Ivermectin-dependent release of IL-1beta in response to ATP by peritoneal macrophages from P2X<Subscript>7</Subscript>-KO mice

The response to ATP of peritoneal macrophages from wild-type (WT) and P2X₇-invalidated (KO) mice was tested. Low concentrations (1–100 μM) of ATP transiently increased the intracellular concentration of calcium ([Ca²⁺]_i) in cells from both mice. The inhibition of the polyphosphoinositide-specific phospholipase C with U73122 inhibited this response especially in WT mice suggesting that the responses coupled to P2Y receptors were potentiated by the expression of P2X₇ receptors. One millimolar ATP provoked a sustained increase in the [Ca²⁺]_i only in WT mice. The response to 10 μM ATP was potentiated and prolonged by ivermectin in both mice. One millimolar ATP increased the influx of extracellular calcium, decreased the intracellular concentration of potassium ([K⁺]_i) and stimulated the secretion of interleukin-1β (IL-1β) only in cells from WT mice. Ten micromolar ATP in combination with 3 μM ivermectin reproduced these responses both in WT and KO mice. The secretion of IL-1β was also increased by nigericin in WT mice and the secretory effect of a combination of ivermectin with ATP in KO mice was suppressed in a medium containing a high concentration of potassium. In WT mice, 150 μM BzATP stimulated the uptake of YOPRO-1. Incubation of macrophages from WT and KO mice with 10 μM ATP resulted in a small increase of YOPRO-1 uptake, which was potentiated by addition of 3 μM ivermectin. The uptake of this dye was unaffected by pannexin-1 blockers. In conclusion, prolonged stimulation of P2X₄ receptors by a combination of low concentrations of ATP plus ivermectin produced a sustained activation of the non-selective cation channel coupled to this receptor. The ensuing variations of the [K⁺]_i triggered the secretion of IL-1β. Pore formation was also triggered by activation of P2X₄ receptors. Higher concentrations of ATP elicited similar responses after binding to P2X₇ receptors. The expression of the P2X₇ receptors was also coupled to a better response to P2Y receptors.     

Spontaneous Cell Fusion in Macrophage Cultures Expressing High Levels of the P2Z/P2X7 Receptor

Mouse and human macrophages express a plasma membrane receptor for extracellular ATP named P2Z/P2X₇. This molecule, recently cloned, is endowed with the intriguing property of forming an aqueous pore that allows transmembrane fluxes of hydrophylic molecules of molecular weight below 900. The physiological function of this receptor is unknown. In a previous study we reported experiments suggesting that the P2Z/P2X₇ receptor is involved in the formation of macrophage-derived multinucleated giant cells (MGCs; Falzoni, S., M. Munerati, D. Ferrari, S. Spisani, S. Moretti, and F. Di Virgilio. 1995. J. Clin. Invest. 95:1207– 1216). We have selected several clones of mouse J774 macrophages that are characterized by either high or low expression of the P2Z/P2X₇ receptor and named these clones P2Zhyper or P2Zhypo, respectively. P2Zhyper, but not P2Zhypo, cells grown to confluence in culture spontaneously fuse to form MGCs. As previously shown for human macrophages, fusion is inhibited by the P2Z/P2X₇ blocker oxidized ATP. MGCs die shortly after fusion through a dramatic process of cytoplasmic sepimentation followed by fragmentation. These observations support our previous hypothesis that the P2Z/P2X₇ receptor is involved in macrophage fusion.     

Pannexin 1 Channels Play Essential Roles in Urothelial Mechanotransduction and Intercellular Signaling

Urothelial cells respond to bladder distension with ATP release, and ATP signaling within the bladder and from the bladder to the CNS is essential for proper bladder function. In other cell types, pannexin 1 (Panx1) channels provide a pathway for mechanically-induced ATP efflux and for ATP-induced ATP release through interaction with P2X₇ receptors (P2X₇Rs). We report that Panx1 and P2X₇R are functionally expressed in the bladder mucosa and in immortalized human urothelial cells (TRT-HU1), and participate in urothelial ATP release and signaling. ATP release from isolated rat bladders induced by distention was reduced by the Panx1 channel blocker mefloquine (MFQ) and was blunted in mice lacking Panx1 or P2X₇R expression. Hypoosmotic shock induced YoPro dye uptake was inhibited by MFQ and the P2X₇R blocker A438079 in TRT-HU1 cells, and was also blunted in primary urothelial cells derived from mice lacking Panx1 or P2X₇R expression. Rinsing-induced mechanical stimulation of TRT-HU1 cells triggered ATP release, which was reduced by MFQ and potentiated in low divalent cation solution (LDPBS), a condition known to enhance P2X₇R activation. ATP signaling evaluated as intercellular Ca²⁺ wave radius was significantly larger in LDPBS, reduced by MFQ and by apyrase (ATP scavenger). These findings indicate that Panx1 participates in urothelial mechanotransduction and signaling by providing a direct pathway for mechanically-induced ATP release and by functionally interacting with P2X₇Rs.     

Complete cDNA Sequence, Genomic Structure, and Chromosomal Localization of the LPA Receptor Gene,lpA1/vzg-1/Gpcr26

Thelp_A1/Gpcr26locus encodes the first cloned and identified G-protein-coupled receptor that specifically interacts with lysophosphatidic acid. A murine full-length cDNA of size consistent with that seen on Northern blots (3.7 kb) was determined using 3′ rapid amplification of cDNA ends. Analysis of genomic clones revealed that the gene is divided into five exons, with one intron inserted in the coding region for transmembrane domain VI and one exon encoding the divergent 5′ sequence in another published cDNA clone variant (orphan receptor mrec1.3). This structure differs from the intronless coding region for a homologous receptor,Edg1,but is identical to another more similar orphan receptor (lp_A2) that has been deposited with GenBank. Using backcross analysis, both exons 1 and 4 mapped to a proximal region of murine Chromosome 4 indistinguishable from the vacillans gene. Exon 4 also mapped to a second locus on proximal Chromosome 6 inMus spretus,and this partial duplication was confirmed by Southern blot. The genomic structure indicates a distinct, divergent evolutionary lineage for thevzg-1/lp_A1subfamily of receptors compared to those of homologous orphan receptor genes.     

The mouse adducin gene family: alternative splicing and chromosomal localization

Mouse cDNA sequences encoding α, β, and γ adducins were cloned from a mouse reticulocyte cDNA library. The purified clones contain alternatively spliced exons from all three adducin genes. In the case of α and β, the inclusion of the alternatively spliced exons results in truncated polypeptide isoforms (called α-2 and β-2). The mouse predicted amino acid sequences are compared with published rat and human sequences. For completion of this comparison, cDNA encoding the rat β-1 carboxy terminus was cloned by PCR. The carboxy terminal region containing MARCKS homology, calmodulin-binding region-2, and spectrin-actin-binding site, is conserved among α-1, β-1, and γ-1 isoforms in mouse, rat, and humans. We also report here the localization of the gene encoding γ adducin (Add3) to murine Chr 19, in a region that shows conserved synteny with human Chr 10. Received: 1 June 1999 / Accepted: 25 August 1999     

Genomic structure and functional expression of a human alpha(2)/delta calcium channel subunit gene (CACNA2).

CACNA2 encodes the alpha(2)/delta subunit of the human voltage-gated calcium channels and is located in the candidate region of malignant hyperthermia susceptibility type 3 (MHS3). We determined the structural organization of CACNA2 by isolation of overlapping genomic DNA clones from a human phage library. The gene consists of at least 40 exons, 2 of which are alternatively spliced, spanning more than 150 kb of genomic DNA. Exons range from 21 to 159 bp, and introns range from 98 bp to at least more than 20 kb. We constructed a full-length cDNA and cloned it into a mammalian expression vector. Cotransfection of the CACNA2 cDNA with alpha(1A) and beta(4) cDNA into HEK293 cells led to the expression of Q-type calcium currents. The alpha(2)/delta subunit enhanced the current density 18-fold compared to cells transfected with only alpha(1A) and beta(4) cDNA. The sequence analysis provides the basis for comprehensive mutation screening of CACNA2 for putative MHS3 individuals and patients with other channelopathies.     

Amphibian Pleurodeles waltl Fibronectin: cDNA Cloning and Developmental Expression of Spliced Variants

Partial cDNA clones encoding approximately the carboxy terminal half of Pleurodeles fibronectin (FN) were isolated. They account for 4.7 Kbp of the 3′ region of the FN mRNA. The cDNA nucleotide sequence comprises all three alternatively spliced segments designated EIIIA, EIIIB and V-segment, respectively. All three segments are included in FN mRNA synthesized during early embryogenesis whereas, from the tailbud stage onward the V-region was partially excluded. The isolation of Pleurodeles cDNA clones including the three different spliced EIIIA, EIIIB and V segment raises new possibilities for the study of the precise role of specific regions of FN in early amphibian development.     

Targeting P2X7 receptor inhibits the metastasis of murine P388D1 lymphoid neoplasm cells to lymph nodes

The P2X₇R (P2X₇ receptor) is an ATP‐gated cation channel expressed in normal cells that participates in both cell proliferation and apoptosis. Here, we have confirmed P2X₇R expression on murine P388D1 lymphoid neoplasm cells. In addition, ATP‐stimulated P2X₇R expression was found to trigger increased intracellular calcium flux. Furthermore, silencing with short hairpin RNA and blocking with P2X₇R antibody significantly reduced the metastasis of P388D1 cells to lymph nodes. These results indicate that inhibition of the expression and function of P2X₇R attenuates the metastatic ability of murine lymphoid neoplasm cell line P388D1, which represents a new potential target for anti‐metastatic therapy.     

Expression of cDNAs encoding mouse cardiac troponin T isoforms: characterization of a large sample of independent clones

We have isolated 52 mouse cardiac troponin-T-encoding cDNA clones (TnT) by specific antibody screening of a λZAPII expression library. Sequencing data from the large sample of independent cDNAs demonstrated relationships among the expression of four alternatively-spliced exons of the cardiac TnT gene, producing seven classes of cDNAs encoding four protein isoforms differing in two variable regions. In the N-terminal variable region and next to the embryonic-specific exon 4, an alternatively spliced exon 3a was identified in 20% of the adult isoforms. The alternatively spliced exon 12, corresponding to a central variable region between the two functional domains of TnT, was found in approx. 79% of the 52 mouse cardiac TnT cDNAs with a single base mutation completely abolishing the splicing at an internal acceptor site. Three novel alternative splicing acceptor sites in the 5'-untranslated portion of exon 2 have been identified with different frequencies.     

Direct Observation of ATP-Induced Conformational Changes in Single P2X4 Receptors

The ATP-gated P2X₄ receptor is a cation channel, which is important in various pathophysiological events. The architecture of the P2X₄ receptor in the activated state and how to change its structure in response to ATP binding are not fully understood. Here, we analyze the architecture and ATP-induced structural changes in P2X₄ receptors using fast-scanning atomic force microscopy (AFM). AFM images of the membrane-dissociated and membrane-inserted forms of P2X₄ receptors and a functional analysis revealed that P2X₄ receptors have an upward orientation on mica but lean to one side. Time-lapse imaging of the ATP-induced structural changes in P2X₄ receptors revealed two different forms of activated structures under 0 Ca²⁺ conditions, namely a trimer structure and a pore dilation-like tripartite structure. A dye uptake measurement demonstrated that ATP-activated P2X₄ receptors display pore dilation in the absence of Ca²⁺. With Ca²⁺, the P2X₄ receptors exhibited only a disengaged trimer and no dye uptake was observed. Thus our data provide a new insight into ATP-induced structural changes in P2X₄ receptors that correlate with pore dynamics.     

Developmentally regulated expression of the P2X3 receptor in the mouse cochlea

ATP-gated non-selective cation channels assembled from P2X₃ receptor subunits contribute to transduction and neurotransmitter signaling in peripheral sensory systems and also feature prominently in the development of the central nervous system. In this study, P2X₃ receptor expression was characterized in the mouse cochlea from embryonic day 18 (E18) using confocal immunofluorescence. From E18 to P6, spiral ganglion neuron cell bodies and peripheral neurites projecting to the inner and outer hair cells were labeled. The inner spiral plexus associated with the inner hair cell synapses had a stronger fluorescence signal than outer spiral bundle fibers which provide the afferent innervation to the outer hair cells. Labeling in the cell bodies and peripheral neurites diminished around P6, and was no longer detected after the onset of hearing (P11, P17, adult). In opposition to the axiom that P2X₃ expression is neuron-specific, inner and outer sensory hair cells were labeled in the base and mid turn region at E18, but at P3 only the outer hair cells in the most apical region of the cochlea continued to express the protein. These data suggest a role for P2X₃ receptor-mediated purinergic signaling in cochlear synaptic reorganization, and establishment of neurotransmission, which occurs just prior to the onset of hearing function.     

Cloning of the murine unconventional myosin gene Myo9b and identification of alternative splicing

We report the cloning of a cDNA for the mouse unconventional myosin Myo9b, the orthologue of the rat myr5 and human MYOIXb genes. A full-length spleen cDNA of 7087 bp encoding a protein of 1961 amino acids was isolated. By RT–PCR, we show that Myo9b is expressed in a wide range of tissues, including heart, brain, muscle and inner ear. In addition, we have identified two alternatively spliced exons. Equivalent exons have not been previously reported for either the human or rat homologues. These exons are located in the Myo9b specific actin-binding site insert of the head domain and in the tail region. A third splice form utilizing an alternative reading frame within the 3′UTR is also described. Several polymorphisms within the coding region were identified; of interest is an in-frame 33 bp imperfect duplication within the tail region that was observed only in the C57Bl/6 strain. Myo9b has been previously mapped to mouse chromosome 8 and is a candidate for the mouse mutations myodystrophy and quinky.     

The P2X7 receptor mediates the uptake of organic cations in canine erythrocytes and mononuclear leukocytes: comparison to equivalent human cell types

We previously demonstrated that canine erythrocytes express the P2X₇ receptor, and that the function and expression of this receptor is greatly increased compared with human erythrocytes. Using ⁸⁶Rb⁺ (K⁺) and organic cation flux measurements, we further compared P2X₇ in erythrocytes and mononuclear leukocytes from these species. Concentration response curves of BzATP- and ATP-induced ⁸⁶Rb⁺ efflux demonstrated that canine P2X₇ was less sensitive to inhibition by extracellular Na⁺ ions compared to human P2X₇. In contrast, canine and human P2X₇ showed a similar sensitivity to the P2X₇ antagonists KN-62 and Mg²⁺. KN-62 and Mg²⁺ also inhibited ATP-induced choline⁺ uptake into canine and human erythrocytes. BzATP and ATP but not ADP or NAD induced ethidium⁺ uptake into canine monocytes, T- and B-cells. ATP-induced ethidium⁺ uptake was twofold greater in canine T-cells compared to canine B-cells and monocytes. KN-62 inhibited the ATP-induced ethidium⁺ uptake in each cell type. P2X₇-mediated uptake of organic cations was 40- and fivefold greater in canine erythrocytes and lymphocytes (T- and B-cells), respectively, compared to equivalent human cell types. In contrast, P2X₇ function was threefold lower in canine monocytes compared to human monocytes. Thus, P2X₇ activation can induce the uptake of organic cations into canine erythrocytes and mononuclear leukocytes, but the relative levels of P2X₇ function differ to that of equivalent human cell types.     

A novel human cytochrome P450 gene (P450IIB): chromosomal localization and evidence for alternative splicing.

We have isolated from a single human liver cDNA library two clones which are highly homologous (78% over the coding region) to the major phenobarbital-inducible P450 from rat (P450IIB1). This is the first direct demonstration of the presence of the P450IIB gene subfamily in humans. This subfamily is much less extensive than the rodent homologues, but does appear to contain at least two genes. Of the cDNA clones isolated one is apparently normally spliced, whereas the other lacks exon 8 and retains all or part of intron 5. Both clones contain transcribed Alu sequences. The human P450IIB gene has been located to chromosome 19q12----19q13.2 using a probe derived from intron 5, and is close to the CYP 2A locus encoding cytochrome P450IIA2. Restriction fragment length polymorphisms have been found with the enzymes BamHI and MspI which will enable linkage to be determined between these two loci.     

Prediction of the coding sequences of mouse homologues of KIAA gene: III. 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 conducted a human cDNA project to predict protein-coding sequences (CDSs) in large cDNAs (> 4 kb) since 1994, and the number of newly identified genes, known as KIAA genes, already exceeds 2000. The ultimate goal of this project is to clarify the physiological functions of the proteins encoded by KIAA genes. To this end, the project has recently been expanded to include isolation and characterization of mouse KIAA-counterpart genes. We herein present the entire sequences and the chromosome loci of 500 mKIAA cDNA clones and 13 novel cDNA clones that were incidentally identified during this project. The average size of the 513 cDNA sequences reached 4.3 kb and that of the deduced amino acid sequences from these cDNAs was 816 amino acid residues. By comparison of the predicted CDSs between mouse and human KIAAs, 12 mKIAA cDNA clones were assumed to be differently spliced isoforms of the human cDNA clones. The comparison of mouse and human sequences also revealed that four pairs of human KIAA cDNAs are derived from single genes. Notably, a homology search against the public database indicated that 4 out of 13 novel cDNA clones were homologous to the disease-related genes.     

Mouse Leydig cells express multiple P2X receptor subunits

ATP acts on cellular membranes by interacting with P2X (ionotropic) and P2Y (metabotropic) receptors. Seven homomeric P2X receptors (P2X₁–P2X₇) and seven heteromeric receptors (P2X_1/2, P2X_1/4, P2X_1/5, P2X_2/3, P2X_2/6, P2X_4/6, P2X_4/7) have been described. ATP treatment of Leydig cells leads to an increase in [Ca²⁺]_i and testosterone secretion, supporting the hypothesis that Ca²⁺ signaling through purinergic receptors contributes to the process of testosterone secretion in these cells. Mouse Leydig cells have P2X receptors with a pharmacological and biophysical profile resembling P2X₂. In this work, we describe the presence of several P2X receptor subunits in mouse Leydig cells. Western blot experiments showed the presence of P2X₂, P2X₄, P2X₆, and P2X₇ subunits. These results were confirmed by immunofluorescence. Functional results support the hypothesis that heteromeric receptors are present in these cells since 0.5 μM ivermectin induced an increase (131.2 ± 5.9%) and 3 μM ivermectin a decrease (64.2 ± 4.8%) in the whole-cell currents evoked by ATP. These results indicate the presence of functional P2X₄ subunits. P2X₇ receptors were also present, but they were non-functional under the present conditions because dye uptake experiments with Lucifer yellow and ethidium bromide were negative. We conclude that a heteromeric channel, possibly P2X_2/4/6, is present in Leydig cells, but with an electrophysiological and pharmacological phenotype characteristic of the P2X₂ subunit.