Purification and characterization of three members of the photolyase/cryptochrome family blue-light photoreceptors from Vibrio cholerae

The sequence of Vibrio cholerae genome revealed three genes belonging to the photolyase/cryptochrome blue-light photoreceptor family. The proteins encoded by the three genes were purified and characterized. All three proteins contain folate and flavin cofactors and have absorption peaks in the range of 350-500 nm. Only one of the three, VcPhr, is a photolyase specific for cyclobutane pyrimidine dimers. The other two are cryptochromes and were designated VcCry1 and VcCry2, respectively. Mutation of phr abolishes photoreactivation of UV-induced killing, whereas mutations in cry1 and cry2 do not affect photorepair activity. VcCry1 exhibits some unique features. Of all cryptochromes characterized to date, it is the only one that contains stoichiometric amounts of both chromophores and retains its flavin cofactor in the two-electron reduced FADH2 form. In addition, VcCry1 exhibits RNA binding activity and co-purifies with an RNA of 60-70 nucleotides in length.     

Characterization of recombinant human granulocyte-colony-stimulating factor produced in mouse cells.

Mouse C127I cells were transformed with a chimeric plasmid consisting of bovine papillomavirus DNA and human granulocyte-colony-stimulating factor (G-CSF) cDNA placed under the control of the SV40 early promoter. The transformed cells secreted constitutively a high level of human G-CSF, 10-20 micrograms/ml in a low-serum medium. The secreted G-CSF has been purified to homogeneity by a two-step procedure including gel filtration and hydrophobic column chromatography. The purified recombinant G-CSF runs as a single band with an apparent Mr of 19,000 on a polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. This value corresponds to that of the native human G-CSF purified from the medium conditioned by human carcinoma CHU-2 cells. The recombinant human G-CSF was as active as native G-CSF in vitro in supporting proliferation of mouse NFS-60 cells and stimulating colony formation from human as well as mouse bone marrow cells. When the recombinant human G-CSF was subcutaneously administrated into mice, a remarkable stimulation of granulopoiesis and splenomegaly was observed.     

Characterization of erythropoietin receptor on erythropoietin-unresponsive mouse erythroleukemia cells

A membrane receptor for erythropoietin was identified in various erythropoietin-unresponsive mouse erythroleukemia cells. Scatchard analyses of the binding of human 125I-labeled erythropoietin to T3C1-2-0, K-1, GM86 and 707 cells showed the presence of a single class of binding sites with apparent Kd values of 0.27-0.78 nM, which are slightly higher than those of erythropoietin-responsive cells. The number of binding sites varied from 110 to 930 per cell. Crosslinking of 125I-erythropoietin to its binding sites with disuccinimidyl suberate revealed the existence of a single binding protein with molecular mass of 63 kDa. No binding sites with higher molecular mass, as observed in erythropoietin-responsive cells, were detected, nor was any specific binding observed to the non-erythroid hematopoietic cell or to the human erythroleukemia cells examined.     

Characterization of lactoferrin receptor in brain endothelial capillary cells and mouse brain

We present, herein, the evidence for lactoferrin (Lf) binding sites in brain endothelial capillary cells (BCECs) and mouse brain. The results from confocal microscopy showed the presence of Lf receptors on the surface of BCECs and the receptor-mediated endocytosis for Lf to enter the cells. Saturation binding analyses revealed that Lf receptors exhibited two classes of binding sites in BCECs (high affinity: dissociation constant (K (d)) = 6.77 nM, binding site density (B (max)) = 10.3 fmol bound/mug protein; low affinity: K (d) = 4815 nM, B (max) = 1190 fmol bound/mug protein) and membrane preparations of mouse brain (high affinity: K (d) = 10.61 nM, B (max) = 410 fmol bound/mug protein; low affinity: K (d) = 2228 nM, B (max) = 51641 fmol bound/mug protein). The distribution study indicated the effective uptake of (125)I-Lf in brain after intravenous administration. The present study provides experimental evidence for the application of Lf as a novel ligand for brain targeting.     

Characterization of cis-regulatory elements of the c-myc promoter responding to human GM-CSF or mouse interleukin 3 in mouse proB cell line BA/F3 cells expressing the human GM-CSF receptor.

Interleukin 3 (IL-3) or granulocyte macrophage colony-stimulating factor (GM-CSF) activates c-fos, c-jun, and c-myc genes and proliferation in both hematopoietic and nonhematopoietic cells. Using a series of deletion mutants of the beta subunit of human GM-CSF receptor (hGMR) and inhibitors of tyrosine kinase, two distinct signaling pathways, one for activation of c-fos and c-jun genes, and the other for cell proliferation and activation of c-myc gene have been elucidated. In contrast to wealth of information on the pathway leading to activation of c-fos/c-jun genes, knowledge of the latter is scanty. To clarify the mechanisms of activation of c-myc gene by cytokines, we established a transient transfection assay in mouse proB cell line BA/F3 cells expressing hGMR. Analyses of hGMR beta subunit mutants revealed two cytoplasmic regions involved in activation of the c-myc promoter, one is essential and the other is dispensable but enhances the activity. These regions are located at the membrane proximal and the distal regions covering amino acid positions 455-544 and 544-589, respectively. Characterization of cis-acting regulatory elements of the c-myc gene showed that the region containing the P2 promoter initiation site is sufficient to mediate the response to mIL-3 or hGM-CSF. Electrophoretic mobility shift assay using an oligonucleotide corresponding to the distal putative E2F binding site revealed that p107/E2F complex, the negative regulator of E2F, decreased, and free E2F increased after mIL-3 stimulation. These results support the thesis that mIL-3 or hGM-CSF regulates the c-myc promoter by altering composition of the E2F complexes at E2F binding site.     

Rapid evolution of human pseudoautosomal genes and their mouse homologs

Comparative studies of genes in the pseudoautosomal region (PAR) of human and mouse sex chromosomes have thus far been very limited. The only comparisons that can presently be made indicate that the PARs of humans and mice are not identical in terms of gene content. Here we describe additional comparative studies of human pseudoautosomal genes and their mouse homologs. Using a somatic cell hybrid mapping panel, we have assigned the mouse homolog of the human pseudoautosomal interleukin 3 receptor alpha subunit (IL3RA) gene to mouse Chromosome (Chr) 14. Attempts to clone the mouse homolog of the human pseudoautosomal adenine nucleotide translocase-3 (ANT3) gene resulted in the isolation of the murine homologs of the human ANT1 and ANT2 genes. The mouse Ant1 and Ant2 genes are very similar in sequence to their human homologs, and we have mapped them to mouse Chromosomes (Chrs) (8 and X respectively) that exhibit conserved synteny with the chromosomes on which the human genes are located. In contrast, the homolog of ANT3 appears to be either very divergent or absent from the mouse genome. Southern blot analysis of DNA from a variety of mammalian species shows restricted conservation of human pseudoautosomal genes, a trend that also applies to the two cloned mouse homologs of these genes and to neighboring human genes in distal Xp22.3. Our observations combined with those of other workers lead us to propose a model for the evolution of the PAR that includes both rapid sequence evolution and the incremental reduction in size of the region during mammalian evolution. Received: 4 May 1995 / Accepted: 21 August 1995     

Identification of mouse trp homologs and lipid rafts from spermatogenic cells and sperm.

Intracellular Ca(2+) has an important regulatory role in the control of sperm motility, capacitation, and the acrosome reaction (AR). However, little is known about the molecular identity of the membrane systems that regulate Ca(2+) in sperm. In this report, we provide evidence for the expression of seven Drosophila transient receptor potential homolog genes (trp1-7) and three of their protein products (Trp1, Trp3 and Trp6) in mouse sperm. Allegedly some trps encode capacitative Ca(2+) channels. Immunoconfocal images showed that while Trp6 was present in the postacrosomal region and could be involved in sperm AR, expression of Trp1 and Trp3 was confined to the flagellum, suggesting that they may serve sperm to regulate important Ca(2+)-dependent events in addition to the AR. Likewise, one of these proteins (Trp1) co-immunolocalized with caveolin-1, a major component of caveolae, a subset of lipid rafts potentially important for signaling events and Ca(2+) flux. Furthermore, by using fluorescein-coupled cholera toxin B subunit, which specifically binds to the raft component ganglioside GM1, we identified caveolin- and Trp-independent lipid rafts residing in the plasma membrane of mature sperm. Notably, the distribution of GM1 changes drastically upon completion of the AR.     

Characterization of cytoplasmic glucocorticoid receptor in circulating human mononuclear cells

Human circulating mononuclear leukocytes were shown to have a specific 7.7 S glucocorticoid receptor in the cytoplasm utilizing a 5 to 20% sucrose gradient in low salt. The cytoplasmic receptor was shown to convert to a 4.1 S receptor upon exposure to high salt concentration (0.4 M KCl) or upon translocation to the nucleus. The dissociation constant (Kd) averaged 0.7 nM, the concentration of the cytoplasmic receptor averaged 179 fm/mg protein, and 2404 molecules bound per cell. Progesterone was found to displace 85% of labeled triamcinolone acetonide from the cytoplasmic receptor but no appreciable competition was found for 17β-estradiol or 5α-dihydrotestosterone (DHT). A significant correlation was found between the endogenous serum cortisol concentration and the cytoplasmic receptor capacity when expressed as molecules bound/cell (r = 0.64 p < 0.05).     

Avian homologs of the mammalian low-density lipoprotein receptor family bind minor receptor group human rhinovirus.

Avian oocyte-specific very low density lipoprotein receptor specifically binds human rhinovirus of the minor receptor group on ligand blots and in solution. The solubilized receptor protects cell against infection in a dose-dependent manner.     

DNA photolyase homologs are the major UV resistance factors in the cyanobacterium Synechocystis sp. PCC 6803

In this study, the unicellular photosynthetic cyanobacterium Synechocystis sp. PCC 6803 was used as a model phototroph to study the contribution of enzymatic photoreactivation to the overall protection against UV irradiation. We have isolated genes encoding two DNA photolyase homologs, phrA and phrB, from Synechocystis 6803. phrA encodes an 8-hydroxy-5-deazariboflavin (HDF) type, Class I DNA photolyase. By complementing a photolyase-deficient mutant strain of Escherichia coli, we demonstrated that PhrA is a DNA photolyase. Analysis of a phrA knockout mutant strain suggested that this gene is responsible for the majority of the observed UV resistance in Synechocystis 6803. Similar studies on phrB demonstrated that it also contributes to photoreactivation, but to a much lesser degree. Based on these findings, we conclude that enzymatic photoreactivation is the primary process used for repairing UV-induced damage in Synechocystis 6803.     

Mechanism of induction of mouse erythrocyte receptor switch in human B cells

An early event in phorbol ester-induced maturation of chronic lymphocytic leukemic (CLL) B cells is a membrane change characterized by the inactivation of a mouse erythrocyte receptor (MER). This event, the MER-switch, is quantified by inhibition of rosette formation. By using [3H]phorbol dibutyrate ([3H]PDBu), both to stimulate MER-switch and assay binding of PDBu to CLL cells, it was shown that MER-switch was an irreversible, time-dependent event which occurred some time after maximal binding of [3H]PDBu to cells. Two classes of binding sites, one of high affinity (Kd 1 to 2 nM) at low frequency (1.5 to 5 X 10(4) sites per cell), and a lower affinity site (Kd 33 to 50 nM) of higher frequency (2 to 3.5 X 10(5) sites per cell), were detected. Binding of [3H]PDBu was inhibited by phorbol ester analogs that stimulated MER-switch, but not by inactive analogs. This, and the similarity in shapes of the binding and rosette inhibition curves over a range of concentrations, suggests that stimulation of MER-switch by phorbol esters is due to this specific binding. The phorbol ester receptor and MER are distinct because MER-ve T cells and MER-ve atypical B cells from a patient with CLL had both classes of PDBu receptor. Solubilized MER did not bind [3H]PDBu. Time-course studies, and the irreversibility of the switch, despite removal of most of the bound [3H]PDBu, indicate that inhibition of rosetting is not due to competitive or steric hindrance by phorbol esters. Equivalent activities of soluble MER were released from fresh and phorbol ester-treated CLL cells, indicating a rearrangement of MER, rather than a loss. A supernatant of phytohemagglutinin-stimulated human spleen cells also induced MER-switch in CLL lymphocytes, suggesting that a lymphokine may be a natural inducer of this event.     

Characterization and regulation of alpha-interferon receptor expression in interferon-sensitive and -resistant human lymphoblastoid cells

Interferon-sensitive (IFN-S) and IFN-resistant (IFN-R) Daudi lymphoblastoid cells were studied for IFN-alpha receptor expression and regulation by steady state and kinetic procedures, utilizing a homogeneous 125I-IFN-alpha 2 probe. Heterogeneity in the binding of this probe to IFN-S cells was determined to result from negatively cooperative interactions between an initially homogeneous class of IFN receptor. No such heterogeneity was noted in the IFN-R cells, indicating an apparent difference in the interaction of IFN-alpha 2 with these cells. The apparent dissociation constants (Kd) for IFN-S cell receptors were calculated to be 1 X 10(-10) M and 1 X 10(-8) M, for the high and low affinity sites, respectively. The Kd for sites on the IFN-R cells was estimated to be 4 X 10(-9) M. IFN-R and IFN-S cells expressed 2.4 X 10(4) and 3.5 X 10(4) binding sites per cell, respectively, representing an increase of at least 6-fold over previous reports of IFN-S Daudi IFN receptor density. Both IFN-S and IFN-R cells were capable of down-regulating expression of the IFN-alpha receptor in response to low concentrations of IFN-alpha 2. Furthermore, both cell lines were shown to be capable of internalizing specifically bound 125I-IFN-alpha 2 to an equivalent degree. Accordingly, we propose that the relative insensitivity of the Daudi IFN-R phenotype involves the loss of a high affinity interaction between cellular receptors and IFN-alpha 2, in addition to the reduced level of expressed low affinity binding sites.     

Invertebrate vasopressin/oxytocin homologs. Characterization of peptides from Conus geographus and Conus straitus venoms

The vasopressin-oxytocin family of peptides is of very ancient lineage, found in organisms as diverse as hydra and man. Although these peptides have been intensively studied in vertebrates, the presumably more extensive invertebrate series was defined primarily by immunological methods. In this report, we describe the purification and structures of two peptides of the vasopressin-oxytocin family from molluscs ("Conopressins"), which were found in the venom of fish-hunting marine snails of the genus Conus. The biological activity observed when the two snail peptides are injected intracerebrally into mice is very similar to that elicited by the vertebrate neurohypophyseal hormones and presumably reflects their actions upon a common receptor in the brain. The sequences of the purified peptides reveal unique features not found in the vertebrate peptide series, most notably an additional positive charge. These are the first members of the invertebrate series of the vasopressin-oxytocin family to be characterized biochemically. The sequences of these peptides are: from Conus geographus venom, Lys-conopressin-G, Cys-Phe-Ile-Arg-Asn-Cys-Pro-Lys-Gly-NH2; and from Conus striatus venom, Arg-conopressin-S, Cys-Ile-Ile-Arg-Asn-Cys-Pro-Arg-Gly-NH2.