X protein of hepatitis B virus modulates cytokine and growth factor related signal transduction pathways during the course of viral infections and hepatocarcinogenesis

Hepatitis B virus produces chronic infections of the liver leading to cirrhosis and hepatocellular carcinoma. The X protein of hepatitis B virus (HBx) is a multifunctional protein that can interact with p53 but can also influence a variety of signal transduction pathways within the cell. In most instances this small viral protein favors cell survival and probably initiates hepatocarcinogenesis. HBx upregulates the activity of a number of transcription factors including NF-kappa B, AP-1, CREB, and TBP. However, the majority of HBx is localized to the cytoplasm where it interacts with and stimulates protein kinases such as protein kinase C, Janus kinase/STAT, IKK, PI-3-K, stress-activated protein kinase/Jun N-terminal kinase, and protein kinase B/Akt. This small viral protein can localize to the mitochondrion. HBx may act as an adaptor or kinase activator to influence signal transduction pathways. This review will attempt to analyze the involvement of HBx in signal transduction pathways during hepatitis B viral infections and hepatocellular carcinoma development.

X protein of hepatitis B virus inhibits Fas-mediated apoptosis and is associated with up-regulation of the SAPK/JNK pathway

The X protein from a chronic strain of hepatitis B virus (HBx) was determined to inhibit Fas-mediated apoptosis and promote cell survival. Fas-mediated apoptosis is the major cause of hepatocyte damage during liver disease. Experiments demonstrated that cell death caused by anti-Fas antibodies was blocked by the expression of HBx in human primary hepatocytes and mouse embryo fibroblasts. This effect was also observed in mouse erythroleukemia cells that lacked p53, indicating that protection against Fas-mediated apoptosis was independent of p53. Components of the signal transduction pathways involved in this protection were studied. The SAPK/JNK pathway has previously been suggested to be a survival pathway for some cells undergoing Fas-mediated apoptosis, and kinase assays showed that SAPK activity was highly up-regulated in cells expressing the HBx protein. Normal mouse fibroblasts expressing HBx were protected from death, whereas identical fibroblasts lacking the SEK1 component from the SAPK pathway succumbed to Fas-mediated apoptosis, whether HBx was present or not. Assays showed that caspase 3 and 8 activities and the release of cytochrome c from mitochondria were inhibited, in the presence of HBx, following stimulation with anti-Fas antibodies. Coprecipitation and confocal immunofluorescence microscopy experiments demonstrated that HBx localizes with a cytoplasmic complex containing MEKK1, SEK1, SAPK, and 14-3-3 proteins. Finally, mutational analysis of HBx demonstrated that a potential binding region for 14-3-3 proteins was essential for induction of SAPK/JNK activity and protection from Fas-mediated apoptosis.

CD45 is a JAK phosphatase and negatively regulates cytokine receptor signalling

The regulation of tyrosine phosphorylation and associated signalling through antigen, growth-factor and cytokine receptors is mediated by the reciprocal activities of protein tyrosine kinases and protein tyrosine phosphatases (PTPases). The transmembrane PTPase CD45 is a key regulator of antigen receptor signalling in T and B cells. Src-family kinases have been identified as primary molecular targets for CD45 (ref. 4). However, CD45 is highly expressed in all haematopoietic lineages at all stages of development, indicating that CD45 could regulate other cell types and might act on additional substrates. Here we show that CD45 suppresses JAK (Janus kinase) kinases and negatively regulates cytokine receptor signalling. Targeted disruption of the cd45 gene leads to enhanced cytokine and interferon-receptor-mediated activation of JAKs and STAT (signal transducer and activators of transcription) proteins. In vitro, CD45 directly dephosphorylates and binds to JAKs. Functionally, CD45 negatively regulates interleukin-3-mediated cellular proliferation, erythropoietin-dependent haematopoieisis and antiviral responses in vitro and in vivo. Our data identify an unexpected and novel function for CD45 as a haematopoietic JAK phosphatase that negatively regulates cytokine receptor signalling.

CDw150(SLAM) is a receptor for a lymphotropic strain of measles virus and may account for the immunosuppressive properties of this virus

Natural isolates of measles virus readily infect several lymphocyte cell lines. These viruses appear to use a receptor other than CD46, the molecule to which most laboratory strains of virus bind. Methods used to identify and characterize this lymphocyte receptor for measles virus are described in this study. A binding assay with a soluble form of measles virus H protein demonstrated that B-cell lines, activated with Epstein-Barr virus, or T cells, transformed with human T-cell leukemia virus, exhibit this receptor on their cell surfaces. On the other hand, resting lymphocytes, monocytes, or immature leukocytes either failed to express or possessed reduced levels of this receptor. A cDNA library derived from B95-8 marmoset B-cell lines was used to identify this receptor through expression cloning. This molecule was shown to be CDw150, which is also known as the signaling lymphocytic activation molecule (SLAM). When the lymphocyte receptor was expressed in Chinese hamster ovary (CHOP) or human embryonic kidney (293T) cells, these cells became susceptible to lymphotropic as well as laboratory strains of measles virus. Binding assays confirmed that either lymphotropic or laboratory strains of measles virus could adhere to human or marmoset CDw150, but interaction with the mouse homolog was weak. These infections were independent of the presence of CD46 on the host cell surface. Interaction of measles virus with CDw150(SLAM) could explain the immunosuppressive properties of this virus.

Universal GFP reporter for the study of vascular development

We report the generation and characterization of transgenic mouse and zebrafish expressing green fluorescent protein (GFP) specifically in vascular endothelial cells in a relatively uniform fashion. These reporter lines exhibit fluorescent vessels in developing embryos and throughout adulthood, allowing visualization of the general vascular patterns with single cell resolution. Furthermore, we show the ability to purify endothelial cells from whole embryos and adult organs by a single step fluorescence activated cell sorting. We expect that these transgenic reporters will be useful tools for imaging vascular morphogenesis, global gene expression profile analysis of endothelial cells, and high throughput screening for vascular mutations.

The late expression factors 8 and 9 and possibly the phosphoprotein p78/83 of Autographa californica multicapsid nucleopolyhedrovirus are components of the virus-induced RNA polymerase

Attempts were made to identify some of the subunits of the baculovirus-induced RNA polymerase following purification of its enzymatic activity by conventional chromatography. Polymerase activity was extracted from lysates of insect cells infected with Autographa californica multicapsid nucleopolyhedrovirus by polyethylenimine precipitation and subsequently purified by phosphocellulose, anion exchange, poly(A) Sepharose affinity, and gel filtration chromatography. The presence of the polymerase was monitored by its alpha-amanitin-resistant activity in in vitro transcription assays. A number of polypeptides associated with the enzymatic activity were identified. Peptide-specific antibodies were generated against a variety of late-expression factors (LEFs) and these antibodies, along with antisera directed against several other baculovirus proteins, were used in an immunoblot analysis of the purified polymerase. The results revealed that both the viral helicase (p143) and the virogenic stroma protein, pp31, copurify with the baculovirus-induced RNA polymerase activity through several chromatographic steps and may be loosely associated with the RNA polymerase. LEF8, LEF9 and p78/83, a nucleocapsid-associated phosphoprotein, were found to associate with the viral-induced polymerase activity. LEF8 and LEF9 contain regions of sequence homology with components of other DNA-directed RNA polymerases, while a portion of p78/83 exhibits some homology to the sigma factor of bacterial RNA polymerase, the RAP30 protein found in the mammalian transcription complex TFIIF, and the RAP94 polypeptide associated with vaccinia virus RNA polymerase. The p78/83 protein has previously been shown by our laboratory to be a capsid protein, but it may also play some role with the RNA polymerase. These results represent a first attempt to identify specific components of the RNA polymerase associated with infections of insect cells by A. californica nucleopolyhedrovirus.

The coxsackie-adenovirus receptor (CAR) is used by reference strains and clinical isolates representing all six serotypes of coxsackievirus group B and by swine vesicular disease virus

Group B coxsackieviruses are etiologically linked to many human diseases, and cell surface receptors are postulated to play an important role in mediating their pathogenesis. The coxsackievirus adenovirus receptor (CAR) has been shown to function as a receptor for selected strains of coxsackievirus group B (CVB) serotypes 3, 4, and 5 and is postulated to serve as a receptor for all six serotypes. In this study, we demonstrate that CAR can serve as a receptor for laboratory reference strains and clinical isolates of all six CVB serotypes. Infection of CHO cells expressing human CAR results in a 1000-fold increase in CVB progeny virus titer compared to mock transfected cells. CAR was shown to be a functional receptor for swine vesicular disease virus (SVDV), as CHO-CAR cells but not CHO mock transfected controls were susceptible to SVDV infection, produced progeny SVDV, and developed cytopathic effects. Moreover, SVDV infection could be specifically blocked by monoclonal antibody to CAR (RmcB). SVDV infection of HeLa cells was also inhibited by an anti-CD55 MAb, suggesting that this virus, like some CVB, may interact with CD55 (decay accelerating factor) in addition to CAR. Finally, pretreatment of CVB or SVDV with soluble CAR effectively blocks virus infection of HeLa cell monolayers.

Alpha2-adrenergic receptors in human dorsal root ganglia: predominance of alpha2b and alpha2c subtype mRNAs

BACKGROUND

Nonselective alpha2-adrenergic receptor (alpha2AR) agonists (e.g., clonidine) mediate antinociception in part through alpha2ARs in spinal cord dorsal horn; however, use of these agents for analgesia in humans is limited by unwanted sedation and hypotension. The authors previously demonstrated alpha2a approximately alpha2b > > > alpha2c mRNA in human spinal cord dorsal horn cell bodies. However, because 20% of dorsal horn alpha2ARs derive from cell bodies that reside in the associated dorsal root ganglion (DRG), it is important to evaluate alpha2AR expression in this tissue as well. Therefore, the authors evaluated the hypothesis that alpha2b mRNA, alpha2c mRNA, or both are present in human DRG.

METHODS

Molecular approaches were used to determine alpha2AR expression in 28 human DRGs because of low overall receptor mRNA expression and small sample size. After creation of synthetic competitor cDNA and establishment of amplification conditions with parallel efficiencies, competitive reverse transcription polymerase chain reaction was performed using RNA isolated from human DRG.

RESULTS

Overall expression of alpha2AR mRNA in DRG is low but reproducible at all spinal levels. alpha2b and alpha2cAR subtype mRNAs predominate (alpha2b approximately alpha2c), accounting for more than 95% of the total alpha2AR mRNA in DRG at all human spinal nerve root levels.

CONCLUSIONS

Predominance of alpha2b and alpha2cAR mRNA in human DRG is distinct from alpha2AR mRNA expression in cell bodies originating in human spinal cord dorsal horn, where alpha2a and alpha2b predominate with little or absent alpha2c expression. These findings also highlight species heterogeneity in alpha2AR expression in DRG. If confirmed at a protein level, these findings provide an additional step in unraveling mechanisms involved in complex neural pathways such as those for pain.

Subtype specific regulation of human vascular alpha(1)-adrenergic receptors by vessel bed and age

BACKGROUND

alpha(1)-adrenergic receptors (alpha(1)ARs) regulate blood pressure, regional vascular resistance, and venous capacitance; the exact subtype (alpha(1a), alpha(1b), alpha(1 d)) mediating these effects is unknown and varies with species studied. In order to understand mechanisms underlying cardiovascular responses to acute stress and chronic catecholamine exposure (as seen with aging), we tested two hypotheses: (1) human alpha(1)AR subtype expression differs with vascular bed, and (2) age influences human vascular alpha(1)AR subtype expression.

METHODS AND RESULTS

Five hundred vessels from 384 patients were examined for alpha(1)AR subtype distribution at mRNA and protein levels (RNase protection assays, ligand binding, contraction assays). Overall vessel alpha(1)AR density is 16+/-2.3fmol/mg total protein. alpha(1a)AR predominates in arteries at mRNA (P<0.001) and protein (P<0.05) levels; all 3 subtypes are present in veins. Furthermore, alpha(1)AR mRNA subtype expression varies with vessel bed (alpha(1a) higher in splanchnic versus central arteries, P<0.05); competition analysis (selected vessels) and functional assays demonstrate alpha(1a) and alpha(1b)-mediated mammary artery contraction. Overall alpha(1)AR expression doubles with age (<55 versus > or = 65 years) in mammary artery (no change in saphenous vein), accompanied by increased alpha(1b)>alpha(1a) expression (P< = 0.001).

CONCLUSIONS

Human vascular alpha(1)AR subtype distribution differs from animal models, varies with vessel bed, correlates with contraction in mammary artery, and is modulated by aging. These findings provide potential novel targets for therapeutic intervention in many clinical settings.

Use of site-specific mutagenesis and monoclonal antibodies to map regions of CD46 that interact with measles virus H protein

Researchers at our laboratory have been dissecting the binding domains of the receptor for the Edmonston laboratory strain of measles virus (CD46) through site-specific mutagenesis. We initially substituted most of the hydrophilic amino acids in the two external short consensus regions (SCRI and SCRII) of CD46 with the amino acid alanine [Hsu et al. (1997) J. Virol. 71:6144-6154] and found that the glutamic-arginine residues at positions 58 and 59 were particularly sensitive to change. Here we consider the roles of hydrophobic amino acids in the binding between measles virus H protein and CD46. Hydrophobic amino acids in the SCRI and SCRII domains of CD46 were systematically replaced with serine. The effects of these changes were monitored through the interaction of Sf9 insect cells expressing the H protein and mouse OST-7 cells synthesizing the mutant CD46 molecules. Binding was quantified through a colorimetric assay for beta-galactosidase that was also produced by the insect cells. Our results indicate that E45, Y54, 58E/R59, Y68, F69, Y101, I102, R103, D104, and Y117 seem to be critical residues for the binding of CD46 to measles virus H protein. The hydrophilic amino acid R59 in SCR1 and hydrophobic residues Y101, I102, and Y117 in SCR2 seem to be especially important for interaction between H protein and CD46. In addition, we mapped the antigenic epitopes of five monoclonal antibodies that are known to inhibit the binding between H protein and CD46. Three of these antibodies recognized regions in SCR1, and two reacted with amino acids in SCR2. For the most part, the determinants recognized by the monoclonal antibody corresponded to the amino acids that were most sensitive to change in the binding process. The SCR1 and SCR2 domains of CD46 were modeled from an analogous region in another complement regulatory protein, factor H, whose three-dimensional structure has been previously reported. Amino acids implicated in binding seem to lie on one planar face of the SCR1 and SCR2 domains. These studies serve as a prelude to understanding the structural interactions that occur between CD46 and the measles virus H protein.

The V protein of the paramyxovirus SV5 interacts with damage-specific DNA binding protein

The simian parainfluenza virus 5 (SV5) V/P gene encodes two proteins: V and the phosphoprotein P. The V and P proteins are amino coterminal for 164 residues, but they have unique carboxyl termini. The unique carboxyl terminus of V contains seven cysteine residues, resembles a zinc finger, and binds two atoms of zinc. In a glutathione-S-transferase (GST)-fusion protein selection of cell lysate assay, the GST-V protein was found to interact with the 127-kDa subunit (DDB1) of the damage-specific DNA binding protein (DDB) [also known as UV-damaged DNA binding protein (UV-DDB), xeroderma pigmentosum group E binding factor (XPE-BF), and the hepatitis B virus X-associated protein 1 (XAP-1)]. A reciprocal GST-DDB1 fusion protein selection assay of SV5-infected cell lysates showed that DDB1 and V interact, and it was found that V and DDB1 could be coimmunoprecipitated from SV5-infected cells or from cells expressing V and DDB1 using the vaccinia virus T7 expression system. The interaction of V and DDB1 involves the carboxyl-terminal domain of V in that either deletion of the V carboxyl-terminal domain or substitution of the cysteine residues (C189, C193, C205, C207, C210, C214, and C217) in the zinc-binding domain with alanine was able to disrupt binding to DDB1. The V proteins of the mumps virus, human parainfluenza virus 2 (hPIV2), and measles virus have also been found to interact with DDB1 in GST-fusion protein selection assays using in vitro transcribed and translated DDB1.

Alpha1-adrenergic receptor subtypes in human detrusor

PURPOSE

To identify and quantitate alpha1-adrenergic receptor (alpha1AR) subtype expression in human detrusor.

MATERIALS AND METHODS

Initial studies to determine alpha1AR expression in human detrusor were performed using saturation binding with [125I]HEAT. Once the presence of alpha1ARs was documented, subtype (alpha1a, alpha1b, alpha1d) expression at the mRNA level (and comparison with rat) was determined with RNase protection assays (human detrusor) and RT-PCR (human detrusor, rat whole bladder). Competition binding analysis with the alpha1dAR-selective ligand BMY7378 was used to measure alpha1AR subtype expression at a protein level in human detrusor.

RESULTS

Alpha1AR expression in human detrusor was low but reproducible (6.3 +/- 1.0 fmol./mg. total protein). RNase protection assays performed on total RNA extracted from human detrusor revealed the following alpha1AR subtype expression: alpha1d (66%) > alpha1a (34%), and no alpha1b. RT-PCR confirmed alpha1AR subtype mRNA distribution in human detrusor with alpha1d (approximately 60-70%) > alpha1a (approximately 30-40%), and a lack of alpha1b mRNA. Rat whole bladder expressed different alpha1AR subtype mRNA than human detrusor, with alpha1a approximately alpha1b approximately alpha1d. The presence of alpha1d > alpha1a expression in human detrusor was confirmed at a protein level by competition analysis utilizing BMY7378 which revealed a two-site fit, with Ki and high affinity binding (66%) consistent with the alpha1dAR subtype.

CONCLUSIONS

Human detrusor contained two alpha1AR subtypes (alpha1d > alpha1a), a finding that is different from rat, another commonly used animal model. Since non-subtype selective alpha1AR antagonists ameliorate irritative bladder symptoms (in men and women with/without outlet obstruction), and Rec 15/2739 (alpha1a selective antagonist) does not improve symptom scores in BPH, our findings suggest bladder alpha1dARs may provide a potentially novel mechanism underlying these therapeutic benefits.

Alpha1-adrenergic receptor subtypes in human detrusor

PURPOSE

To identify and quantitate alpha1-adrenergic receptor (alpha1AR) subtype expression in human detrusor.

MATERIALS AND METHODS

Initial studies to determine alpha1AR expression in human detrusor were performed using saturation binding with [125I]HEAT. Once the presence of alpha1ARs was documented, subtype (alpha1a, alpha1b, alpha1d) expression at the mRNA level (and comparison with rat) was determined with RNase protection assays (human detrusor) and RT-PCR (human detrusor, rat whole bladder). Competition binding analysis with the alpha1dAR-selective ligand BMY7378 was used to measure alpha1AR subtype expression at a protein level in human detrusor.

RESULTS

Alpha1AR expression in human detrusor was low but reproducible (6.3 +/- 1.0 fmol./mg. total protein). RNase protection assays performed on total RNA extracted from human detrusor revealed the following alpha1AR subtype expression: alpha1d (66%) > alpha1a (34%), and no alpha1b. RT-PCR confirmed alpha1AR subtype mRNA distribution in human detrusor with alpha1d (approximately 60-70%) > alpha1a (approximately 30-40%), and a lack of alpha1b mRNA. Rat whole bladder expressed different alpha1AR subtype mRNA than human detrusor, with alpha1a approximately alpha1b approximately alpha1d. The presence of alpha1d > alpha1a expression in human detrusor was confirmed at a protein level by competition analysis utilizing BMY7378 which revealed a two-site fit, with Ki and high affinity binding (66%) consistent with the alpha1dAR subtype.

CONCLUSIONS

Human detrusor contained two alpha1AR subtypes (alpha1d > alpha1a), a finding that is different from rat, another commonly used animal model. Since non-subtype selective alpha1AR antagonists ameliorate irritative bladder symptoms (in men and women with/without outlet obstruction), and Rec 15/2739 (alpha1a selective antagonist) does not improve symptom scores in BPH, our findings suggest bladder alpha1dARs may provide a potentially novel mechanism underlying these therapeutic benefits.

Cardiovirulent coxsackieviruses and the decay-accelerating factor (CD55) receptor

Group B coxsackieviruses are etiologically linked with many human diseases including acute myocarditis and associated chronic dilated cardiomyopathy. Well-established CVB3 cardiovirulent strains (CVB3c(s)) with known phenotypic difference have been used to study the pathogenesis of virus-induced heart disease. The receptor-binding characteristics of cardiovirulent CVB3 are not known, but may represent one mechanism accounting for differences in disease virulence. In this study, interactions between CVB3c(s) and the decay-accelerating factor (DAF or CD55) cell surface receptor were examined. Anti-DAF monoclonal antibodies (MAbs) blocked virus binding and infection of susceptible HeLa cells. Virus binding was significantly reduced by treatment of these cells with phosphatidylinositol phospholipase C enzyme, which rendered them DAF-deficient CVB3c(s) exhibited a differential propensity for the DAF receptor, as several cardiovirulent strains interacted more strongly than others. However, virus binding and infection was always most effectively blocked by MAbs directed against the SCR 2 and 3 domains of DAF, suggesting that binding occurs at a similar site(s) on the molecule for all strains. Virus binding and internalization were associated with DAF down-regulation at the cell surface, as monitored by flow cytometry analysis. Cardiovirulent CVB3 did not interact with molecules functionally and/or structurally related to DAF, including CD35, CD46, Factor H, or C4-binding protein. Adenovirus type 2 (Ad2) does not use the DAF receptor. However, competitive binding assays between Ad2 and CVB1-6, CVB3c(s), anti-DAF MAbs, or DAF-reduced cells indicated that DAF is associated with Ad2 receptors on the HeLa cell membrane. In summary, this study indicates that DAF is an attachment receptor for cardiovirulent CVB3 and that DAF interaction may be important in the pathogenesis of CVB-mediated heart disease.

A single amino acid change in the hemagglutinin protein of measles virus determines its ability to bind CD46 and reveals another receptor on marmoset B cells

This paper provides evidence for a measles virus receptor other than CD46 on transformed marmoset and human B cells. We first showed that most tissues of marmosets are missing the SCR1 domain of CD46, which is essential for the binding of Edmonston measles virus, a laboratory strain that has been propagated in Vero monkey kidney cells. In spite of this deletion, the common marmoset was shown to be susceptible to infections by wild-type isolates of measles virus, although they did not support Edmonston measles virus production. As one would expect from these results, measles virus could not be propagated in owl monkey or marmoset kidney cell lines, but surprisingly, both a wild-type isolate (Montefiore 89) and the Edmonston laboratory strain of measles virus grew efficiently in B95-8 marmoset B cells. In addition, antibodies directed against CD46 had no effect on wild-type infections of marmoset B cells and only partially inhibited the replication of the Edmonston laboratory strain in the same cells. A direct binding assay with insect cells expressing the hemagglutinin (H) proteins of either the Edmonston or Montefiore 89 measles virus strains was used to probe the receptors on these B cells. Insect cells expressing Edmonston H but not the wild-type H bound to rodent cells with CD46 on their surface. On the other hand, both the Montefiore 89 H and Edmonston H proteins adhered to marmoset and human B cells. Most wild-type H proteins have asparagine residues at position 481 and can be converted to a CD46-binding phenotype by replacement of the residue with tyrosine. Similarly, the Edmonston H protein did not bind CD46 when its Tyr481 was converted to asparagine. However, this mutation did not affect the ability of Edmonston H to bind marmoset and human B cells. The preceding results provide evidence, through the use of a direct binding assay, that a second receptor for measles virus is present on primate B cells.

Multiple potential regulatory elements in the 5' flanking region of the human alpha 1a-adrenergic receptor

In spite of their critical importance in myocardial hypertrophy and benign prostatic hyperplasia, nothing is known about mechanisms underlying transcriptional regulation of alpha 1a-adrenergic receptors (alpha 1aARs). Therefore we cloned 6.2 kb of novel sequence upstream of the initiator ATG in the human alpha 1aAR gene. Sequence analysis reveals a TATA-less promoter, the presence of several initiator (Inr) consensus sequences, multiple GC rich regions consistent with Sp-1 binding, and consensus sequences for AP-1 and AP-2 as well as putative cis transcriptional regulatory elements for binding of CREB (cyclic-AMP response element binding protein), glucocorticoids, estrogen, and insulin. Compared to the alpha 1bAR, the alpha 1aAR has several more cis regulatory elements, suggesting more complex regulation. The importance of alpha 1aARs in human disease makes it imperative to determine mechanisms underlying transcription and ultimately expression of this receptor. These studies can now be undertaken with the availability of human alpha 1aAR 5'-flanking and 5'-untranslated sequence.

Insect virus proteins (FALPE and p10) self-associate to form filaments in infected cells

Entomopoxviruses and baculoviruses are pathogens of insects which replicate in the cytoplasm and nuclei of their host cells, respectively. During the late stages of infection, both groups of viruses produce occlusion bodies which serve to protect virions from the external environment. Immunofluorescence and electron microscopy studies have shown that large bundles of filaments are associated with these occlusion bodies. Entomopoxviruses produce cytoplasmic fibrils which appear to be composed of the filament-associated late protein of entomopoxviruses (FALPE). Baculoviruses, on the other hand, yield filaments in the nuclei and cytoplasm of the infected cell which are composed of a protein called p10. Despite significant differences in their sequences, FALPE and p10 have similar hydrophilicity profiles, and each has a proline-rich stretch of amino acids at its carboxyl terminus. Evidence that FALPE and p10 could produce filaments in the absence of other viral proteins is presented. When FALPE was expressed in insect cells from a recombinant baculovirus, filaments similar to those produced by the wild-type Amsacta moorei entomopoxvirus were observed. In addition, when expression plasmids containing FALPE or p10 genes were transfected into Vero monkey kidney cells, filament structures similar to those found in infected insect cells were produced. The manner in which FALPE and p10 subunits interact to form polymers was investigated through deletion and site-specific mutagenesis in conjunction with immunofluorescence microscopy, yeast two-hybrid protein interaction analysis, and chemical cross-linking of adjacent molecules. These studies indicated that the amino termini of FALPE and p10 were essential for subunit interaction. Although deletion of the carboxy termini did not affect this interaction, it did inhibit filament formation. In addition, modification of several potential sites for phosphorylation also abolished filament assembly. We concluded that although the sequences of FALPE and p10 were different, the structural and functional properties of the two polypeptides appeared to be similar.

Pharmacology of tamsulosin: saturation-binding isotherms and competition analysis using cloned alpha 1-adrenergic receptor subtypes

BACKGROUND

alpha 1-adrenergic receptors (alpha 1 ARs) are important in the dynamic component of benign prostatic hyperplasia (BPH). Currently, several alpha 1AR antagonists are being used in the treatment of BPH.

METHODS

In order to more fully characterize the pharmacology of the alpha 1AR antagonist tamsulosin, we utilized saturation-binding isotherms with [3H] tamsulosin to determine the Kd of this compound at all three cloned alpha 1AR subtypes stably expressed in rat-1 fibroblasts. To confirm these results, we performed competition binding experiments, displacing [125I]HEAT with increasing concentrations of alfuzosin, doxazosin, 5-methyl-urapidil, prazosin, tamsulosin, terazosin, and (+)YM617 (stereoisomer of tamsulosin) in the same clonal cell lines.

RESULTS

[3H]tamsulosin binds to cloned alpha 1AR subtypes with a rank order of affinity of alpha 1a = alpha 1d > alpha 1b. Competition experiments confirmed the relative nonselectivity of alfuzosin, doxazosin, and prazosin, but revealed slight alpha 1b = alpha 1d > alpha 1a selectivity for terazosin, and clear alpha 1a = alpha 1d > alpha 1b for (+)YM617 and tamsulosin([-]YM617); alpha 1a > alpha 1d > alpha 1b selectivity for 5-methyl-urapidil was confirmed.

CONCLUSIONS

We conclude that tamsulosin displays selectivity for alpha 1a and alpha 1d ARs. This selectivity may contribute to the tamsulosin efficacy reported in several recent clinical studies in patients with BPH.

Artificial mutations and natural variations in the CD46 molecules from human and monkey cells define regions important for measles virus binding

CD46 was previously shown to be a primate-specific receptor for the Edmonston strain of measles virus. This receptor consists of four short consensus regions (SCR1 to SCR4) which normally function in complement regulation. Measles virus has recently been shown to interact with SCR1 and SCR2. In this study, receptors on different types of monkey erythrocytes were employed as "natural mutant proteins" to further define the virus binding regions of CD46. Erythrocytes from African green monkeys and rhesus macaques hemagglutinate in the presence of measles virus, while baboon erythrocytes were the least efficient of the Old World monkey cells used in these assays. Subsequent studies demonstrated that the SCR2 domain of baboon CD46 contained an Arg-to-Gln mutation at amino acid position 103 which accounted for reduced hemagglutination activity. Surprisingly, none of the New World monkey erythrocytes hemagglutinated in the presence of virus. Sequencing of cDNAs derived from the lymphocytes of these New World monkeys and analysis of their erythrocytes with SCR1-specific polyclonal antibodies indicated that the SCR1 domain was deleted in these cells. Additional experiments, which used 35 different site-specific mutations inserted into CD46, were performed to complement the preceding studies. The effects of these artificial mutations were documented with a convenient binding assay using insect cells expressing the measles virus hemagglutinin. Mutations which mimicked the change found in baboon CD46 or another which deleted the SCR2 glycosylation site reduced binding substantially. Another mutation which altered GluArg to AlaAla at positions 58 and 59, totally abolished binding. Finally, the epitopes for two monoclonal antibodies which inhibit measles virus attachment were mapped to the same regions implicated by mutagenesis.

In situ hybridization: identification of rare mRNAs in human tissues

In situ hybridization is used for detection of RNA expression when conservation of tissue architecture is important. Most in situ hybridization protocols are written for tissues from animals (i.e., rat) which can be harvested and preserved rapidly. In contrast, human tissue is more difficult to obtain, hence in situ hybridization experiments must frequently be performed with less than optimal tissue preservation. This procedure details hybridization of a radiolabeled single-stranded RNA probe (riboprobe) to complementary sequences of cellular RNA in human tissue sections. This method enables detection of rare mRNA species in specific cell types of human tissue, offering distinct advantages over other in situ methods due to increased sensitivity. In particular, we have found that UV cross-linking and ribonuclease treatment protocols need to be altered for human tissues to ensure successful results, making this protocol unique to those previously described. In situ hybridization experiments can be performed using either DNA or RNA probes. RNA probes are advantageous since they form stable hybrids, are single-stranded, have little or no reannealing during hybridization, and can be synthesized to high specific activity. RNA probes can be readily created utilizing SP6, T3, or T7 promoters in both sense and antisense orientations to provide non-specific (control) and specific probes. Disadvantages of RNA riboprobes include a tendency for RNA to stick non-selectively more than DNA, and degradation by RNase (hence strict adherence to RNase-free precautions is mandatory during most of the protocol). The following protocol includes: (1) preparation of human tissues (tissue fixation and sectioning are highlighted as critical for probe penetration, preservation of tissue architecture, retention of tissue RNA, and overall success); (2) generation of radiolabeled riboprobes (total incorporation of radionucleotide is important to increase sensitivity; 35S was chosen as a compromise between excellent sensitivity, cellular resolution, and required exposure times (compared with 32P or 3H); non-isotopic methods have not been tested in a side-by-side comparison with 35S in human tissues by us, but theoretically might offer faster exposure times while maintaining high resolution); (3) hybridization conditions (stringency, temperature, washes, tissue dehydration); and (4) sample visualization (application of photographic emulsion, developing, fixing, staining, and counterstaining of individual slides).

Identification and characterization of a filament-associated protein encoded by Amsacta moorei entomopoxvirus

A novel protein which is expressed at high levels in insect cells infected with Amsacta moorei entomopoxvirus was identified by our laboratory. This viral gene product migrates as a 25/27-kDa doublet when subjected to electrophoresis on sodium dodecyl sulfate-polyacrylamide gels. It is expressed at late times of infection and is present in infected cells but is absent in purified extracellular virions and occlusion bodies. The gene encoding this polypeptide was mapped on the viral genome, and cDNA clones were generated and sequenced. The predicted protein was shown to be phosphorylated and contained an unusual 10-unit proline-glutamic acid repeat element. A polyclonal antiserum was produced against a recombinant form of the protein expressed in Escherichia coli, and a monoclonal antibody which reacted with the proline-glutamic acid motif was also identified. Immunofluorescence and immunoelectron microscopy techniques revealed that this protein is associated with large cytoplasmic fibrils which accumulate in the cytoplasm between 96 and 120 h postinfection. We subsequently called this viral polypeptide filament-associated late protein of entomopoxvirus. The fibrils containing this polypeptide are closely associated with occlusion bodies and may play a role in their morphogenesis and maturation.

Molecular cloning of LSIRF, a lymphoid-specific member of the interferon regulatory factor family that binds the interferon-stimulated response element (ISRE)

Interferon regulatory factor (IRF) genes encode a family of DNA-binding proteins that are involved in the transcriptional regulation of type-I interferon and/or interferon-inducible genes. We report here the characterization of LSIRF, a new member of the IRF gene family cloned from mouse spleen by the polymerase chain reaction using degenerate primers. LSIRF was found to encode a 51 kDa protein that shares a high degree of amino acid sequence homology in the DNA-binding domain with other IRF family members. LSIRF expression was detectable only in lymphoid cells. In contrast to other IRF genes, LSIRF expression was not induced by interferons, but rather by antigen-receptor mediated stimuli such as plant lectins, CD3 or IgM crosslinking. In in vitro DNA binding studies, LSIRF was able to bind to the interferon-stimulated response element (ISRE) of the MHC class I promoter. The expression pattern and DNA binding activities suggest that LSIRF plays a role in ISRE-targeted signal transduction mechanisms specific to lymphoid cells.