertebrate embryos and recent immunological studies suggested that N-cadherin may play a role in guiding the migration of neurites on myotubes or astrocytes. To further examine this possibility, we used a molecular-genetic approach; that is, we examined the outgrowth of chicken embryonic optic axons on monolayer cultures of Neuro 2a or L cells transfected with the complementary DNA encoding chicken N-cadherin. The data indicate that N-cadherin is used as a guide molecule for the migration of optic axons on cell surfaces.

A growth-promoting ribosome extract (GPRE) from mouse L-929 cells stimulates growth of the HL-60 human promyelocytic leukemia cell line

An extract termed growth-promoting ribosome extract (GPRE), isolated from mouse L-929 cells stimulates growth of HL-60 human promyelocytic leukemia cells. The stimulation first becomes apparent at 72 h when the cells start to enter the quiescent state. The inhibition of protein synthesis by the addition of cycloheximide to L-929 cells before ribosomal extracts were prepared did not alter the stimulatory effect of GPRE. When GPRE was added together with 20% fetal calf serum to cultures of quiescent HL-60 cells, growth was stimulated to the extent that the generation time was reduced by approximately 9 h to 32.4 h. GPRE alone was unable to stimulate the quiescent cells. The growth stimulatory effect was not restricted to one cell generation but was a characteristic of at least the following two cell cycles. GPRE extract from L-cells synchronized by centrifugal elutriation was most efficient when isolated from cells in early G1 phase, while extract from S phase cells had virtually no effect. It is tentatively suggested that the factor belongs to the competence/progression group of growth factors.

Selection and characterization of interferon response mutants from mouse L929 fibroblast cells

Interferon (IFN) response mutants were selected from mouse L929 fibroblast cells and their specific resistance to is-1, an IFN-sensitive mutant of mengovirus, was studied. The standard L cell subline used in our laboratory (G3), is resistant to is-1 infection after pretreatment with low levels of IFN. Two clonal sublines that support the growth of is-1 in the presence of IFN (AS-4 and TA-6) were isolated from it, and two revertant lines (AS-4R1 and TA-6R1) were subsequently selected from AS-4 and TA-6. The kinetics of is-1 growth in the presence of IFN were found to vary in each of these sublines. Specific resistance to is-1 cannot be accounted for by enhanced induction of IFN, ability to bind IFN, or increased 2'-5'-oligo(A)-dependent endonuclease activity. AS-4 and TA-6 appear to have arisen through loss of one or more whole chromosomes. The origin of TA-6R1 is unclear.

Detection of molecules with nerve growth factor binding activity in medium conditioned by L-929 fibroblasts

L-929 fibroblasts (L cells) secrete a high molecular weight form of nerve growth factor (NGF) that is non-covalently bound and contains as part of its structure a molecule similar, if not identical, to beta-NGF in mouse submandibular glands. The other components of the NGF complex have not been characterized. In this study we used radiolabeled beta-NGF as a probe to detect molecules with NGF binding activity in L cell conditioned medium. The L cell NGF complex was dissociated at low pH, or with denaturants or detergents, and allowed to reassociate in the presence of 125I-beta-NGF. Radioactivity became associated with a complex that eluted in a high molecular weight volume on columns of Sephadex G-200 and Sephacryl S-500. Incorporation was saturable and did not occur under non-dissociating conditions. The complex was affinity cross-linked and studied by SDS gel electrophoresis. Radiolabeled molecules were observed with molecular weights of 151,000, 56,000 and 53,000. Labeling did not occur in the presence of excess unlabeled NGF or when cross-linking was done with fetal bovine serum, indicating that binding is specific and that binding activity is not derived from serum added to tissue culture medium. Solutions containing 7S NGF from mouse salivary glands were cross-linked by similar procedures but different banding patterns were observed. The data show that NGF binding molecules dissimilar from those in salivary glands are present in L cell conditioned medium.