Lipocortin-I inhibits the synthesis and release of prolactin from human decidual cells: evidence for autocrine/paracrine regulation by lipocortin-I.

The lipocortins are a family of calcium-dependent phospholipid-binding proteins that are induced by glucocorticoids and inhibit phospholipase-A2 activity. To determine whether the lipocortins affect the release of PRL from human decidua, decidual cells from term pregnancies were exposed to recombinant lipocortin-I for 96 h, with medium changes at 24-h intervals. Lipocortin-I (0.01-100 nM) caused a time- and dose-dependent inhibition of PRL release, with a half-maximal effective dose of 50 nM. PRL release was inhibited by 27%, 62%, 93%, and 98% at 24, 48, 72, and 96 h, respectively. The cells exposed to lipocortin-I did not release the enzymes alkaline phosphatase and lactic dehydrogenase, indicating that the inhibitory effect on PRL release was not due to cell death. In addition to inhibiting basal PRL release, lipocortin also completely inhibited the stimulation of PRL release by decidual PRL-releasing factor, a 23.5-kDa protein recently purified from human placenta that stimulates the synthesis and release of decidual, but not pituitary, PRL. Hydrocortisone and dexamethasone (0.1-10 microM) had no effect on PRL release, and arachidonic acid (2-100 microM) inhibited rather than stimulated PRL release. Western blot analysis demonstrated the presence of lipocortin-I in decidual cells and conditioned media. On Northern blot, decidual mRNA hybridized to an oligonucleotide for lipocortin-I. These results strongly suggest that lipocortin-I has an autocrine/paracrine role in regulation of the synthesis and release of PRL from human decidual cells.

Identification and characterization of the small nuclear ribonucleoprotein particle D' core protein.

The addition of urea to sodium dodecyl sulfate (SDS)-polyacrylamide gels has allowed the identification and characterization of the small nuclear ribonucleoprotein particle (snRNP) D' protein and has also improved resolution of the E, F, and G snRNP core proteins. In standard SDS-polyacrylamide gels, the D' and D snRNP core proteins comigrate at approximately 16 kilodaltons. The addition of urea to the separating gel caused the D' protein to shift to a slower electrophoretic mobility that is distinct from that of the D protein. The shift to a slower electrophoretic mobility in the presence of urea suggests that the D' protein has extensive secondary structure that is not totally disrupted by SDS alone. Both N-terminal sequencing and partial peptide maps indicate that the D and D' proteins are distinct gene products, and the sequence data have identified the faster moving of the two proteins as the previously cloned D protein (L. A. Rokeach, J. A. Haselby, and S. O. Hoch, Proc. Natl. Acad. Sci. USA 85:4832-4836, 1988). In the cytoplasm, the D protein is found primarily in the small-nuclear-RNA-free 6S protein complexes, while the D' protein is found primarily in the 20S protein complexes. Like the D protein, the D' protein is an autoantigen in patients with systemic lupus erythematosus and is recognized by some of the Sm class of autoimmune antisera.

Nuclear exchange of the U1 and U2 snRNP-specific proteins.

The snRNP particles include a set of common core snRNP proteins and snRNP specific proteins. In rodent cells the common core proteins are the B, D, D', E, F and G proteins in a suggested stoichiometry of B2D'2D2EFG. The additional U1- and U2-specific proteins are the 70-kD, A and C proteins and the A' and B" proteins, respectively. Previous cell fractionation and kinetic analysis demonstrated the snRNP core proteins are stored in the cytoplasm in large partially assembled snRNA-free intermediates that assemble with newly synthesized snRNAs during their transient appearance in the cytoplasm (Sauterer, R. A., R. J. Feeney, and G. W. Zieve. 1988. Exp. Cell Res. 176:344-359). This report investigates the assembly and intracellular distribution of the U1 and U2 snRNP-specific proteins. Cell enucleation and aqueous cell fractionation are used to prepare nuclear and cytoplasmic fractions and the U1- and U2-specific proteins are identified by isotopic labeling and immunoprecipitation or by immunoblotting with specific autoimmune antisera. The A, C, and A' proteins are found both assembled into mature nuclear snRNP particles and in unassembled pools in the nucleus that exchange with the assembled snRNP particles. The unassembled proteins leak from isolated nuclei prepared by detergent extraction. The unassembled A' protein sediments at 4S-6S in structures that may be multimers. The 70-kD and B" proteins are fully assembled with snRNP particles which do not leak from isolated nuclei. The kinetic studies suggest that the B" protein assembles with the U2 particle in the cytoplasm before it enters the nucleus.

Cytoplasmic assembly and nuclear accumulation of mature small nuclear ribonucleoprotein particles.

The assembly pathway of small nuclear ribonucleoprotein (snRNP) particles in the cytoplasm of L929 mouse fibroblasts was analyzed by observing the nuclear accumulation of snRNP proteins. Immunoprecipitations of nuclear and cytoplasmic fractions after a pulse label and chase indicate that the snRNP D, E, F, and G proteins assemble first, followed by the small nuclear RNA (snRNA), then the snRNP B protein and, in the case of the U1 snRNP, the A and C proteins. The snRNP B' protein is not detected in the L929 cells. The U1-specific A and C proteins can enter the nucleus in the absence of snRNP assembly, suggesting that these proteins exchange on the mature nuclear snRNP particles. Two-dimensional electrophoresis using nonequilibrium pH gradient electrophoresis identifies the A, B, B", C, D, E, F, and G proteins in a distribution similar to that reported previously by immunoprecipitation (Sauterer, R. A., and Zieve, G. W. (1989) J. Biol. Chem., submitted for publication). The D protein appears in multiple isoelectric variants in the cytoplasm and shifts toward more basic variants during maturation. Kinetic experiments analyzed by two-dimensional electrophoresis indicate a quantitative maturation of the cytoplasmic B protein into nuclear particles. Quantitative densitometry of immunoprecipitated stable nuclear snRNPs labeled with [35S] methionine corrected for the published methionine content of the A, B, C, D, and E proteins indicates that the mature nuclear U1 snRNP probably contains four copies of D, two copies each of B, C, and A, and one copy of E.

Cytoplasmic assembly of snRNP particles from stored proteins and newly transcribed snRNA's in L929 mouse fibroblasts.

Newly synthesized snRNAs appear transiently in the cytoplasm where they assemble into ribonucleoprotein particles, the snRNP particles, before returning permanently to the interphase nucleus. In this report, bona fide cytoplasmic fractions, prepared by cell enucleation, are used for a quantitative analysis of snRNP assembly in growing mouse fibroblasts. The half-lives and abundances of the snRNP precursors in the cytoplasm and the rates of snRNP assembly are calculated in L929 cells. With the exception of U6, the major snRNAs are stable RNA species; U1 is almost totally stable while U2 has a half-life of about two cell cycles. In contrast, the majority of newly synthesized U6 decays with a half-life of about 15 h. The relative abundances of the newly synthesized snRNA species U1, U2, U3, U4 and U6 in the cytoplasm are determined by Northern hybridization using cloned probes and are approximately 2% of their nuclear abundance. The half-lives of the two major snRNA precursors in the cytoplasm (U1 and U2) are approximately 20 min as determined by labeling to steady state. The relative abundance of the snRNP B protein in the cytoplasm is determined by Western blotting with the Sm class of autoantibodies and is approximately 25% of the nuclear abundance. Kinetic studies, using the Sm antiserum to immunoprecipitate the methionine-labeled snRNP proteins, suggest that the B protein has a half-life of 90 to 120 min in the cytoplasm. These data are discussed and suggest that there is a large pool of more stable snRNP proteins in the cytoplasm available for assembly with the less abundant but more rapidly turning-over snRNAs.

Newly synthesized small nuclear RNAs appear transiently in the cytoplasm.

Newly synthesized small nuclear RNA (snRNA) species U1 and U2 are easily identified in cytoplasmic fractions prepared by standard aqueous cell fractionation. However, because the mature stable snRNA species leak from isolated nuclei during cell fractionation, the possibility exists that these newly synthesized species also leak from the nucleus. To overcome the problems of nuclear leakage, mouse L929 cells were fractionated by cell enucleation. Enucleation extrudes the nuclei from cytochalasin-treated cells and produces cytoplasts that, by several criteria, are a bona fide cytoplasmic fraction uncontaminated by nuclear material. All six of the major snRNAs are present in the cytoplasts (c-snRNAs) shortly after synthesis. The species are identified by immunoprecipitation with specific antisera against the ribonucleoproteins and by Northern blotting and hybrid selection using cloned probes. This confirms and extends similar studies that used non-aqueous cell fractionation and manual dissection to overcome nuclear leakage. Kinetic studies demonstrate that the c-snRNAs return to the interphase nucleus after approximately 20 minutes in the cytoplasm. The U2 precursor U2' is processed to mature-sized U2 in the cytoplast fractions before returning to the nucleus. The c-snRNAs occur in ribonucleoprotein particles with similar antigenicity to the mature nuclear particles within six minutes of transcription. This suggests that in mammalian cells, important steps in the assembly of these ribonucleoproteins occur in the cytoplasm.

Cordycepin disrupts the microtubule networks and arrests Nil 8 hamster fibroblasts at the onset of mitosis.

The nucleoside analogue 3'-deoxyadenosine (cordycepin) arrests dividing cells at the onset of mitosis in prometaphase. The microtubules in the arrested prometaphase cells depolymerize to two small asters. A minimum of 80 micrograms/ml cordycepin or 20 micrograms/ml cordycepin in combination with 2 micrograms/ml of the deaminase inhibitor erythro-9-(2-hydroxy-3-nonyl) adenosine (EHNA) to inhibit its degradation is required to see these effects. Analysis of cell extracts by high-pressure liquid chromatography indicates that cordycepin enters the cells rapidly and is phosphorylated to 3'-dATP. The intracellular concentration rises almost linearly from 0.7 mM after 15 min to 7 mM by 210 min. Concomitantly the ATP concentration shows a rapid drop from the 4 mM present in controls. However, the direct reduction of ATP levels does not mimic the same rapid effects of cordycepin on the microtubules. In addition, similar effects are not produced by a variety of other adenosine analogues with alterations in the 2' and 3' ribose positions. Although other pharmacological reagents arrest cells at the onset of mitosis, cordycepin is unusual because of the collapse of the microtubule networks to two small asters that radiate from the microtubule-organizing center. 3'-dATP can replace the requirement for ATP or GTP in the vitro polymerization of microtubules from microtubule protein: however, at limiting concentrations of nucleotide it requires approximately two times the concentration of 3'-dATP as ATP to support an equivalent level of microtubule polymerization. This suggests that the effects of cordycepin in vivo may be the result of the depletion of cellular ATP pools and the altered ability of 3'dATP to substitute for ATP-dependent reactions. Current experiments are testing this hypothesis.

An ergonomic assessment of BS 5810: 1979 access for the disabled to buildings, through a survey of architects.

This article describes a project which was undertaken to assess the British Standard 5810: 1979 Access for the Disabled to Buildings, with a view to it being improved at the next review. This code of practice 'concentrates on the essential provisions that need to be incorporated in buildings to ensure that they are conveniently usable by disabled people'. The aim of the project was to make suggestions for improvements to the Standard, both qualitatively and in its range of provision, by discovering what additional data, if any, architects require, what level of detail they need and the preferred method of presentation. Research was also undertaken to ascertain whether the information contained in the Standard is based on empirical data. The project involved a literature search, sending postal questionnaires to architects and visiting architectural practices to complete structured interviews. The method used, the results and the conclusions on how the British Standard could be improved are described.

Powered domestic lawnmowers: design for safety.

The paper describes a detailed accident investigation carried out by the Institute for Consumer Ergonomics for the Consumer Safety Unit at the Department of Trade. As such it serves to illustrate the application of two specific research techniques (i) analysis of product related accident data, and (ii) ergonomics evaluation of current models - and shows how these may be used to help in defining standards and criteria for the design of safer products. The study identified lawnmower features and activities associated with accidents recorded by the Home Accident Surveillance System. Ergonomics appraisal by expert assessment and user trials highlighted hazards associated with currently available powered lawnmowers. Performance criteria for safer design of selected features were developed with the aim of overcoming these hazards. At the end of the study liaison was sought with manufacturers to discuss how the results from the work could be used to effect.