Arabidopsis bZIP protein HY5 directly interacts with light-responsive promoters in mediating light control of gene expression

The Arabidopsis HY5 gene has been defined genetically as a positive regulator of photomorphogenesis and recently has been shown to encode a basic leucine zipper type of transcription factor. Here, we report that HY5 is constitutively nuclear localized and is involved in light regulation of transcriptional activity of the promoters containing the G-box, a well-characterized light-responsive element (LRE). In vitro DNA binding studies suggested that HY5 can bind specifically to the G-box DNA sequences but not to any of the other LREs present in the light-responsive promoters examined. High-irradiance light activation of two synthetic promoters containing either the consensus G-box alone or the G-box combined with the GATA motif (another LRE) and the native Arabidopsis ribulose bisphosphate carboxylase small subunit gene RBCS-1A promoter, which has an essential copy of the G-box, was significantly compromised in the hy5 mutant. The hy5 mutation's effect on the high-irradiance light activation of gene expression was observed in both photosynthetic and nonphotosynthetic tissues. Furthermore, the characteristic phytochrome-mediated red light- and far-red light-reversible low-fluence induction of the G-box-containing promoters was diminished specifically in hy5 plants. These results suggest that HY5 may interact directly with the G-box in the promoters of light-inducible genes to mediate light-controlled transcriptional activity.

Molecular interaction between COP1 and HY5 defines a regulatory switch for light control of Arabidopsis development

Arabidopsis COP1 acts as a light-inactivable repressor of photomorphogenic development, but its molecular mode of action remains unclear. Here, we show that COP1 negatively regulates HY5, a bZIP protein and a positive regulator of photomorphogenic development. Both in vitro and in vivo assays indicate that COP1 interacts directly and specifically with HY5. The hyperphotomorphogenic phenotype caused by the over-expression of a mutant HY5, which lacks the COP1-interactive domain, supports the regulatory role of HY5-COP1 interaction. Further, HY5 is capable of directly interacting with the CHS1 minimal promoter and is essential for its light activation. We propose that the direct interaction with and regulation of transcription factors by COP1 may represent the molecular mechanism for its control of gene expression and photomorphogenic development.

A unique intronic splicing enhancer controls the inclusion of the agrin Y exon

Alternative splicing of the agrin mRNA controls the ability of agrin protein to induce the clustering of acetylcholine receptors at the neuromuscular junction. Using a transfectable reporter gene, we show that one agrin alternative exon, the Y exon, is controlled by a regulatory sequence in the downstream intron. Portions of this intronic sequence have the properties of a splicing enhancer that can activate splicing of a heterologous exon when placed in the intron downstream. The regulatory region is complex in structure, containing several different elements capable of activating splicing. Individual enhancing elements differ in their cell-type specificity, and are not apparently synergistic, as two elements together induce lower splicing than either does separately. Essential nucleotides within these regulatory elements were identified by scanning mutagenesis across the active region. Interestingly, the elements do not appear similar to known intronic splicing enhancer elements. This Y exon enhancer and its components take part in an apparent combinatorial system of control where multiple regulatory elements of varying activity combine to produce a precisely cell-specific exon inclusion. As a major contributor to the regulation of the Y exon, the enhancer ultimately controls the properties of the agrin protein.

The holmium YAG laser in office based arthroscopy of the knee: comparison with standard interventional instruments in patients with arthritis

OBJECTIVE

To confirm the feasibility of laser assisted technology in an office based rheumatology practice and to compare selected outcome variables with those of conventional arthroscopic cutting tools.

METHODS

A prospective analysis of 70 office based arthroscopies on 70 patients with knee arthritis over an 8 month period. All patients met specific criteria for office based arthroscopy. Thirty-six patients had interventions with conventional cutting tools and 34 patients had interventions with a 40 watt holmium YAG laser. Variables assessed included procedure time, length of recuperative period, and postprocedural pain.

RESULTS

Laser assisted arthroscopy was performed in 34 cases without side effects or complications. Patients who received laser treatment had a shorter recuperative period, less postprocedural pain, and fewer hemarthroses than patients treated with conventional methods.

CONCLUSION

While recognizing the shortcomings and possible complications associated with laser surgery, we conclude that laser use in an office setting is not only feasible but may in the future be an excellent method for office based arthroscopic treatment of the arthritic knee.

Expression of vascular endothelial growth factor in synovial fibroblasts is induced by hypoxia and interleukin 1beta

OBJECTIVE

To study the mechanism by which hypoxia and inflammatory cytokines mediate angiogenesis in the rheumatoid pannus through their effects on the fibroblast-like type B synoviocyte, the major cell type of normal synovia.

METHODS

Fibroblasts were prepared from synovial tissue of healthy and diseased individuals, and cultured in the presence of various stimuli. The expression of vascular endothelial growth factor (VEGF) was assessed by ELISA and reverse transcription polymerase chain reaction.

RESULTS

Unlike normal fibroblasts, synovial fibroblasts from rheumatoid arthritis (RA) and osteoarthritis constitutively secreted significant levels of VEGF, which is known to act directly on endothelial cells. VEGF secretion was further inducible by both hypoxia and interleukin 1beta (IL-1beta) and these increases were additive. In contrast, tumor necrosis factor alpha was unable to induce VEGF expression.

CONCLUSION

Under hypoxia or IL-1 stimulation, conditions common to the inflamed synovium, type B synoviocytes secrete increased levels of VEGF, which is likely to act on nearby endothelia, promoting angiogenesis. The constitutive expression of VEGF in rheumatoid synovial fibroblasts may reflect an altered phenotype involved in the pathology of RA.

Evidence for FUS6 as a component of the nuclear-localized COP9 complex in Arabidopsis

The pleiotropic CONSTITUTIVE PHOTOMORPHOGENIC (COP), DEETIOLATED (DET), and FUSCA (FUS) loci are essential regulatory genes involved in the light control of seedling developmental patterns in Arabidopsis. Although COP1, DET1, COP9, and FUS6 (also called COP11) have been cloned, their biochemical activities and interactions remain elusive. We have recently suggested that multiple pleiotropic COP, DET, and FUS genes may encode subunits of a large regulatory complex. In this study, we generated specific antibodies against Arabidopsis FUS6 and show that accumulation of both COP9 and FUS6 is coordinated in the pleiotropic cop, det, and fus mutant backgrounds and in wild-type plants throughout development. Both COP9 and FUS6 cofractionated into identical high molecular mass fractions in an analytical gel filtration assay, and neither was found in its monomeric form. Moreover, antibodies raised against either COP9 or FUS6 selectively coimmunoprecipitated both proteins. We have also developed an Arabidopsis protoplast immunolocalization assay and demonstrated that the COP9 complex is localized in the nucleus and that its nuclear localization is not affected by light conditions or tissue types. The integrated genetic and biochemical results strongly support the conclusion that both COP9 and FUS6 are components of the nuclear-localized COP9 complex. Therefore, we have provided the strongest evidence for the conclusion that at least some of the pleiotropic COP, DET, and FUS loci act in the same signaling pathway.

Combinatorial interplay of promoter elements constitutes the minimal determinants for light and developmental control of gene expression in Arabidopsis

Higher plants are able to integrate environmental and endogenous signals to regulate gene expression for optimal development. To define the minimal sequence requirement sufficient to integrate light and developmental signals in controlling promoter activity, we carried out a systematic analysis of the roles of four well-conserved 'light-responsive elements (LREs)' common to many nuclear-encoded photosynthetic genes. A gain-of-function assay using basal promoter-reporter fusions in stable transgenic Arabidopsis was employed to demonstrate that pairwise combinations of the LREs, but not the individual elements alone, can confer light-inducible expression to the reporter gene independently of the basal promoter context and the light-triggered morphological changes. The activity of the synthetic promoters with the paired LREs can be modulated at least by the phytochrome system. Further, those synthetic light-regulated promoters confer a photosynthetic cell-specific expression pattern and respond to the chloroplast development state. Our data suggest that distinct combinatorial interactions of LREs can serve as minimal autonomous promoter determinants which integrate light and developmental signals and modulate promoter activity.

The COP9 complex, a novel multisubunit nuclear regulator involved in light control of a plant developmental switch

Arabidopsis COP9 is a component of a large protein complex that is essential for the light control of a developmental switch and whose conformation or size is modulated by light. The complex is acidic, binds heparin, and is localized within the nucleus. Biochemical purification of the complex to near homogeneity revealed that it contains 12 distinct subunits. One of the other subunits is COP11, mutations in which result in a phenotype identical to cop9 mutants. The COP9 complex may act to regulate the nuclear abundance of COP1, an established repressor of photomorphogenic development. During the biogenesis of the COP9 complex, a certain degree of prior subunit association is a prerequisite for proper nuclear translocation. Since both COP9 and COP11 have closely related human counterparts, the COP9 complex probably represents a conserved developmental regulator in higher eukaryotes.

Vesnarinone is a selective inhibitor of macrophage TNF(alpha) release

Vesnarinone is an experimental drug that has been used successfully in the treatment of congestive heart failure patients. In this report we investigate the effect of vesnarinone on the cytokine secretory products of mononuclear phagocytes. In a concentration-dependent manner, the drug inhibits the endotoxin(LPS)-stimulated release of tumor necrosis factor (TNF) alpha and suppresses interleukin(IL)-6 release, but does not affect the release of IL-1 alpha, IL-10 and leukemia inhibitory factor (LIF) by mouse peritoneal macrophages. Using competitive polymerase chain reaction (PCR) analyses, we find that vesnarinone significantly reduces TNF(alpha), but not IL-10 mRNA. In addition to LPS, the drug inhibits TNF(alpha) release induced by several other stimuli. The inhibitory effect of the drug on the TNF(alpha) biosynthesis can be observed in differentiated human monocytes, in macrophage cell lines, and in synovial adherent cells from rheumatoid arthritis patients. Although the precise mode of action of vesnarinone in the signal transduction pathway leading to the selective inhibition of TNF(alpha) is not known, the drug might be useful in the treatment of diseases involving that cytokine.

Complications of office based arthroscopy of the knee

OBJECTIVE

To analyze the complication rates associated with office based arthroscopy in 2 community based rheumatology practices.

METHODS

A retrospective analysis of 335 office based arthroscopy performed on 306 patients over a 35 mo period. All patients met specific clinical criteria to qualify for office based arthroscopy. Patients were followed postarthroscopy for a minimum of 12 weeks to assess the rates and types of complications.

RESULTS

Of the 335 office based arthroscopies, 131 were diagnostic only, while 204 procedures were diagnostic and therapeutic. A total of 280 interventions were performed. Both major and minor complications were seen. The complication rates for major and minor events were 1.2 and 12.8%, respectively. There was no mortality or longterm morbidity.

CONCLUSION

Office based arthroscopy in patients with rheumatic diseases has a safety profile that compares favorably with arthroscopy performed in an ambulatory surgical center or operating room setting.

Immunodetection, expression strategy and complementation of turnip crinkle virus p28 and p88 replication components

The plus-sense RNA genome of turnip crinkle virus (TCV) encodes at its 5' end a 28-kDa protein of unspecified function. Readthrough suppression of the p28 stop codon allows for the production of an 88-kDa product which is required for genome replication. Immunological analysis of the expression of p28 and p88 demonstrated that: (i) the genome directs the synthesis of polypeptides of approximately 28 and 88 kDa, (ii) the 88-kDa protein is immunologically related to p28, consistent with p88 being a readthrough product, and (iii) p28, but not p88, is detectable in vivo. An in vivo assay, in which readthrough is linked to the expression of a beta-glucuronidase reporter gene, showed that readthrough of the p28 amber stop codon occurs with an efficiency of approximately 1%. A similar efficiency of readthrough was observed when an altered context from the nonviable TCV mutant, mA2, containing a disrupted secondary structure (FfFa) spanning the p28 termination codon, was tested. This result suggests that the defective phenotype of mA2 is likely not linked to an alteration in readthrough efficiency. Additional studies demonstrated that complementation occurs in coinoculations with two nonviable TCV mutants, RT and APA, which are unable to express either p28 or p88, respectively. This result verifies that p28 is essential for TCV genome replication and provides the first definitive evidence for the role of a 5'-proximal open reading frame for any member of the family Tombusviridae.

Arabidopsis COP1 protein specifically interacts in vitro with a cytoskeleton-associated protein, CIP1

Arabidopsis COP1 acts inside the nucleus to suppress photomorphogenic cellular development, and light inactivation of COP1 may involve a specific control of its nuclear activity in hypocotyls and cotyledons, but not in roots, of developing seedlings. To understand the molecular mechanisms of COP1 action during light-mediated development, we initiated a screen for Arabidopsis cDNAs encoding proteins which interact directly with COP1 in vitro as a step to identify the cellular components involved. We report here the isolation and characterization of a cDNA clone encoding a protein designated CIP1 (COP1-interactive protein 1). CIP1 is predominantly alpha-helical and most likely involved in coiled-coil formation. It interacts specifically with the putative coiled-coil region of COP1 in vitro. Further, CIP1 is encoded by a single gene in Arabidopsis, and its mRNA and protein levels are not regulated by light. Immunofluorescent labeling of CIP1 in Arabidopsis seedling protoplasts demonstrated that CIP1 is part of, or associated with, a cytoskeletal structure in hypocotyl and cotyledon cells, but not in roots. Our results are consistent with a possible role of CIP1 in mediating light control of COP1 nuclear activity by regulating its nucleocytoplasmic partitioning.

Measurement of secretogranin II release from individual adenohypophysial gonadotropes

Secretogranin II (SG-II) is an acidic 86-kDa protein found in high abundance in the anterior pituitary gland. In the present studies, we investigated the secretion and the localization of SG-II using pituitary cells from female rats at all stages of the estrous cycle. Double immunofluorescence staining revealed that SG-II immunoreactivity was localized in low abundance in about half of all pituitary cells and in high abundance in all of the luteinizing hormone (LH)-immunoreactive cells (which represent approximately 5% of all pituitary cells). Using a reverse hemolytic plaque assay for measurement of SG-II release from individual pituitary cells in culture, we found that SG-II secretion was strongly stimulated by gonadotropin-releasing hormone in a dose-related fashion, and the amount of SG-II secretion was also related to the stage of the estrous cycle: it was highest at proestrus and lowest at estrus. SG-II plaque assay followed by LH immunofluorescence staining further revealed that all the SG-II-secreting cells contained LH immunoreactivity. At proestrus all the LH-immunoreactive cells secreted SG-II, whereas another days of the estrous cycle only a fraction of them did so. Thus our findings demonstrate a striking resemblance between SG-II and LH with regard to cell localization and secretory regulation.

Stress fractures of the distal fibula presenting as monarticular flares in patients with rheumatoid arthritis

Monarticular flares occurring in patients with rheumatoid arthritis (RA) usually signify either a worsening of the underlying condition or a superimposed septic process. This report describes 2 patients with RA who had stress fractures of the fibular head, masquerading as monarticular flares of ankle arthritis.

Enhancement of hemin-induced membrane damage by artemisinin

Artemisinin is an effective antimalarial agent, and its action on the malarial parasite is suggested to be mediated by oxidative processes. Since malarial parasites contain a high concentration of hemin, and hemin may induce the formation of reactive oxygen species, we investigated the interaction of artemisinin, iron and hemin. We used erythrocyte membrane-bound Ca2+ pump ATPase (basal) and calmodulin (CaM)-activated Ca2+ pump ATPase as our model. Membranes were incubated with artemisinin in the presence or absence of iron-ascorbate or hemin at 37 degrees for 1 hr. Following incubation, ATPase activity was measured. Our results showed that artemisinin (500 microM) had no effect on ATPase activities. However, artemisinin enhanced the inhibitory effect of iron (50 microM)-ascorbate (500 microM) on ATPase activity (46.3 +/- 3.9 vs 63 +/- 2.1% for basal; 57.2 +/- 2.5 vs 74.8 +/- 2.1% for CaM-activated). Desferrioxamine (DFO, 200 microM) blocked significantly the effect of iron-ascorbate-artemisinin on ATPases (P < 0.01). Hemin inhibited ATPase activity in a concentration-dependent fashion. Artemisinin enhanced hemin (10 microM)-induced inhibition of basal (36.0 +/- 6.0 vs 73.7 +/- 3.0%) and CaM-activated Ca2+ pump ATPase (31.6 +/- 2.8 vs 70.0 +/- 1.5%). Iron chelators (DFO, ferene, 8-hydroxyquinoline, 1,10-phenanthroline, and 1,2-dimethyl-3-hydroxypyrid-4-one) had no effect on artemisinin plus hemin-induced enzyme inhibition. Catalase (2000 U/mL) had a minor effect on the artemisinin-hemin or hemin-mediated effect. Thiourea (1 mM) had no effect. However, superoxide dismutase (500 U/mL) and dithiothreitol blocked artemisinin-hemin or hemin-mediated ATPase inhibition significantly (P < 0.001). In conclusion, these results suggest that, in our model, artemisinin enhances the damage of hemin-induced ATPases via oxidation of thiol groups on the enzymes. Free iron or hydroxyl radical does not seem to be involved. This interaction between artemisinin and hemin may contribute to the antimalarial action of artemisinin against malarial parasites.

Arabidopsis COP9 is a component of a novel signaling complex mediating light control of development

Environmental light signals are sensed by multiple families of photoreceptors and transduced by largely unknown mechanisms to regulate plant development. In this report, genetic analysis suggested that light signals perceived by both phytochromes and a blue light receptor converge to repress the action of Arabidopsis COP9 in suppressing seedling photomorphogenesis. Molecular cloning of the gene revealed that COP9 encodes a novel protein of 197 amino acids whose expression is not regulated by light. COP9 functions as a large (> 560 kDa) complex(es) that is probably subjected to light modulation. In addition, COP8 and COP11 are required for either the COP9 complex formation or its stability. Therefore COP9, together with COP8 and COP11, defines a novel signaling step in mediating light control of plant development.

Arabidopsis COP8, COP10, and COP11 genes are involved in repression of photomorphogenic development in darkness

Wild-type Arabidopsis seedlings are capable of following two developmental programs: photomorphogenesis in the light and skotomorphogenesis in darkness. Screening of Arabidopsis mutants for constitutive photomorphogenic development in darkness resulted in the identification of three new loci designated COP8, COP10, and COP11. Detailed examination of the temporal morphological and cellular differentiation patterns of wild-type and mutant seedlings revealed that in darkness, seedlings homozygous for recessive mutations in COP8, COP10, and COP11 failed to suppress the photomorphogenic developmental pathway and were unable to initiate skotomorphogenesis. As a consequence, the mutant seedlings grown in the dark had short hypocotyls and open and expanded cotyledons, with characteristic photomorphogenic cellular differentiation patterns and elevated levels of light-inducible gene expression. In addition, plastids of dark-grown mutants were defective in etioplast differentiation. Similar to cop1 and cop9, and in contrast to det1 (deetiolated), these new mutants lacked dark-adaptive change of light-regulated gene expression and retained normal phytochrome control of seed germination. Epistatic analyses with the long hypocotyl hy1, hy2, hy3, hy4, and hy5 mutations suggested that these three loci, similar to COP1 and COP9, act downstream of both phytochromes and a blue light receptor, and probably HY5 as well. Further, cop8-1, cop10-1, and cop11-1 mutants accumulated higher levels of COP1, a feature similar to the cop9-1 mutant. These results suggested that COP8, COP10, and COP11, together with COP1, COP9, and DET1, function to suppress the photomorphogenic developmental program and to promote skotomorphogenesis in darkness. The identical phenotypes resulting from mutations in COP8, COP9, COP10, and COP11 imply that their encoded products function in close proximity, possibly with some of them as a complex, in the same signal transduction pathway.

Arabidopsis COP8, COP10, and COP11 genes are involved in repression of photomorphogenic development in darkness

Wild-type Arabidopsis seedlings are capable of following two developmental programs: photomorphogenesis in the light and skotomorphogenesis in darkness. Screening of Arabidopsis mutants for constitutive photomorphogenic development in darkness resulted in the identification of three new loci designated COP8, COP10, and COP11. Detailed examination of the temporal morphological and cellular differentiation patterns of wild-type and mutant seedlings revealed that in darkness, seedlings homozygous for recessive mutations in COP8, COP10, and COP11 failed to suppress the photomorphogenic developmental pathway and were unable to initiate skotomorphogenesis. As a consequence, the mutant seedlings grown in the dark had short hypocotyls and open and expanded cotyledons, with characteristic photomorphogenic cellular differentiation patterns and elevated levels of light-inducible gene expression. In addition, plastids of dark-grown mutants were defective in etioplast differentiation. Similar to cop1 and cop9, and in contrast to det1 (deetiolated), these new mutants lacked dark-adaptive change of light-regulated gene expression and retained normal phytochrome control of seed germination. Epistatic analyses with the long hypocotyl hy1, hy2, hy3, hy4, and hy5 mutations suggested that these three loci, similar to COP1 and COP9, act downstream of both phytochromes and a blue light receptor, and probably HY5 as well. Further, cop8-1, cop10-1, and cop11-1 mutants accumulated higher levels of COP1, a feature similar to the cop9-1 mutant. These results suggested that COP8, COP10, and COP11, together with COP1, COP9, and DET1, function to suppress the photomorphogenic developmental program and to promote skotomorphogenesis in darkness. The identical phenotypes resulting from mutations in COP8, COP9, COP10, and COP11 imply that their encoded products function in close proximity, possibly with some of them as a complex, in the same signal transduction pathway.

The p21 Cdk-interacting protein Cip1 is a potent inhibitor of G1 cyclin-dependent kinases

The cyclin-dependent kinase Cdk2 associates with cyclins A, D, and E and has been implicated in the control of the G1 to S phase transition in mammals. To identify potential Cdk2 regulators, we have employed an improved two-hybrid system to isolate human genes encoding Cdk-interacting proteins (Cips). CIP1 encodes a novel 21 kd protein that is found in cyclin A, cyclin D1, cyclin E, and Cdk2 immunoprecipitates. p21CIP1 is a potent, tight-binding inhibitor of Cdks and can inhibit the phosphorylation of Rb by cyclin A-Cdk2, cyclin E-Cdk2, cyclin D1-Cdk4, and cyclin D2-Cdk4 complexes. Cotransfection experiments indicate that CIP1 and SV40 T antigen function in a mutually antagonistic manner to control cell cycle progression.

Regulation of expression of secretogranin II mRNA in female rat pituitary and hypothalamus

Secretogranin II (SgII) is an acidic 86-kD protein which is synthesized by most neuroendocrine cells but occurs in greatest abundance in the anterior pituitary gland where it is localized primarily in gonadotrophs. In the present studies, we investigated the regulation of SgII mRNA expression in the anterior pituitary gland by estrogens and gonadotropin-releasing hormone (GnRH) and compared the results to luteinizing hormone beta-subunit (LH beta) mRNA expression. Molecular cloning and nucleotide sequence analysis of a rat pituitary SgII cDNA revealed a derived amino acid sequence identical with that previously reported for the rat adrenal. Not previously reported were five putative nuclear localization signals, four of which coincided with dibasic residues previously thought to serve as proteolytic cleavage sites. In Northern blots, SgII mRNA was found in high abundance in the anterior pituitary gland, in moderate abundance in the brain and adrenal, and in low abundance in the ovary and testis. Measurements of pituitary SgII mRNA during the rat 4-day estrous cycle revealed an inverse relationship with LH beta mRNA: SgII mRNA decreased, whereas LH beta mRNA increased as the cycle progressed. Increases in pituitary SgII mRNA and LH beta mRNA levels occurred after ovariectomy, and decreases occurred after estrogen treatment of such animals. Likewise, pituitary SgII mRNA and LH beta mRNA levels decreased after treatment of ovariectomized animals with a GnRH antagonist. In contrast, ovariectomy significantly decreased SgII mRNA levels in the hypothalamus, and estrogen treatment increased its levels. Our studies reveal that ovarian estrogens and hypothalamic GnRH exert similar effects on SgII mRNA and LH beta mRNA expression in the pituitary. However, since their expression is inverse during the rat estrous cycle, other unidentified regulatory factors with differential effects on their expression may intervene in the regulation of SgII and LH beta mRNA levels.

Phosphorylation independent activation of human cyclin-dependent kinase 2 by cyclin A in vitro

p33cdk2 is a serine-threonine protein kinase that associates with cyclins A, D, and E and has been implicated in the control of the G1/S transition in mammalian cells. Recent evidence indicates that cyclin-dependent kinase 2 (Cdk2), like its homolog Cdc2, requires cyclin binding and phosphorylation (of threonine-160) for activation in vivo. However, the extent to which mechanistic details of the activation process are conserved between Cdc2 and Cdk2 is unknown. We have developed bacterial expression and purification systems for Cdk2 and cyclin A that allow mechanistic studies of the activation process to be performed in the absence of cell extracts. Recombinant Cdk2 is essentially inactive as a histone H1 kinase (< 4 x 10(-5) pmol phosphate transferred.min-1 x microgram-1 Cdk2). However, in the presence of equimolar cyclin A, the specific activity is approximately 16 pmol.mon-1 x microgram-1, 4 x 10(5)-fold higher than Cdk2 alone. Mutation of T160 in Cdk2 to either alanine or glutamic acid had little impact on the specific activity of the Cdk2/cyclin A complex: the activity of Cdk2T160E was indistinguishable from Cdk2, whereas that of Cdk2T160A was reduced by five-fold. To determine if the Cdk2/cyclin A complex could be activated further by phosphorylation of T160, complexes were treated with Cdc2 activating kinase (CAK), purified approximately 12,000-fold from Xenopus eggs. This treatment resulted in an 80-fold increase in specific activity. This specific activity is comparable with that of the Cdc2/cyclin B complex after complete activation by CAK (approximately 1600 pmol.mon-1 x microgram-1). Neither Cdk2T160A/cyclin A nor Cdk2T160E/cyclin A complexes were activated further by treatment with CAK. In striking contrast with cyclin A, cyclin B did not directly activate Cdk2. However, both Cdk2/cyclin A and Cdk2/cyclin B complexes display similar activity after activation by CAK. For the Cdk2/cyclin A complex, both cyclin binding and phosphorylation contribute significantly to activation, although the energetic contribution of cyclin A binding is greater than that of T160 phosphorylation by approximately 5 kcal/mol. The potential significance of direct activation of Cdk2 by cyclins with respect to regulation of cell cycle progression is discussed.

COP9: a new genetic locus involved in light-regulated development and gene expression in arabidopsis

We report here the identification and characterization of a new Arabidopsis light-regulatory locus, COP9, mutation that leads to a constitutive photomorphogenic phenotype. Dark-grown cop9 seedlings exhibit many morphological characteristics of light-grown seedlings, including short hypocotyls and open and enlarged cotyledons with cell-type and chloroplast differentiation. Furthermore, the cop9 mutation leads to high-level expression of light-inducible genes in the absence of light, probably by altering the promoter activities of these genes. These properties imply that the mutation in the COP9 locus uncouples the light/dark signals from morphogenesis and light-regulated gene expression. In addition, light-grown cop9 mutants are severely dwarfed and are unable to reach maturation and flowering. This adult-lethal phenotype indicates that the COP9 locus also plays a critical role for normal development of the light-grown plant. Similar to cop1 mutants, but not det1, the cop9 mutants show (1) no effect on the phytochrome control of seed germination and (2) deficiency in the dark-adaptive change of expression of light-regulated genes. Our results suggest that the cop9 and cop1 mutations result in the same range of phenotypes and therefore COP9 and COP1 loci may encode closely related components in the same regulatory pathway.

COP1, an Arabidopsis regulatory gene, encodes a protein with both a zinc-binding motif and a G beta homologous domain

Plant seedling development is capable of following 1 of 2 distinct morphogenic pathways: skotomorphogenesis in darkness and photomorphogenesis in light. Dark-grown Arabidopsis seedlings with recessive mutations at the constitutively photomorphogenic (COP1) locus indicate that the wild-type COP1 protein represses photomorphogenesis in darkness and that light reverses this repressive activity. Using a T-DNA-tagged mutant, we have cloned the COP1 locus. The amino-terminal half of the encoded protein contains a conserved zinc-binding motif, whereas the carboxyl-terminal half contains a domain homologous to the WD-40 repeat motif of G beta proteins. The presence of both a putative DNA-binding motif and a G protein-related domain in a single polypeptide suggests that COP1 may be the first of a new class of regulatory molecules. This novel structure could endow COP1 with the capacity to function as a negative transcriptional regulator capable of direct interaction with components of the G protein signaling pathway.

Hyperexpression of baculovirus polyhedrin and p10 is inversely correlated with actin synthesis

Polyhedrin and p10, two proteins encoded by Autographa californica M nuclear polyhedrosis virus, are hyperexpressed very late during normal infections. In this study we found that cytochalasin D, a drug that leads to increased actin synthesis in infected and uninfected host cells, delayed the amplified expression of polyhedrin and p10 when added to infected cells before hyperexpression was already in progress. Restoration of polyhedrin and p10 hyperexpression could be achieved by removal of the drug, but required new protein synthesis. An inverse correlation was observed between polyhedrin/p10 mRNA levels and actin mRNA levels at late and very late times during infection, regardless of whether cytochalasin D was added, removed, or never present. In comparison to mRNAs of polyhedrin and p10, the mRNA levels of the early/late viral gene 39K were much less affected by cytochalasin D and responded to drug removal more slowly. The results of these studies revealed an apparent correlation between the shut down of host actin genes and the amplified expression of polyhedrin and p10 in the presence and absence of cytochalasin D. The possibility that newly synthesized actin itself, either directly or indirectly, plays a negative regulatory role in the accumulation of polyhedrin and p10 mRNAs is discussed.

Characterization of an internal element in turnip crinkle virus RNA involved in both coat protein binding and replication

The major coat-protein-binding element of turnip crinkle virus RNA was previously mapped in the region of the UAG termination codon in the viral polymerase gene. This region encompasses two of the high-affinity coat-protein-binding sites (Fa and Ff) that we suggested were physically associated in a stem-loop in a ribonucleoprotein complex involved in assembly initiation (Wei, Heaton, Morris, and Harrison, J. Mol. Biol. 214, 85-95, 1990). We have also demonstrated that this RNA element was capable of specific coat protein binding in vitro (Wei and Morris, J. Mol. Biol. 222, 437-443, 1991). We now provide physical evidence, by in vitro chemical and enzymatic probing of the viral RNA, that support the suggestion that the two coat-protein-binding sites base pair to form a stem structure (A/F stem) surrounding the UAG terminator in wild-type RNA. We have shown here that a mutant with seven conservative nucleotide substitutions in Fa does not accumulate to detectable levels in plants or protoplasts and that the A/F stem structure is drastically altered in this mutant. We suggest that the primary effect of this mutation is on replication rather than on a reduction in RNA stability resulting from a defect in encapsidation of the virion RNA because previous results have shown that encapsidation-deficient mutants have little or no effect on viral RNA replication (Hacker, Petty, Wei, and Morris, Virology 186, 1-8, 1992). The analysis of the A/F stem was extended by construction and characterization of a series of mutants and revertants that displayed variable levels of replication deficiency but minimal concomitant defect in encapsidation efficiency. The extent of the replication defect correlated with the predicted destabilization of the A/F stem structure. We conclude from these results that this RNA element is involved in viral replication, and we tentatively suggest that the A/F stem structure may be functionally involved in the readthrough translation of the viral polymerase.

Turnip crinkle virus genes required for RNA replication and virus movement

We have used infectious in vitro transcripts from mutagenized turnip crinkle virus (TCV) cDNA clones to identify the gene products required for viral RNA replication, virion assembly, and intercellular movement. Previous sequence analysis of the TCV genome revealed the presence of five open reading frames which had the potential to encode gene products of 88, 38, 28, 9, and 8 kDa. Inoculation of protoplasts with infectious RNA revealed that only the p28 and p88 gene products are required for viral RNA synthesis. Although the p8 and p9 gene products were dispensable for RNA replication and virion assembly in protoplasts, mutations in the p8 and p9 genes prevented the production of systemic infections in plants. No viral RNA or protein was observed in the inoculated or systemic leaves of plants inoculated with transcripts synthesized from p8 or p9 mutant cDNAs. In contrast to these results, viral RNA was recovered from the inoculated, but not the systemic leaves, of plants inoculated with an RNA lacking the coat protein (CP) gene. With the CP mutant, no symptoms were observed on normally systemic hosts, but small local lesions were induced on Chenopodium amaranticolor. These results indicate that p8, p9, and CP are required for viral movement.

Interactions between viral coat protein and a specific binding region on turnip crinkle virus RNA

The turnip crinkle virus coat protein binding sites in the ribonucleoprotein complex resulting from virion dissociation have been identified previously. In this study, RNA binding characteristics of viral coat protein to a region encompassing the protected RNA fragments Fa, Ff, and Fc (Fafc) have been investigated further using an RNA transcript (the Fafc fragment). These experiments have shown that coat protein requires no additional viral RNA elements to bind to this region. Such binding was shown to be specific for turnip crinkle virus coat protein using an ultra-violet light cross-linking assay. Gel mobility shift analyses demonstrated that the protein-RNA interactions produced two complexes: a homogeneous small ribonucleoprotein complex, and larger complexes which failed to migrate into gels. High salt and limiting protein concentrations favored the formation of the small ribonucleoprotein complex, whereas low salt and excess protein concentrations favored the larger complexes. RNA competition experiments demonstrated that small ribonucleoprotein complex formation coincided with specific RNA binding of the coat protein to the Fafc fragment. In addition, the coat protein possessed a poly(U)-binding site(s), which enabled it to interact with single-stranded RNA in a sequence non-specific manner to form large complexes. The results suggest that the coat protein contains both specific and non-specific RNA binding activities located at physically distinct sites. These results are consistent with the proposed assembly model for turnip crinkle virus.

Synthesis and secretion of human atrial natriuretic peptide in Saccharomyces cerevisiae

A chemically synthesized alpha-hANP gene was inserted into plasmid YFD18, which was an expression-secretion vector of yeast. The recombinant then transformed in the yeast Y33. The expression level of yeast transformants was about 700 micrograms ANP/L detected by RIA. More than 99% of expression products were secreted in the culture medium. N-terminal analysis of purified product showed that the first 4 amino acid residues of alpha-hANP were deleted.

Point mutations in the turnip crinkle virus capsid protein affect the symptoms expressed by Nicotiana benthamiana

In an effort to determine the biological function(s) of the capsid protein protruding domains unique to the plant carmo- and tombusviruses, we constructed turnip crinkle virus (TCV) mutants in which tandem, in-frame translation terminators replaced the first two codons of the five-amino acid hinge between the shell and the protruding domains of the TCV capsid protein. One of the mutants replicated in inoculated leaves and protoplasts without detectable accumulation of capsid protein. The mutant lacked the capacity to move systemically in Brassica campestris and Nicotiana benthamiana. After 8 weeks, revertant virions that had regained the capacity to move systemically were purified and found to have sense codons at the positions of the introduced translation terminators. One of the revertants, with amino acid substitutions in the hinge, elicited milder symptoms than those elicited by the wild-type virus, and another elicited more severe symptoms. Oligonucleotide-directed mutagenesis was used to show that the hinge mutations were sufficient to elicit the milder, but not the more severe, symptom syndrome. Single amino acid substitutions were also shown to be sufficient to elicit the milder, but not the more severe, symptoms.

Structure and assembly of turnip crinkle virus. VI. Identification of coat protein binding sites on the RNA

Structural studies of turnip crinkle virus have been extended to include the identification of high-affinity coat protein binding sites on the RNA genome. Virus was dissociated at elevated pH and ionic strength, and a ribonucleoprotein complex (rp-complex) was isolated by chromatography on Sephacryl S-200. Genomic RNA fragments in the rp-complex, resistant to RNase A and RNase T1 digestion and associated with tightly bound coat protein subunits, were isolated using coat-protein-specific antibodies. The identity of the protected fragments was determined by direct RNA sequencing. These approaches allowed us to study the specific RNA-protein interactions in the rp-complex obtained from dissociated virus particles. The location of one protected fragment downstream from the amber terminator codon in the first and largest of the three viral open reading frames suggests that the coat protein may play a role in the regulation of the expression of the polymerase gene. We have also identified an additional cluster of T1-protected fragments in the region of the coat protein gene that may represent further high-affinity sites involved in assembly recognition.

Infectious barley stripe mosaic virus RNA transcribed in vitro from full-length genomic cDNA clones

Full-length genomic cDNA clones of the Type and ND18 strains of barley stripe mosaic virus (BSMV) were transcribed in vitro using T7 RNA polymerase. The combination of RNAs alpha, beta, and gamma synthesized in the presence of 5' cap analogs was infectious after inoculation onto barley plants, conclusively demonstrating the tripartite nature of the BSMV genome. Transcripts synthesized in the absence of cap analogs were not infectious. A gamma-specific subgenomic RNA which is normally present in BSMV virions was not required to establish a systemic infection. In vitro transcripts of variant cDNA clones which were isolated from the ND18 strain, containing either a simple nucleotide substitution or a 372-nucleotide duplication similar to one found in the genome of the Type strain, were also found to be biologically active. Two dicotyledonous hosts which have a differential response to infection with the Type and ND18 strains of BSMV were identified and these phenotypes were shown to be faithfully reproduced by inoculation with in vitro transcripts derived from the appropriate full-length cDNA clones.

Rapidly fatal pneumococcal septicemia in systemic lupus erythematosus

Streptococcal pneumoniae septicemia was responsible for the deaths of 3 patients with chronic systemic lupus erythematosus. The absence of a spleen likely contributed to sepsis in 2 patients. One patient had been immunized with 14-valent pneumococcal vaccine with a doubling of serum antibody concentrations at one month to all vaccine capsular polysaccharide types except for Types 1 and 12. The patient died 74 months after immunization of pneumococcal Type 1 sepsis.

Sclerodactyly in a patient with mycosis fungoides

A 44-year-old man had mycosis fungoides and generalized plaque disease involving 80% of his skin surface with diffuse lymphadenopathy and alopecia of the scalp and groin. In addition, distal to the wrist, there were sclerodermatous changes involving the skin of the hands with associated sclerodactyly of all digits with loss of normal palmar creases. There were no subungual telangiectasis or digital ulcers. The changes in the hand that occurred in this case, no doubt arose as a result of the patient's neoplasm. Abnormalities of collagen biosynthesis and degradation probably occur with mycosis fungoides as a result of the extensive infiltration of the epidermis and dermis with malignant cells. To our knowledge, the association of sclerodactyly with mycosis fungoides has not been previously reported.

Randomised trial of plasma exchange in mild systemic lupus erythematosus

The effects of intensive plasma exchange on the serological and clinical manifestations of mildly active systemic lupus erythematosus were evaluated in a controlled, double-blind trial. Twenty patients were randomised to receive either six 4-litre plasma exchanges or a seemingly identical control procedure over a 2-week period. Plasma exchange produced significant reductions in serum levels of IgG, IgM, IgA, and circulating immune complexes measured by an 125I-Clq binding assay. These serological measures returned to baseline 4 weeks after plasma exchange without a rebound above baseline values. Antibodies to DNA were reduced immediately after plasma exchange; however, they often returned to pre-treatment levels before the next procedure. No changes in any of the serological measures were observed in the control group. In sixteen of the eighteen patients who completed the clinical trial activity had either remained stable or improved; the frequency and degree of clinical improvement was the same in both plasma exchange and control groups.

Effect of plasmapheresis on T anc B lymphocyte functions in patients with systemic lupus erythematosus: a double blind study

Nine patients with active systemic lupus erythematosus entered a double-blind randomized trial to study the therapeutic effect of vigorous versus sham reinfusion plasmapheresis. Four of them received real plasmapheresis while five received sham reinfusion plasmapheresis. In the present communication we report the effects of these procedures on T lymphocytes in peripheral mononuclear cells, proliferative response to mitogens, allogeneic mixed lymphocyte reaction and cell-mediated lympholysis, as well as the effect of plasmapheresis on the spontaneous and pokeweed mitogen induced immunoglobulin secreting cells in peripheral blood. Several mononuclear cell functions were abnormal at the beginning of the study but no significant changes related to plasmaphersis occurred in any of the parameters studied.

False positive pregnancy tests in systemic lupus erythematosus

False positive, 'atypical ring' pregnancy tests were identified in 14 patients with systemic lupus erythematosus. The abnormality was associated with heavy proteinuria in 8 patients, menopause or drug-induced amenorrhea in 4 patients, and actual pregnancy in one patient. Serum levels of human chorionic gonadotropin were normal in 13 patients and elevated in the single patient with a true pregnancy.

Clinical significance of low creatine phosphokinase values in patients with connective tissue diseases

We have noted that values for serum creatine phosphokinase (CPK) are frequently low in patients with connective tissue diseases. Geometric mean values were 96.0 units/L among 121 disease-free males and 50.2 units/L among 63 disease-free females. The geometric mean values were 31.7 units/L in 11 males and 35.2 units/L in 49 females with systemic lupus erythematosus; 15.1 units/L in three males and 13.0 units/L in ten females with rheumatoid arthritis; and 41.6 units/L in 19 females with Sjögren's syndrome. Values within the normal range may occur in the face of active myositis in these illnesses. Findings of a low serum CPK values may occur in the absence of steroid treatment. Thus, a low serum CPK value is frequently found in patients with connective tissue diseases and a normal value should not dissuade one from the diagnosis of myositis.