Integrated Microarray to Identify the Hub miRNAs and Constructed miRNA–mRNA Network in Neuroblastoma Via Bioinformatics Analysis

Neurochemical Research - Neuroblastomas (NB) are childhood malignant tumors originating in the sympathetic nervous system. MicroRNAs (miRNAs) play an essential regulatory role in tumorigenesis and...     

Genetic Influences on Hand Osteoarthritis in Finnish Women – A Replication Study of Candidate Genes

Objectives

Our aims were to replicate some previously reported associations of single nucleotide polymorphisms (SNPs) in five genes (A2BP1, COG5, GDF5, HFE, ESR1) with hand osteoarthritis (OA), and to examine whether genes (BCAP29, DIO2, DUS4L, DVWA, HLA, PTGS2, PARD3B, TGFB1 and TRIB1) associated with OA at other joint sites were associated with hand OA among Finnish women.

Design

We examined the bilateral hand radiographs of 542 occupationally active Finnish female dentists and teachers aged 45 to 63 and classified them according to the presence of OA by using reference images. Data regarding finger joint pain and other risk factors were collected using a questionnaire. We defined two hand OA phenotypes: radiographic OA in at least three joints (ROA) and symptomatic DIP OA. The genotypes were determined by PCR-based methods. In statistical analysis, we used SNPStats software, the chi-square test and logistic regression.

Results

Of the SNPs, rs716508 in A2BP1 was associated with ROA (OR = 0.7, 95% CI 0.5–0.9) and rs1800470 in TGFB1 with symptomatic DIP OA (1.8, 1.2–2.9). We found an interaction between ESR1 (rs9340799) and occupation: teachers with the minor allele were at an increased risk of symptomatic DIP OA (2.8, 1.3–6.5). We saw no association among the dentists. We also found that the carriage of the COG5 rs3757713 C allele increased the risk of ROA only among women with the BCAP29 rs10953541 CC genotype (2.6; 1.1–6.1). There was also a suggestive interaction between the HFE rs179945 and the ESR1 rs9340799, and the carriage of the minor allele of either of these SNPs was associated with an increased risk of symptomatic DIP OA (2.1, 1.3–2.5).

Conclusions

Our results support the earlier findings of A2BP1 and TBGF1 being OA susceptibility genes and provide evidence of a possible gene-gene interaction in the genetic influence on hand OA predisposition.     

Endogenous IL-1 in Cognitive Function and Anxiety: A Study in IL-1RI?/? Mice

Interleukin-1 (IL-1) is a key pro-inflammatory cytokine, produced predominantly by peripheral immune cells but also by glia and some neuronal populations within the brain. Its signalling is mediated via the binding of IL-1α or IL-1β to the interleukin-1 type one receptor (IL-1RI). IL-1 plays a key role in inflammation-induced sickness behaviour, resulting in depressed locomotor activity, decreased exploration, reduced food and water intake and acute cognitive deficits. Conversely, IL-1 has also been suggested to facilitate hippocampal-dependent learning and memory: IL-1RI^−/− mice have been reported to show deficits on tasks of visuospatial learning and memory. We sought to investigate whether there is a generalised hippocampal deficit in IL-1RI^−/− animals. Therefore, in the current study we compared wildtype (WT) mice to IL-1RI^−/− mice using a variety of hippocampal-dependent learning and memory tasks, as well as tests of anxiety and locomotor activity. We found no difference in performance of the IL-1RI^−/− mice compared to WT mice in a T-maze working memory task. In addition, the IL-1RI^−/− mice showed normal learning in various spatial reference memory tasks including the Y-maze and Morris mater maze, although there was a subtle deficit in choice behaviour in a spatial discrimination, beacon watermaze task. IL-1RI^−/− mice also showed normal memory for visuospatial context in the contextual fear conditioning paradigm. In the open field, IL-1RI^−/− mice showed a significant increase in distance travelled and rearing behaviour compared to the WT mice and in the elevated plus-maze spent more time in the open arms than did the WT animals. The data suggest that, contrary to prior studies, IL-1RI^−/− mice are not robustly impaired on hippocampal-dependent memory and learning but do display open field hyperactivity and decreased anxiety compared to WT mice. The results argue for a careful evaluation of the roles of endogenous IL-1 in hippocampal and limbic system function.     

Proteolytic and N-Glycan Processing of Human α1-Antitrypsin Expressed in Nicotiana benthamiana

Plants are increasingly being used as an expression system for complex recombinant proteins. However, our limited knowledge of the intrinsic factors that act along the secretory pathway, which may compromise product integrity, renders process design difficult in some cases. Here, we pursued the recombinant expression of the human protease inhibitor α1-antitrypsin (A1AT) in Nicotiana benthamiana. This serum protein undergoes intensive posttranslational modifications. Unusually high levels of recombinant A1AT were expressed in leaves (up to 6 mg g⁻¹ of leaf material) in two forms: full-length A1AT located in the endoplasmic reticulum displaying inhibitory activity, and secreted A1AT processed in the reactive center loop, thus rendering it unable to interact with target proteinases. We found that the terminal protein processing is most likely a consequence of the intrinsic function of A1AT (i.e. its interaction with proteases [most likely serine proteases] along the secretory pathway). Secreted A1AT carried vacuolar-type paucimannosidic N-glycans generated by the activity of hexosaminidases located in the apoplast/plasma membrane. Notwithstanding, an intensive glycoengineering approach led to secreted A1AT carrying sialylated N-glycan structures largely resembling its serum-derived counterpart. In summary, we elucidate unique insights in plant glycosylation processes and show important aspects of postendoplasmic reticulum protein processing in plants.Recombinant protein-based drugs are among the fastest growing areas of development in the pharmaceutical industry. Consequently, there is a demand for exploring new production systems. Plants are increasingly being used for the expression of recombinant proteins, primarily because of their remarkable production speed and yield (for review, see Gleba et al., 2014). The highly conserved secretory pathway between human and plant cells allows similar, if not identical, protein folding, assembly, and posttranslational modifications. Importantly, plants are able to synthesize complex N-glycans, a prerequisite for the in vivo activity of many therapeutically interesting proteins. Despite substantial differences in N-glycan diversity, we and others have shown that plants are highly amendable to glycan engineering and allow proteins with controlled human-type N-glycosylation profiles to be generated (Castilho and Steinkellner, 2012). Moreover, it has even been possible to reconstruct entire human glycosylation pathways, which was shown by the introduction of the human sialylation and O-glycosylation processes in Nicotiana benthamiana (Castilho et al., 2010, 2012). These accomplishments render plants suitable for the production of human proteins that require a complex glycosylation profile.Notwithstanding, to use plants as a versatile expression host for complex human proteins, it is important to fully understand intracellular processes. Particularly detailed knowledge about constraints along the plant cell secretory pathway, including proteolytic processing, is required, because these constraints may compromise protein integrity and quality. Despite major achievements in controlling protein-bound oligosaccharide formation, some plant glycosylation peculiarities are not entirely understood. For example, plant cells synthesize so-called paucimannosidic N-glycans, a type of truncated glycans usually absent in mammals (Lerouge et al., 1998). The biosynthesis and physiological significance of this N-glycan formation has yet to be completely explained (Strasser et al., 2007; Liebminger et al., 2011). Another process not fully understood in plants is subcellular localization of proteins. Aberrant intracellular deposition and as a consequence, incorrect glycosylation of recombinant proteins are often reported. For example, recombinant proteins designed for secretion are frequently also located in the endoplasmic reticulum (ER) and as a consequence, carry oligomannosidic carbohydrates instead of the desired complex-type glycans (Loos et al., 2011; Schneider et al., 2014a). By contrast, KDEL-tagged proteins designed for ER retention are sometimes partially secreted (Van Droogenbroeck et al., 2007; Niemer et al., 2014). How and at which biosynthetic stage these plant-specific peculiarities arise are largely unpredictable, which makes controlled expression of recombinant proteins with features authentically to their natural counterparts a difficult task.One human protein that is pharmaceutically interesting, and thus needed in large amounts at high quality, is α1-antitrypsin (A1AT). This highly glycosylated protease inhibitor from the serpin superfamily interacts with a wide variety of proteases (Gettins, 2002). Like other serpins, A1AT is characterized by an exposed and mobile reactive center loop (RCL) with a Met (³⁵⁸M) residue acting as bait for specific target proteinases (Travis and Salvesen, 1983). The main biological role of plasma A1AT is to prevent excessive action of leukocyte-derived Ser proteinases, especially neutrophil elastase, in the circulatory system (Blank and Brantly, 1994). Therapeutic A1AT used in augmentation therapies is currently purified from pooled human serum, and the treatment can cost up to $100,000 per year per patient (Alkins and O’Malley, 2000). Concerns over the supply and safety of the products have urged searches for alternative recombinant sources of A1AT. Recombinant A1AT has been produced in human and nonhuman cell production systems with limited success (Blanchard et al., 2011; Brinkman et al., 2012; Ross et al., 2012; Lee et al., 2013). The production suffers from two major drawbacks: low expression levels and/or incorrect glycosylation (Garver et al., 1987; Chang et al., 2003; McDonald et al., 2005; Hasannia et al., 2006; Karnaukhova et al., 2006; Plesha et al., 2007; Agarwal et al., 2008; Nadai et al., 2009; Huang et al., 2010; Arjmand et al., 2011; Jha et al., 2012). The mature plasma-derived 52-kD protein has three N-linked glycosylation sites that are mainly decorated with disialylated structures (Kolarich et al., 2006). Sialylated N-glycans are a well-known requisite for the plasma half-life of A1AT (Mast et al., 1991; Lindhout et al., 2011; Lusch et al., 2013); the difficulties associated with obtaining them hamper the generation of biologically active A1AT in many expression systems.Here, we pursued the expression of recombinant human A1AT in glycoengineered N. benthamiana and investigated the system’s ability to generate active sialylated variants. Unusually high amounts of A1AT were obtained using a plant viral-based transient expression system. The inhibitor was efficiently secreted to the intercellular space (IF); however, peptide mapping showed that the secreted A1AT was truncated at both the N and C termini. Mass spectrometry (MS) -based N-glycan analysis of IF-derived A1AT showed that vacuolar typical paucimannosidic N-glycans were present. By expressing A1AT in Arabidopsis (Arabidopsis thaliana) knockout plants lacking β-N-acetylhexosaminidase (HEXO) activity (Liebminger et al., 2011), we showed that paucimannosidic structures are generated by the action of HEXO3 located at the plasma membrane.Coexpression with the mammalian genes necessary for in planta sialylation allowed the synthesis of disialylated A1AT, and sialylation levels could be increased by the synthesis of multiantennary glycans. By contrast, full-length A1AT purified from total soluble extracts exhibited ER-typical oligomannosidic carbohydrates. Using live-cell imaging, a GFP-tagged A1AT fusion did, indeed, exhibit aberrant ER-associated deposition of full-length A1AT. Elastase inhibition assays showed that ER-retained A1AT exhibits inhibitory activity, whereas the IF-derived truncated form was rendered inactive by cleavage within its RCL.     

Differentially Expressed in Chondrocytes 2 (DEC2) Increases the Expression of IL-1β and Is Abundantly Present in Synovial Membrane in Rheumatoid Arthritis

Objective

Patients with rheumatoid arthritis (RA) have altered circadian rhythm of circulating serum cortisol, melatonin and IL-6, as well as disturbance in the expression of clock genes ARNTL2 and NPAS2. In humans, TNFα increases the expression ARNTL2 and NPAS2 but paradoxically suppresses clock output genes DPB and PER3. Our objective was to investigate the expression of direct clock suppressors DEC1 and DEC2 (BHLHE 40 and 41 proteins) in response to TNFα and investigate their role during inflammation.

Methods

Cultured primary fibroblasts were stimulated with TNFα. Effects on DEC2 were studied using RT-qPCR and immunofluorescence staining. The role of NF-κB in DEC2 increase was analyzed using IKK-2 specific inhibitor IMD-0354. Cloned DEC2 was transfected into HEK293 cells to study its effects on gene expression. Transfections into primary human fibroblasts were used to confirm the results. The presence of DEC2 was analyzed in (RA) and osteoarthritis (OA) synovial membranes by immunohistochemistry.

Results

TNFα increased DEC2 mRNA and DEC2 was mainly detected at nuclei after the stimulus. The effects of TNFα on DEC2 expression were mediated via NF-κB. Overexpression, siRNA and promoter activity studies disclosed that DEC2 directly regulates IL-1β, in both HEK293 cells and primary human fibroblasts. DEC2 was increased in synovial membrane in RA compared to OA.

Conclusion

Not only ARNTL2 and NPAS2 but also DEC2 is regulated by TNFα in human fibroblasts. NF-κB mediates the effect on DEC2, which upregulates IL-1β. Circadian clock has a direct effect on inflammation in human fibroblasts.     

Linking Human Health and Livestock Health: A “One-Health” Platform for Integrated Analysis of Human Health,Livestock Health,and Economic Welfare in Livestock Dependent Communities

Background

For most rural households in sub-Saharan Africa, healthy livestock play a key role in averting the burden associated with zoonotic diseases, and in meeting household nutritional and socio-economic needs. However, there is limited understanding of the complex nutritional, socio-economic, and zoonotic pathways that link livestock health to human health and welfare. Here we describe a platform for integrated human health, animal health and economic welfare analysis designed to address this challenge. We provide baseline epidemiological data on disease syndromes in humans and the animals they keep, and provide examples of relationships between human health, animal health and household socio-economic status.

Method

We designed a study to obtain syndromic disease data in animals along with economic and behavioral information for 1500 rural households in Western Kenya already participating in a human syndromic disease surveillance study. Data collection started in February 2013, and each household is visited bi-weekly and data on four human syndromes (fever, jaundice, diarrhea and respiratory illness) and nine animal syndromes (death, respiratory, reproductive, musculoskeletal, nervous, urogenital, digestive, udder disorders, and skin disorders in cattle, sheep, goats and chickens) are collected. Additionally, data from a comprehensive socio-economic survey is collected every 3 months in each of the study households.

Findings

Data from the first year of study showed 93% of the households owned at least one form of livestock (55%, 19%, 41% and 88% own cattle, sheep, goats and chickens respectively). Digestive disorders, mainly diarrhea episodes, were the most common syndromes observed in cattle, goats and sheep, accounting for 56% of all livestock syndromes, followed by respiratory illnesses (18%). In humans, respiratory illnesses accounted for 54% of all illnesses reported, followed by acute febrile illnesses (40%) and diarrhea illnesses (5%). While controlling for household size, the incidence of human illness increased 1.31-fold for every 10 cases of animal illness or death observed (95% CI 1.16–1.49). Access and utilization of animal source foods such as milk and eggs were positively associated with the number of cattle and chickens owned by the household. Additionally, health care seeking was correlated with household incomes and wealth, which were in turn correlated with livestock herd size.

Conclusion

This study platform provides a unique longitudinal dataset that allows for the determination and quantification of linkages between human and animal health, including the impact of healthy animals on human disease averted, malnutrition, household educational attainment, and income levels.     

Characterization of Human α4β2 Neuronal Nicotinic Receptors Stably Expressed in SH-EP1 Cells

These studies characterized human alpha4beta2 neuronal nicotinic receptors stably expressed in a human epithelial cell line (SH-EP1). Receptors in transfected SH-EPI-halpha4beta2 cells were functional, as determined by increases in intracellular Ca2+ in response to a nicotine stimulus. Nicotine increased Fura-2 fluorescence in a concentration-dependent manner with an apparent EC50 of 2.4 microM, a response that was blocked by the specific antagonist mecamylamine. When cells were incubated in 50 nM nicotine for 24 hours, the Ca2+ response inactivated by 44%, an effect that recovered within 24 hours. SH-EP1-halpha4beta2 cells expressed a single class of high affinity binding sites for [3H]cytisine with a Kd of 0.63 +/- 0.08 nM and a Bmax of 6,797 +/- 732 femtomoles/mg protein. Incubation of cells with 50 nM nicotine for 24 hours increased the Bmax by 45% without changing affinity, a concentration-dependent effect with an EC50, of 58.6 nM. The nicotine-induced up regulation was reversible, and control values were achieved within 24 hours. Results indicate that SH-EPI-halpha4beta2 cells may be a good model system to study regulation of human alpha4beta2 receptors, the most abundant nicotinic receptor subtype in brain.     

A Microarray Based Genomic Hybridization Method for Identification of New Genes in Plants：Case Analyses of Arabidopsis and Oryza

To systematically estimate the gene duplication events In closely related species, we have to use comparative genomlc approaches, either through genomlc sequence comparison or comparative genomlc hybridization （CGH）. Given the scarcity of complete genomlc sequences of plant species, in the present study we adopted an array based CGH to Investigate gene duplications In the genus Arabldopsls. Fragment genomlc DNA from four species, namely Arabidopsls thallana, A. lyrata subsp, lyrata, A. lyrata subsp, petraea, and A. halleri, was hybridized to Affymetrlx （Santa Clara, CA, USA） tiling arrays that are designed from the genomlc sequences of A. thallana. Pairwlse comparisons of signal intensity were made to infer the potential duplicated candidates along each phylogenetic branch. Ninety-four potential candidates of gene duplication along the genus were Identified. Among them, the majority （69 of 94） were A. thallana lineage specific. This result indicates that the array based CGH approach may be used to Identify candidates of duplication In other plant genera containing closely related species, such as Oryza, particularly for the AA genome species. We compared the degree of gene duplication through retrotransposon between O. satlva and A. thallana and found a strikingly higher number of chimera retroposed genes In rice. The higher rate of gene duplication through retroposltlon and other mechanisms may Indicate that the grass species Is able to adapt to more diverse environments.     

Integrated Delivery of Antiretroviral Treatment and Pre-exposure Prophylaxis to HIV-1–Serodiscordant Couples: A Prospective Implementation Study in Kenya and Uganda

BackgroundAntiretroviral-based interventions for HIV-1 prevention, including antiretroviral therapy (ART) to reduce the infectiousness of HIV-1 infected persons and pre-exposure prophylaxis (PrEP) to reduce the susceptibility of HIV-1 uninfected persons, showed high efficacy for HIV-1 protection in randomized clinical trials. We conducted a prospective implementation study to understand the feasibility and effectiveness of these interventions in delivery settings.ConclusionsIntegrated delivery of time-limited PrEP until sustained ART use in African HIV-1-serodiscordant couples was feasible, demonstrated high uptake and adherence, and resulted in near elimination of HIV-1 transmission, with an observed HIV incidence of <0.5% per year compared to an expected incidence of >5% per year.     

PKCα-Specific Phosphorylation of the Troponin Complex in Human Myocardium: A Functional and Proteomics Analysis

Aims

Protein kinase Cα (PKCα) is one of the predominant PKC isoforms that phosphorylate cardiac troponin. PKCα is implicated in heart failure and serves as a potential therapeutic target, however, the exact consequences for contractile function in human myocardium are unclear. This study aimed to investigate the effects of PKCα phosphorylation of cardiac troponin (cTn) on myofilament function in human failing cardiomyocytes and to resolve the potential targets involved.

Methods and Results

Endogenous cTn from permeabilized cardiomyocytes from patients with end-stage idiopathic dilated cardiomyopathy was exchanged (∼69%) with PKCα-treated recombinant human cTn (cTn (DD+PKCα)). This complex has Ser23/24 on cTnI mutated into aspartic acids (D) to rule out in vitro cross-phosphorylation of the PKA sites by PKCα. Isometric force was measured at various [Ca²⁺] after exchange. The maximal force (F_max) in the cTn (DD+PKCα) group (17.1±1.9 kN/m²) was significantly reduced compared to the cTn (DD) group (26.1±1.9 kN/m²). Exchange of endogenous cTn with cTn (DD+PKCα) increased Ca²⁺-sensitivity of force (pCa₅₀ = 5.59±0.02) compared to cTn (DD) (pCa₅₀ = 5.51±0.02). In contrast, subsequent PKCα treatment of the cells exchanged with cTn (DD+PKCα) reduced pCa₅₀ to 5.45±0.02. Two PKCα-phosphorylated residues were identified with mass spectrometry: Ser198 on cTnI and Ser179 on cTnT, although phosphorylation of Ser198 is very low. Using mass spectrometry based-multiple reaction monitoring, the extent of phosphorylation of the cTnI sites was quantified before and after treatment with PKCα and showed the highest phosphorylation increase on Thr143.

Conclusion

PKCα-mediated phosphorylation of the cTn complex decreases F_max and increases myofilament Ca²⁺-sensitivity, while subsequent treatment with PKCα in situ decreased myofilament Ca²⁺-sensitivity. The known PKC sites as well as two sites which have not been previously linked to PKCα are phosphorylated in human cTn complex treated with PKCα with a high degree of specificity for Thr143.     

Short communication: Concentration of TGF-β1, IL-10 and IL-6 in boar seminal plasma and TGF-β1 level in different fractions of ejaculates

Levels of the cytokines transforming growth factor (TGF)-β1, interleukin (IL)-10 and IL-6 in the boar seminal plasma (SP) as well as TGF-β1 level in different fractions of ejaculate were studied. These cytokines was chosen because of their expected effect on tissue immune response, i.e. suppressive (TGF-β1 and IL-10) and pro-inflammatory (IL-6). Three whole ejaculates from five boars A-E, (n=15) were sampled weekly to evaluate the levels of seminal plasma TGF-β1, IL-10 and IL-6 as well as their fluctuations over time. The effect of different storage temperatures, -20°C or -80°C, on the level of seminal plasma TGF β1 was also tested (three boars, two fractions in one ejaculate). In addition, in 4 different fractions of ejaculates: the pre-sperm-rich (Pre-SRF), first 10 ml of sperm-rich (10SRF), the rest of the sperm-rich fraction (Rest-SRF) and the rest of the ejaculate (RE) fraction, were collected from three boars (A-C) on four different occasions for TGF-β1 evaluation. In the whole ejaculates (n=15), a wide range in the concentration of the cytokines TGF-β1 (20.4 - 766.5 pg/mL) and IL-10, (73.7 - 837.3 pg/mL), was found. For IL-6, the concentration was low (range 11.5 - 30.9 pg/ml) and only detected in four out of 15 collections (from two boars). The mean levels of TGF-β1 and IL-10 between individual boars varied but were not statistical different. The level of TGF-β1 in Pre-SRF, Rest-SRF and RE fractions was significantly lower in boar A than the other boars. A significantly higher concentration of TGF-β1 was found in the 10SRF than in the other fractions. Different storage temperatures (-20°C or -80°C) did not affect the seminal plasma TGF-β1 level after one year of storage. To conclude: Boar seminal plasma contained TGF- β1 and IL-10 but with high individual variation. IL-6 was low or undetectable. The TGF- β1 level was highest in the first 10 mL of the sperm-rich fraction of the ejaculate. Further studies are needed on the role of different levels of cytokine in boar semen on porcine female reproductive tissue, especially for TGF- β1.     

Anti-inflammatory and antiarthritic effects of piperine in human interleukin 1β-stimulated fibroblast-like synoviocytes and in rat arthritis models

Introduction  

The objective of this study was to determine the anti-inflammatory, nociceptive, and antiarthritic effects of piperine, the active phenolic component in black pepper extract.     

Dimer Formation of a Stabilized Gβ1 Variant: A Structural and Energetic Analysis

In previous work, a strongly stabilized variant of the β1 domain of streptococcal protein G (Gβ1) was obtained by an in vitro selection method. This variant, termed Gβ1-M2, contains the four substitutions E15V, T16L, T18I, and N37L. Here we elucidated the molecular basis of the observed strong stabilizations. The contributions of these four residues were analyzed individually and in various combinations, additional selections with focused Gβ1 gene libraries were performed, and the crystal structure of Gβ1-M2 was determined. All single substitutions (E15V, T16L, T18I, and N37L) stabilize wild-type Gβ1 by contributions of between 1.6 and 6.0 kJ mol^− 1 (at 70 °C). Hydrophobic residues at positions 16 and 37 provide the major contribution to stabilization by enlarging the hydrophobic core of Gβ1. They also increase the tendency to form dimers, as shown by dependence on the concentration of apparent molecular mass in analytical ultracentrifugation, by concentration-dependent stability, and by a strongly increased van't Hoff enthalpy of unfolding. The 0.88-Å crystal structure of Gβ1-M2 and NMR measurements in solution provide the explanation for the observed dimer formation. It involves a head-to-head arrangement of two Gβ1-M2 molecules via six intermolecular hydrogen bonds between the two β strands 2 and 2′ and an adjacent self-complementary hydrophobic surface area, which is created by the T16L and N37L substitutions and a large 120° rotation of the Tyr33 side chain. This removal of hydrophilic groups and the malleability of the created hydrophobic surface provide the basis for the dimer formation of stabilized Gβ1 variants.     

Dual Control by Divalent Cations and Mitogenic Cytokines of α4β1 and α5β1 Integrin Avidity Expressed by Human Hemopoietic Cells

Beta-1 integrins have essential functions in hemopoietic and immune systems by controlling phenomenons such as cell homing and cell activation. The function α4β1 and α5β1 integrins is regulated by divalent cations and, as demonstrated more recently, by mitogenic cytokines which activate them by “inside-out” mechanisms. Using the adhesive interaction of a cytokine-dependent human hemopoietic cell line to immobilized fibronectin, we have analyzed the requirements in divalent cations Mn²⁺, Mg²⁺ and Ca²⁺ for α4β1 and α5β1 activation by “inside-out” mechanisms triggered by cytokines such as granulocyte-macrophage colony stimulating factor or KIT ligand, or by external conformational constraints with the function-activating anti-β₁ integrin monoclonal antibody 8A2. The intrinsic difference between these two modes of β₁ integrin activation was revealed by their different requirements in divalent cations. We found that in the absence of any divalent cations, α4β1 and α5β1 were non-functional even after further stimulation by cytokines or 8A2. However, whilst either Ca²⁺, Mg²⁺ or Mn²⁺ were able to restore adhesive functions of α4β1 and α5β1 when activated by 8A2, only Mg²⁺ and Mn²⁺ were able to support activation of α5β1 and α5β1 by cytokines. Furthermore, high concentrations of Ca²⁺ exceeding 20 mM dramatically inhibited cell adhesion to fibronectin induced by Mn²⁺ and cytokines but not by 8A2. On the contrary, in the presence of both Ca²⁺ and Mg²⁺, Mn²⁺ had an additive effect on the activation of α5β1 and α5β1 by mitogenic cytokines. The presence of the absence of these divalent cations did not inhibit early tyrosine phosphorylation induced by the binding of KIT ligand to its tyrosine-kinase receptor KIT. Therefore, we propose that in hemopoietic cells, Ca²⁺, Mg²⁺ and Mn²⁺ may modulate in vivo α4β1 and α5β1 regulation by mitogenic cytokines, a phenomenon involved in the regulation of hemopoietic progenitor cell homing within the bone marrow.     

Synthesis and Cloning of a Gene Encoding Human Interleukin-1β (IL-1β)

Abstract

The design, synthesis and cloning of a 466 base-pair DNA duplex coding for IL-lp is described.