Isolation and expression of cDNA for different forms of hepatocyte growth factor from human leukocyte

Human leukocyte cDNA library was screened to isolate cDNA clones coding for hepatocyte growth factor using cDNA from human liver as a probe. Nucleotide and deduced amino acid sequences were analyzed for two of four clones obtained. One of them contained an open reading frame coding for a polypeptide chain of 728 amino acid residues like that of cDNA clone derived from human liver. In another clone a spontaneous deletion of 15 base pairs was found within the coding sequence. When expressed transiently using COS-1 cells both clones produced protein with similar biological activity against rat hepatocyte in vitro.     

Identification of a second putative receptor of platelet-activating factor from human polymorphonuclear leukocytes

Due to multiple molecular species of platelet-activating factor (PAF) and the existence of high affinity binding sites in a variety of cells and tissues, possible existence of PAF receptor subtypes has been suggested. This report shows differences between specific PAF receptors in human leukocytes and platelets. Human polymorphonuclear leukocyte membranes showed high affinity binding sites for PAF with an equilibrium dissociation constant (KD) of 4.4 (+/- 0.3) x 10(-10) M. We compared the relative potencies of several PAF agonists and receptor antagonists between human platelet and human leukocyte membranes. One receptor antagonist (Ono-6240) was found to be 6-10 times less potent in inhibiting the specific [3H]PAF receptor binding, PAF-induced GTPase activity, as well as the PAF-induced aggregation in human leukocytes than in human platelets. Mg2+, Ca2+, and K+ ions potentiated the specific [3H]PAF binding in both systems. Na+ and Li+ ions inhibited the specific [3H]PAF binding to human platelets but showed no effects in human leukocytes. K+ ions decreased the Mg2+-potentiated [3H]PAF binding in human leukocytes but showed no effects in human platelets. PAF stimulates the hydrolysis of [gamma-32P] GTP with an ED50 of about 1 nM, whereas the biological inactive enantiomer shows no activity even at 10 microM in both human platelets and human leukocytes. The PAF-stimulated GTPase in human leukocytes can be abolished by the pretreatment of membranes with pertussis toxin and cholera toxin. However, the PAF-stimulated activity of GTPase in human platelets is insensitive to pertussis toxin and cholera toxin. These results suggest that there exists a second type of PAF receptor in human polymorphonuclear leukocytes, which is structurally different from the one characterized in human platelets, and that the guanine nucleotide-binding protein coupled to PAF receptors in human leukocytes is also different from the one in human platelets.     

Molecular cloning, characterization, and genomic localization of a human potassium channel gene.

Potassium (K+) channels are critical for a variety of cell functions, including modulation of action potentials, determination of resting membrane potential, and development of memory and learning. In addition to their role in regulating myocyte excitability, cardiac K+ channels control heart rate and coronary vascular tone and are implicated in the development of arrhythmias. We report here the cloning and sequencing of a k+ channel gene, KCNA1, derived from a human cardiac cDNA library and the chromosomal localization of the corresponding genomic clone. Oligonucleotides based on a delayed rectifier K+ channel gene were used in PCR reactions with human genomic DNA to amplify the S4-S6 regions of several different K+ channel genes. These sequences were used to isolate clones from a human cardiac cDNA library. We sequenced one of these clones, HCK1. HCK1 contains putative S2-S6 domains and shares approximately 70% sequence homology with previously isolated Shaker homologues. HCK1 was used to screen human cosmid libraries and a genomic clone was isolated. By sequencing the genomic clones, a putative S1 domain and translation initiation sequences were identified. Genomic mapping using human-rodent somatic cell panels and in situ hybridization with human metaphase chromosomes have localized KCNA1 to the distal short arm of human chromosome 12. This work is an important step in the study of human cardiac K+ channel structure and function and will be of use in the study of human inherited disease.     

Cloning and structure of the human interleukin 2 chromosomal gene.

Southern hybridization using 32P-labelled human interleukin 2 (IL2) cDNA probes revealed the existence of a single human IL2 gene. Five clones containing the human IL2 chromosomal gene were isolated from two different human DNA libraries cloned in either lambda Charon 4A or L47 phages. Analysis of the clones showed that they contained different, overlapping portions of human DNA which were derived from the same chromosomal segment. Restriction fragments which hybridized with labelled IL2 cDNA probes were subcloned into plasmid pUR250 and the sequence and organization of the IL2 gene was determined. It contains three introns, 90 bp, +/- 2400 bp and +/- 1900 bp in length, respectively. The organization of the genomic clone resembles that of another lymphokine, interferon-gamma, but no clear homology was found by comparing either the coding sequence or the 5'- and 3'-flanking sequences of the two genes.     

Effect of platelet-activating factor receptor expression on CHO cell motility

Tumor cell migration may favor local mass expansion and metastasis dissemination. Several tumors were found to express the receptor for platelet-activating factor (PAF), a potent mediator of leukocyte chemotaxis and endothelial cell migration. However, its functional role on tumor cells is largely unexplored. In the present study, we evaluated the motogenic effect of PAF on Chinese hamster ovarian (CHO) cancer cells transfected with the human PAF-receptor cDNA (CHO PAF-R). By using time-lapse recording, we detected a rapid motogenic response to PAF stimulation on CHO PAF-R, whereas no effect was evident on vector-only transfected cells. Such an effect was observed on scattered cell motility, on cells seeded on a fibronectin- or collagen-coated surface, and on migration of confluent monolayer cells. Cell speed increased at 1 h and was maximal 6-8 h after PAF stimulation on CHO PAF-R. Concomitantly, PAF induced marked changes in cytoskeleton actin distribution with cell contraction, assembling of stress fibers, and polar foci of adhesion. In conclusion, the present study demonstrates that PAF is a potent inducer of tumor cell motility, thus suggesting a role for this mediator in tumor growth and dissemination.     

Recombinant interleukin 4 promotes the growth of human T cells

Recently, we reported the isolation of a cDNA clone that encodes a polypeptide which has B cell and T cell growth factor activities. The amino acid sequence of this polypeptide deduced from the nucleotide sequence of the cDNA clone showed significant homology with mouse B cell stimulating factor-1. Because of its multiple biologic activities, it was designated interleukin 4 (IL-4). Here we describe the effects of supernatants of Cos-7 mouse cells transfected with the IL-4 coding cDNA clone in a mammalian expression vector, on human thymocyte T cells and T cell clones. The T cell growth-promoting effect of IL-4 on preactivated T cells was not inhibited by monoclonal antibodies against IL-2 or the IL-2 receptor, indicating that the IL-4 activity is independent from IL-2 or the IL-2 receptor. IL-4 induces a low proliferative response in thymocytes and peripheral blood lymphocytes, but the response was considerably enhanced by preactivation of the thymocytes or peripheral blood T cells. Both T4+ and T8+ antigen-specific proliferative and cytotoxic T cell clones and T3 natural killer clones proliferated in response to IL-4. But one of six T4+ and one of four T8+ T cell clones were consistently found to be unresponsive. The proliferative responses to IL-4 were always lower than those obtained with IL-2. Most of the T cell clones generally became unresponsive to IL-4 10 days after stimulation, but still responded well to IL-2. These results indicate that the responsiveness to IL-4 is relatively short lasting and is regulated by activation signals. Interestingly, IL-4 acted in synergy with IL-2 in promoting the growth of T cell clones. Our results establish that IL-4 can act as a T cell growth factor independently of IL-2.     

Prediction of the coding sequences of mouse homologues of KIAA gene: IV. The complete nucleotide sequences of 500 mouse KIAA-homologous cDNAs identified by screening of terminal sequences of cDNA clones randomly sampled from size-fractionated libraries.

We have been conducting a mouse cDNA project to predict protein-coding sequences of mouse homologues of human KIAA and FLJ genes since 2001. As an extension of these projects, we herein present the entire sequences of 500 mKIAA cDNA clones and 4 novel cDNA clones that were incidentally identified during this project. We have isolated cDNA clones from the size-fractionated mouse cDNA libraries derived from 7 tissues and 3 types of cultured cells. The average size of the 504 cDNA sequences reached 4.3 kb and that of the deduced amino acid sequences from these cDNAs was 807 amino acid residues. We assigned the integrity of CDSs from the comparison with the corresponding human KIAA cDNA sequences. The comparison of mouse and human sequences revealed that two different human KIAA cDNAs are derived from single genes. Furthermore, 3 out of 4 proteins encoded in the novel cDNA clones showed moderate sequence similarity with human KIAA proteins, thus we could obtain new members of KIAA protein families through our mouse cDNA projects.     

Molecular cloning and nucleotide sequence of the cDNA for human liver glutamate dehydrogenase precursor

Two cDNA clones (lambda GDHh1 and lambda GDHn61) for glutamate dehydrogenase (GDH) were isolated from a human liver cDNA library in lambda gt11. The clone, lambda GDHh1, was isolated from the library using a synthetic 45mer oligodeoxy-ribonucleotide, the sequence of which was derived from the known amino acid sequence near the NH2-terminus of human liver GDH. Subsequently, lambda GDHn61 was isolated from the same library using lambda GDHh1 as a probe. The inserts of both clones contained an overlapping cDNA sequence for human liver GDH, consisting of a 5'-untranslated region of 70 bp, an open reading frame of 1677 bp, a 3'-untranslated region of 1262 bp and a 15 base poly(A) tract. The predicted amino acid sequence revealed that the human liver GDH precursor consisted of a total of 558 amino acid residues including the NH2-terminal presequence of 53 amino acids. The sequence deduced for the mature enzyme showed 94% homology to the previously reported amino acid sequence of human liver GDH.     

Effect of 1-O-octadecyl-2-O-acetyl-sn-glycero-3-phosphocholine (PAF-acether) on leukocytes I. Analysis of the in vitro migration of human neutrophils

The effect of synthetic 1-O-octadecyl-2-O-acetyl-sn-glycero-3-phosphocholine (PAF-acether) and of 1-O-octadecyl-sn-glycero-3-phosphocholine (lyso-PAF-acether) on human neutrophil migration was studied in modified Boyden chambers, with the following results: (1) By checker-board analysis and deactivation experiments, the factors are chemokinetic at low (10^?8 M) and chemotactic at higher concentrations (10^?6 M), with lyso-PAF-acether being less potent at all concentrations. (2) Cross-deactivation occurs between the two PAF compounds, but not with two other chemotactic factors, suggesting a specific, common receptor for the PAFs on the neutrophil membrane. (3) Other chemotactic substances may act as potentiating or additive factors to the PAF compounds. (4) Inhibition of arachidonic acid turnover during chemotaxis by compound BW 755 C enhances leukocyte chemotaxis towards the PAF compounds and towards other chemotactic factors. The data suggest that PAF and its lyso-derivate may contribute in a unique and potent fashion to leukocyte accumulation at inflammatory sites.     

Conditions for the generation of autoreactive human T cell clones: requirement for lymphokines other than interleukin 2 alone

In an attempt to determine whether factors other than interleukin (IL) 2 alone were necessary for the generation of autoreactive suppressive T cell clones, lymphocytes from HLA-Dw-matched allogeneic mixed leukocyte cultures (MLC) were propagated and cloned in purified IL 2, partially purified IL 2, conditioned medium (CM) from stimulated peripheral blood mononuclear cells (PBMC), or with purified IL 2 plus IL 3, IL 4, or interferon-gamma (IFN-gamma). Cloning efficiencies were very low in all cases (less than 10%) and of 48 clones tested only 6 were capable of autocrine proliferation after stimulation with autologous PBMC. Four of these clones were derived from populations expanded and cloned in CM, one from cultures with partially purified IL 2, and one with purified IL 2. All were CD4+ alpha/beta-T cell receptor. Their stimulation was blocked by anti-DR and broadly reactive MHC class II-specific monoclonal antibodies (mAb) but not by anti-DQ or anti-DP mAb. One clone was blocked exclusively by broad mAb but not by anti-DR, -DQ, or -DP mAb, and this was the only clone to suppress lymphocyte proliferation in allogeneic MLC, a property previously described for autoreactive clones derived under similar conditions detecting potentially novel lymphocyte activating determinants designated "DY." These results therefore suggest that DY-specific autoreactive suppressive clones are produced under these conditions only at a low frequency and that an unidentified factor other than IL 2, IL 3, IL 4, or IFN-gamma is involved in their generation.     

Expression of Ca(2+)-induced Ca2+ release channel activity from cardiac ryanodine receptor cDNA in Chinese hamster ovary cells.

We constructed an expression plasmid (pMAMCRR51) that carried the entire protein-coding sequence of the rabbit cardiac ryanodine receptor cDNA, linked to the dexamethasone-inducible mouse mammary tumor virus promoter and Escherichia coli xanthine-guanine phosphoribosyltransferase (gpt). Chinese hamster ovary (CHO) cells were transfected with pMAMCRR51 and mycophenolic acid-resistant cells showing caffeine-induced intracellular Ca2+ transients were selected. Immunoprecipitation with a monoclonal antibody against the canine cardiac ryanodine receptor revealed that the cell clones thus selected exhibited Ca(2+)-dependent [3H]ryanodine binding activity, which was stimulated by 5 mM ATP or 1 M KCl. The apparent dissociation constant (Kd) for [3H]ryanodine was 6.6 nM in 1 M KCl, which was similar to the Kd obtained with cardiac microsomes. Immunoprecipitation also demonstrated that these cell clones expressed a protein indistinguishable in M(r) from the ryanodine receptor in canine cardiac microsomes. The ryanodine binding activity expressed in CHO cells increased significantly after dexamethasone induction. In saponin-skinned CHO cells transfected with pMAMCRR51, micromolar Ca2+ or millimolar caffeine evoked rapid Ca2+ release from the intracellular Ca2+ stores. In skinned control CHO cells, we did not observe such Ca2+ release activity. These results clearly demonstrate that the cardiac ryanodine receptor is stably expressed in internal membranes of CHO cells and functions as Ca(2+)-induced Ca2+ release channels.