Secondary literature sources for MORN

The following references were automatically generated.

Ito K et al.
Deficiency of triad junction and contraction in mutant skeletal muscle lacking junctophilin type 1.
J Cell Biol. 2001; 154: 1059-67
Display abstract
In skeletal muscle excitation-contraction (E-C) coupling, the depolarization signal is converted from the intracellular Ca2+ store into Ca2+ release by functional coupling between the cell surface voltage sensor and the Ca2+ release channel on the sarcoplasmic reticulum (SR). The signal conversion occurs in the junctional membrane complex known as the triad junction, where the invaginated plasma membrane called the transverse-tubule (T-tubule) is pinched from both sides by SR membranes. Previous studies have suggested that junctophilins (JPs) contribute to the formation of the junctional membrane complexes by spanning the intracellular store membrane and interacting with the plasma membrane (PM) in excitable cells. Of the three JP subtypes, both type 1 (JP-1) and type 2 (JP-2) are abundantly expressed in skeletal muscle. To examine the physiological role of JP-1 in skeletal muscle, we generated mutant mice lacking JP-1. The JP-1 knockout mice showed no milk suckling and died shortly after birth. Ultrastructural analysis demonstrated that triad junctions were reduced in number, and that the SR was often structurally abnormal in the skeletal muscles of the mutant mice. The mutant muscle developed less contractile force (evoked by low-frequency electrical stimuli) and showed abnormal sensitivities to extracellular Ca2+. Our results indicate that JP-1 contributes to the construction of triad junctions and that it is essential for the efficiency of signal conversion during E-C coupling in skeletal muscle.

Motohashi T et al.
Molecular cloning and chromosomal mapping of a novel five-span transmembrane protein gene, M83.
Biochem Biophys Res Commun. 2000; 276: 244-50
Display abstract
In an attempt to identify novel transmembrane molecules expressed on hematopoietic cells, we identified a novel transmembrane protein gene, M83. Cloning of the full-length cDNAs of human and mouse M83 revealed that M83 encodes a type I transmembrane protein with a region containing five hydrophobic segments within the C-terminal part of the protein, suggesting that M83 is a five-span transmembrane molecule. The M83 protein was expressed on the cell surface as a glycosylated protein with a molecular mass of 84 kDa. The M83 gene was localized to human chromosome 16p13.3, mouse chromosome 17B1, and rat chromosome 10q12.3 distal. In human, M83 mRNA was highly expressed in placenta, pancreas, and lymphohematopoietic tissues including peripheral blood, spleen, and bone marrow. Among hematopoietic cells, it was highly expressed in resting T lymphocytes and was downregulated by cell activation, suggestive of its biological role related to the T cell resting status.

Wielowieyski PA, Sevinc S, Guzzo R, Salih M, Wigle JT, Tuana BS
Alternative splicing, expression, and genomic structure of the 3' region of the gene encoding the sarcolemmal-associated proteins (SLAPs) defines a novel class of coiled-coil tail-anchored membrane proteins.
J Biol Chem. 2000; 275: 38474-81
Display abstract
The sarcolemmal associated proteins (SLAPs) are encoded by multiple mRNAs that are presumably generated by alternative splicing mechanisms. The amino acid sequence of the SLAP1 isoform exhibited 76% identity with TOP(AP), a topographically graded antigen of the chick visual system. The regions of coiled-coil structure including an 11-heptad acidic amphipathic alpha-helical segment was conserved with a major divergence in sequence noted in the hydrophobic C termini predicted to be transmembrane domains in the two polypeptides. The genomic organization of the 3' region of the SLAP gene indicated that SLAP1 and TOP(AP) are generated by alternative splicing mechanisms, which are conserved among mammalian and avian species. SLAP1/TOP(AP) were encoded by 11 exons distributed over a minimum of 35 kilobase pairs of continuous DNA; 9 of the exons were constitutively expressed, and 2 were alternatively spliced. The exons range in size from 60 to 321 base pairs, and the predicted functional domains within the polypeptides were encompassed by single exons. The introns vary from 0.2 to 10 kilobase pairs and conform to consensus dinucleotide splicing signals. Reverse transcriptase-polymerase chain reaction studies demonstrated that alternative exons (IV and X) of SLAP were expressed in a tissue-specific fashion and developmentally regulated. The alternatively spliced exon X, which encodes the putative transmembrane anchor in TOP(AP), and a constitutively expressed exon XI, which encodes the putative transmembrane domain in SLAP, were found to target these polypeptides to membrane structures. The presence and conservation of termination codons in exons X and XI render expression of the two SLAP1/TOP(AP) transmembrane domains mutually exclusive. These data reveal that TOP(AP) and SLAP are alternatively spliced products of a single gene that encodes a unique class of tail-anchored membrane proteins.

Edgar AJ, Polak JM
Human homologues of yeast vacuolar protein sorting 29 and 35.
Biochem Biophys Res Commun. 2000; 277: 622-30
Display abstract
In the yeast Saccharomyces cerevisiae, a membrane coat complex is required for endosome to Golgi retrograde transport. The vacuolar protein sorting proteins Vps29p, Vps35p, and Vps26p are required for pre-vacuolar/late endosome to Golgi retrieval of the vacuolar hydrolase receptor Vps10p. They form a cargo recognition and concentration subcomplex, termed the inner shell of the retromer coat, prior to vesicle formation by the addition of the membrane-deforming outer shell. We have cloned the human and murine homologues of yeast Vps29p and the human homologue of Vps35p. They encode 182 and 796 residue proteins, with 43 and 29% identity to their respective yeast. The 10.5 kb, 5 exon, VPS29 gene is located on chromosome 12q24 and the 29.6 kb, 17 exon, VPS35 gene is on chromosome 16. In humans, Vps29p, Vps35p, and Hbeta58, the homologue of Vps26p, may form an inner shell of the retromer coat similar to that found in yeast.

Tiede A, Nischan C, Schubert J, Schmidt RE
Characterisation of the enzymatic complex for the first step in glycosylphosphatidylinositol biosynthesis.
Int J Biochem Cell Biol. 2000; 32: 339-50
Display abstract
The mammalian N-acetylglucosaminyl transferase for the first step in glycosylphosphatidylinositol biosynthesis has been shown to consist of at least four components: PIG-A, PIG-C, PIG-H and GPI1. Here, the enzymatic complex is further characterised. PIG-A protein, which is thought to represent the catalytic subunit of the complex, was expressed in an epitope-tagged form in the PIG-A deficient JY5 lymphoblastoid cell line. Subcellular localisation of this protein was studied using immunofluorescence and immunoelectron microscopy. The protein was localised to both perinuclear and mitochondria-associated lamellae of the endoplasmic reticulum. Using affinity chromatography, epitope-tagged PIG-A protein was partially purified. To identify regions that might be involved in the catalytic process, computer-aided comparison was performed between PIG-A and 26 distantly related glycosyl transferases. A number of residues in the membrane-proximal region of the cytoplasmic domain (230-340) were found highly conserved. Finally, a topological model of the four partners participating in the enzymatic complex is introduced to provide a working model for further structural and functional analysis.

Tanimura A, Tojyo Y, Turner RJ
Evidence that type I, II, and III inositol 1,4,5-trisphosphate receptors can occur as integral plasma membrane proteins.
J Biol Chem. 2000; 275: 27488-93
Display abstract
A number of previous reports have suggested that inositol 1,4, 5-trisphosphate receptors (IP(3)Rs) are present in the plasma membranes of cells. We confirm this directly in the present study by demonstrating that a significant proportion of the IP(3)Rs found in A431 cells, Jurkat cells, and rat parotid acini can be biotinylated by the extracellular application of sulfo-N-hydroxysuccinimide-biotin to intact cells. This labeling cannot be accounted for by the reaction of sulfo-N-hydroxysuccinimide-biotin with intracellular IP(3)Rs since calnexin and the SERCA2 ATPase, both integral membrane proteins of the endoplasmic reticulum, are not labeled under the same experimental conditions. Individual IP(3)R subtypes were detected using subtype-specific antibodies. A431 cells expressed only the type-3 IP(3)R, and 23% of this protein was in the biotinylated (plasma membrane) fraction. Jurkat cells and rat parotid cells expressed all three IP(3)R subtypes. Contrary to earlier results suggesting that only the type-3 IP(3)R might localize to the plasma membrane, we found that significant amounts (5-14%) of all three subtypes could be identified in the biotinylated fractions of Jurkat and rat parotid cells. Our results suggest a role for IP(3)Rs in plasma membrane as well as intracellular membrane function.

Laplante JM, O'Rourke F, Lu X, Fein A, Olsen A, Feinstein MB
Cloning of human Ca2+ homoeostasis endoplasmic reticulum protein (CHERP): regulated expression of antisense cDNA depletes CHERP, inhibits intracellular Ca2+ mobilization and decreases cell proliferation.
Biochem J. 2000; 348: 189-99
Display abstract
A monoclonal antibody which blocks InsP(3)-induced Ca(2+) release from isolated endoplasmic reticulum was used to isolate a novel 4.0 kb cDNA from a human erythroleukaemia (HEL) cell cDNA expression library. A corresponding mRNA transcript of approx. 4.2 kb was present in all human cell lines and tissues examined, but cardiac and skeletal muscle had an additional transcript of 6.4 kb. The identification in GenBank(R) of homologous expressed sequence tags from many tissues and organisms suggests that the gene is ubiquitously expressed in higher eukaryotes. The gene was mapped to human chromosome 19p13.1. The cDNA predicts a 100 kDa protein, designated Ca(2+) homoeostasis endoplasmic reticulum protein (CHERP), with two putative transmembrane domains, multiple consensus phosphorylation sites, a polyglutamine tract of 12 repeats and regions of imperfect tryptophan and histadine octa- and nona-peptide repeats. In vitro translation of the full-length cDNA produced proteins of M(r) 128000 and 100000, corresponding to protein bands detected by Western blotting of many cell types. CHERP was co-localized in HEL cells with the InsP(3) receptor by two-colour immunofluorescence. Transfection of HEL cells with antisense cDNA led to an 80% decline in CHERP within 5 days of antisense induction, with markedly decreased intracellular Ca(2+) mobilization by thrombin, decreased DNA synthesis and growth arrest, indicating that the protein has an important function in Ca(2+) homoeostasis, growth and proliferation.

Tanaka K, Okabayashi K, Asashima M, Perrimon N, Kadowaki T
The evolutionarily conserved porcupine gene family is involved in the processing of the Wnt family.
Eur J Biochem. 2000; 267: 4300-11
Display abstract
The Drosophila segment polarity gene product Porcupine (Porc) was first identified as being necessary for processing Wingless (Wg), a Drosophila Wnt (Wnt) family member. Mouse and Xenopus homologs of porc (Mporc and Xporc) were identified and found to encode endoplasmic reticulum (ER) proteins with multiple transmembrane domains. In contrast with porc, four different types of Mporc and Xporc mRNA (A-D) are generated from a single gene by alternative splicing. Mporc mRNA is differentially expressed during embryogenesis and in various adult tissues, demonstrating that the alternative splicing is regulated to synthesize the specific types of Mporc. In transfected mammalian cells, all Mporc types affect the processing of mouse Wnt 1, 3A, 4, 6, and 7B but not 5A. Furthermore, all Mporc types are co-immunoprecipitated with various Wnt proteins. These results suggest that Mporc may function as a chaperone-like molecule for Wnt. Interestingly, all Mporc types can substitute for Porc, as they are able to rescue the phenotypes of Drosophila porc embryos. Consistent with this observation, Mporc, like Porc, modifies the processing of Wg expressed in mammalian cells. These results demonstrate that the porc gene family encodes the multitransmembrane ER proteins, which are evolutionarily well conserved and involved in processing the Wnt family.

Cheadle JP et al.
Genomic organization and comparative analysis of the mouse tuberous sclerosis 1 (Tsc1) locus.
Mamm Genome. 2000; 11: 1135-8

Tanaka H, Takeya R, Sumimoto H
A novel intracellular membrane-bound calcium-independent phospholipase A(2).
Biochem Biophys Res Commun. 2000; 272: 320-6
Display abstract
We have cloned human cDNA encoding a novel protein of 782 amino acids that contains the lipase consensus sequence Gly-Xaa-Ser-Xaa-Gly and several stretches surrounding the motif, which are homologous to those of the catalytic domain of cytosolic calcium-independent phospholipase A(2) (iPLA(2)). When expressed in COS-7 cells, the protein predominantly exists in the membrane fraction and exhibits a phospholipase A(2) activity in a calcium-independent manner. The transcript of the membrane-bound iPLA(2) gene is ubiquitously observed as a single band of approximately 3.3 kb on Northern blot, with the most abundant expression in the skeletal muscle and heart. By a search of the database, we have also identified its putative C. elegans homologue, which shows 47% identity with that of human in the iPLA(2) catalytic region. Thus the novel type of iPLA(2) is evolutionarily well conserved, suggestive of its biological significance.

Andree B et al.
Isolation and characterization of the novel popeye gene family expressed in skeletal muscle and heart.
Dev Biol. 2000; 223: 371-82
Display abstract
We identified a novel gene family in vertebrates which is preferentially expressed in developing and adult striated muscle. Three genes of the Popeye (POP) family were detected in human and mouse and two in chicken. Chromosomal mapping indicates that Pop1 and Pop3 genes are clustered on mouse chromosome 10, whereas Pop2 maps to mouse chromosome 16. We found evidence that POP1 and POP3 in chicken may also be linked and multiple transcript isoforms are generated from this locus. The POP genes encode proteins with three potential transmembrane domains that are conserved in all family members. Individual POP genes exhibit specific expression patterns during development and postnatally. Chicken POP3 and mouse Pop1 are first preferentially expressed in atrium and later also in the subepicardial compact layer of the ventricles. Chicken POP1 and mouse Pop2 are expressed in the entire heart except the outflow tract. All three Pop genes are expressed in heart and skeletal muscle of the adult mouse and lower in lung. Pop1 and Pop2 expression is upregulated in uterus of pregnant mice. Like the mouse genes, human POP genes are predominantly expressed in skeletal and cardiac muscle. The strong conservation of POP genes during evolution and their preferential expression in heart and skeletal muscle suggest that these novel proteins may have an important function in these tissues in vertebrates.

Kile BT et al.
Cloning and characterization of the genes encoding the ankyrin repeat and SOCS box-containing proteins Asb-1, Asb-2, Asb-3 and Asb-4.
Gene. 2000; 258: 31-41
Display abstract
Members of the suppressor of cytokine signalling (SOCS) family of proteins have been shown to inhibit cytokine signalling via direct interactions with JAK kinases or activated cytokine receptors. In addition to their novel amino-terminal regions and SH2 domains that mediate these interactions, the SOCS proteins also contain carboxy-terminal regions of homology called the SOCS box. The SOCS box serves to couple SOCS proteins and their binding partners with the elongin B and C complex, possibly targeting them for degradation. Several other families of proteins also contain SOCS boxes but differ from the SOCS proteins in the type of domain or motif they contain upstream of the SOCS box. We report here the cloning, characterization, mapping and expression analysis of four members of the ankyrin repeat and SOCS box-containing (Asb) protein family.

Wiedmer T, Zhou Q, Kwoh DY, Sims PJ
Identification of three new members of the phospholipid scramblase gene family.
Biochim Biophys Acta. 2000; 1467: 244-53
Display abstract
Phospholipid (PL) scramblase is a 35 kDa protein that is thought to mediate Ca2+-induced bidirectional transbilayer movement of plasma membrane phospholipids in activated, injured, or apoptotic cells. We recently reported the molecular cloning of a PL scramblase of human (HuPLSCR1) and mouse origin, respectively. In the present study, the gene for HuPLSCR1 was cloned from a human genomic library. The gene size is 29.7 kb and includes nine exons. Analysis of the 5' flanking genomic sequence with luciferase reporter constructs located the promoter to a region spanning from -95 to +60 of the first (untranslated) exon. Furthermore, we report the molecular cloning of three additional novel cDNAs encoding proteins with high homology to HuPLSCR1. The predicted open reading frames encode proteins with 59% (HuPLSCR2; 224 aa), 47% (HuPLSCR3; 295 aa) and 46% (HuPLSCR4; 329 aa) identity, respectively, to HuPLSCR1. All members of the PLSCR gene family conserve those residues contained in the segment of the PLSCR1 polypeptide that was previously shown to bind Ca2+. With the exception of HuPLSCR2, these proteins also each contain multiple PXXP motifs and a PPXY motif located near the N-terminus, implying the potential for interaction with SH3 or WW domain-containing proteins, respectively. HuPLSCR1, 2, and 4 were found to be closely clustered on chromosome 3 (3q23), whereas HuPLSCR3 is located on chromosome 17. Northern blots revealed that the expression of HuPLSCR2 is restricted to testis, whereas HuPLSCR1, 3 and 4 are expressed in most of the 16 tissues examined. Notable exceptions were HuPLSCR4, which was not detected in peripheral blood lymphocytes, and HuPLSCR1 and HuPLSCR3, which were not detected in brain.

Gutierrez A, Sanchez-Lopez R, Ramos MA, Alagon A
Cloning of the Entamoeba histolytica STT3 gene, a subunit of the oligosaccharyltransferase complex.
Arch Med Res. 2000; 31: 1624-1624

Zhang P et al.
Cloning and characterization of human VPS35 and mouse Vps35 and mapping of VPS35 to human chromosome 16q13-q21.
Genomics. 2000; 70: 253-7
Display abstract
Maintenance of different organelles in eukaryotic cells depends on sorting proteins, which ensure the proper delivery of organelle-specific proteins. The studies on yeast (Saccharomyces cerevisiae) VPS35, a hydrophilic membrane protein having a direct role in the retrieval of cargo proteins, suggest a mechanism underlying a possible lysosomal protein-sorting pathway in mammalian cells. Here, we report the isolation of human and mouse VPS35 cDNAs, which are 3208 and 3186 bp in length, respectively. The deduced proteins of the two cDNAs, which are both composed of 796 amino acids and share 99% identity, show homology to yeast VPS35 and other VPS35 homologues of various sources ranging from Schizosaccharomyces pombe to Drosophila melanogaster (31-56% identity and 49-71% similarity), especially in their amino- and carboxyl-termini. The conservation of VPS35 suggests that the function of this class of protein is important. The results of Northern hybridization of human VPS35 in 16 tissues showed that one transcript of 3.6 kb was highly expressed in brain, heart, testis, ovary, small intestine, spleen, skeletal muscle, and placenta and expressed at moderate or low levels in other tissues. Another transcript of 3.0 kb was also expressed with proportionally lower levels than the 3.6-kb transcript in all the tissues except that the 3.0-kb transcript was not detected in brain. Mouse Vps35 was widely expressed as a 3.4-kb transcript. In addition, human VPS35 was assigned to human chromosome 16q13-q21 by radiation hybrid mapping.

Garcia-Frigola C, Burgaya F, Calbet M, de Lecea L, Soriano E
Mouse Tspan-5, a member of the tetraspanin superfamily, is highly expressed in brain cortical structures.
Neuroreport. 2000; 11: 3181-5
Display abstract
Using a subtractive hybridization method for the identification of genes related to the development of the murine cerebral cortex, we cloned a mouse homologue of a human tetraspanin family member, Tspan-5. We have isolated a 3.1 Kb cDNA fragment containing the entire coding region. Analysis of the cDNA nucleotide sequence revealed that mouse Tspan-5 shares 98% amino acid sequence identity with its human homologue. The predicted length of the mouse protein is 268 amino acids, with four putative hydrophobic domains with N- and C-intracellular tails, and two extracellular domains. Northern blot analysis of adult mouse tissues showed a single transcript, which is preferentially expressed in the brain. In situ hybridization showed prominent expression of Tspan-5 in the neocortex, the hippocampus, amygdala and in Purkinje cells in the cerebellum. The pattern of expression of Tspan-5 in the mouse brain suggests a role for the tetraspanins in the maintenance of adult brain function.

Jung SK et al.
Purification and cloning of an apoptosis-inducing protein derived from fish infected with Anisakis simplex, a causative nematode of human anisakiasis.
J Immunol. 2000; 165: 1491-7
Display abstract
While investigating the effect of marine products on cell growth, we found that visceral extracts of Chub mackerel, an ocean fish, had a powerful and dose-dependent apoptosis-inducing effect on a variety of mammalian tumor cells. This activity was strikingly dependent on infection of the C. mackerel with the larval nematode, Anisakis simplex. After purification of the protein responsible for the apoptosis-inducing activity, we cloned the corresponding gene and found it to be a flavoprotein. This protein, termed apoptosis-inducing protein (AIP), was also found to possess an endoplasmic reticulum retention signal (C-terminal KDEL sequence) and H2O2-producing activity, indicating that we had isolated a novel reticuloplasimin with potent apoptosis-inducing activity. AIP was induced in fish only after infection with larval nematode and was localized to capsules that formed around larvae to prevent their migration to host tissues. Our results suggest that AIP may function to impede nematode infection.

Ajima R, Ikematsu N, Ohsugi M, Yoshida Y, Yamamoto T
Cloning and characterization of the mouse tob2 gene.
Gene. 2000; 253: 215-20
Display abstract
Human Tob2 is a member of the Tob/BTG1 anti-proliferative family of proteins. Here, we report the molecular cloning and characterization of the mouse tob2 gene. The tob2 gene contains an open reading frame of 345 amino acids with an 89% identity to its human counterparts. The coding region of mouse tob2 is not interrupted by introns. The tob2 transcript is 4.2kb long, the size being similar to that of the human tob2 transcript, and detected ubiquitously in various tissues of adult mice. In addition, in situ hybridization shows that tob2 is ubiquitously expressed in embryo, the level of expression being especially high in skeletal muscle. Collectively, Tob2 is suggested to play roles both during embryogenesis and in adults.

Wu YW, Chen DH, Miao SY, Wang LF, Zong SD, Koide SS
Eliciting an immune response by plasmid DNA encoding a human sperm protein (HSD-1).
Arch Androl. 1999; 42: 127-36
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The cDNA encoding a human sperm membrane designated as HSD-1 was isolated from a human testis lambda gt11 cDNA expression library and assigned the accession number U12978 by GenBank. HSD-1 was conjugated to an eukaryotic expression plasmid (pRSV) to construct the recombinant plasmid pRSV-HSD-1. Female mice were inoculated intramuscularly with the plasmid DNA and the expression of HSD-1 was determined. HSD-1 mRNAs were detected in myocytes and endomysial connective tissue cells of the quadriceps muscle by in situ hybridization. Spleen of inoculated animals contained an increased number of cytotoxic T lymphocytes, phagocytes, and plasma cells. Fertility of the treated animals was not affected. Thus, intramuscular inoculation of female mice with the plasmid DNA (pRSV-HSD-1) results in the expression of HSD-1 and may elicit a tissue-mediated immune response.

Kobayashi YM, Jones LR
Identification of triadin 1 as the predominant triadin isoform expressed in mammalian myocardium.
J Biol Chem. 1999; 274: 28660-8
Display abstract
Triadin is an integral membrane protein of sarcoplasmic reticulum shown to interact with the ryanodine receptor/Ca(2+) release channel, junctin, and calsequestrin. Several triadin isoforms have been postulated to exist in cardiac muscle, but to date none has been conclusively identified. Here, we show that only triadin 1 is significantly expressed. We cloned and sequenced cDNAs encoding canine cardiac triadin 1 and 3 but found no evidence for triadin 2. From deduced primary structures, antibodies against domains common to all triadins and an antibody against the unique C terminus of triadin 1 were raised. All antibodies detected two prominent proteins of molecular masses 35 and 40 kDa on immunoblots from cardiac microsomes, including the antibody that recognizes only triadin 1. The 40-kDa mobility form was shown to correspond to the glycosylated form of triadin 1, not a distinct triadin 2 isoform as previously hypothesized. Confirming this, overexpression of triadin 1 in transgenic mouse hearts produced both the 35-kDa deglycosylated and the 40-kDa glycosylated mobility forms. The glycosylation site of triadin 1 was localized to asparagine residue 75, and its bitopic arrangement in the membrane was confirmed. Although a 92-kDa immunoreactive protein could be tentatively identified in myocardium as triadin 3, its expression level was insignificant (

Otsuki M, Fukami K, Kohno T, Yokota J, Takenawa T
Identification and characterization of a new phospholipase C-like protein, PLC-L(2).
Biochem Biophys Res Commun. 1999; 266: 97-103
Display abstract
We have isolated a cDNA encoding a novel protein, PLC-L(2), with homology to the phospholipase C-like protein PLC-L and delta-type phospholipase C. PLC-L(2) contains a relatively well-conserved PH domain, PLC catalytic region, and X and Y domains. However, it did not have PLC activity. This inactivation was thought to be caused by the replacement of two amino acids that are essential for PLC activity, His356 and Tyr552, with Thr and Phe in the X and Y domain. PLC-L(2) has a wide distribution with strong expression in skeletal muscle and mapped to chromosome 3p24-25. The PH domain of PLC-L(2) bound strongly to PI(4,5)P(2) and Ins(1,4,5)P(3), and moderately to PI(4)P and PI(3,4,5)P(3). PLC-L(2) predominantly localized to perinuclear areas in both myoblast and myotube C2C12 cells. Ectopically expressed GFP-PLC-L(2) also mainly localized in perinuclear areas, including endoplasmic reticulum in COS 7 cells. Furthermore, the expression of GFP-PH showed the same intracellular distribution as the full-length PLC-L(2). All these results suggest that PLC-L(2) plays an important role in the regulation of Ins(1,4, 5)P(3) around the endoplasmic reticulum on which the Ins(1,4,5)P(3) receptor exists.

Yang H, Egan JM, Rodgers BD, Bernier M, Montrose-Rafizadeh C
Differential expression of a novel seven transmembrane domain protein in epididymal fat from aged and diabetic mice.
Endocrinology. 1999; 140: 2859-67
Display abstract
To identify novel seven transmembrane domain proteins from 3T3-L1 adipocytes, we used PCR to amplify 3T3-L1 adipocyte complementary DNA (cDNA) with primers homologous to the N- and C-termini of pancreatic glucagon-like peptide-1 (GLP-1) receptor. We screened a cDNA library prepared from fully differentiated 3T3-L1 adipocytes using a 500-bp cDNA PCR product probe. Herein describes the isolation and characterization of a 1.6-kb cDNA clone that encodes a novel 298-amino acid protein that we termed TPRA40 (transmembrane domain protein of 40 kDa regulated in adipocytes). TPRA40 has seven putative transmembrane domains and shows little homology with the known GLP-1 receptor or with other G protein-coupled receptors. The levels of TPRA40 mRNA and protein were higher in 3T3-L1 adipocytes than in 3T3-L1 fibroblasts. TPRA40 is present in a number of mouse and human tissues. Interestingly, TPRA40 mRNA levels were significantly increased by 2- to 3-fold in epididymal fat of 24-month-old mice vs. young controls as well as in db/db and ob/ob mice vs. nondiabetic control littermates. No difference in TPRA40 mRNA levels was observed in brain, heart, skeletal muscle, liver, or kidney. Furthermore, no difference in TPRA40 expression was detected in brown fat of ob/ob mice when compared with age-matched controls. Taken together, these data suggest that TPRA40 represents a novel membrane-associated protein whose expression in white adipose tissue is altered with aging and type 2 diabetes.

Collec E et al.
Structure and expression of the mouse homologue of the XK gene.
Immunogenetics. 1999; 50: 16-21
Display abstract
The human Kx blood group antigen is carried by a 37,000 M(r) apparent molecular mass membrane polypeptide which is deficient in rare individuals with the McLeod syndrome. The X-linked human XK gene is transcribed in many tissues including adult skeletal muscle and brain, sieges of disorders observed in McLeod syndrome. We report here the cloning of the orthologous mouse XK mRNA. Comparison of XK from human and mouse revealed 80% sequence similarity at the amino acid level. The mouse XK gene is organized in two exons and is expressed in many tissues, but its expression pattern is slightly different from that of the human gene. The presence in mouse erythrocyte membrane of a 43,000 M(r) Kx-related protein was demonstrated by immunoblotting with a rabbit antiserum directed against the human protein. With non-reduced samples, a 140,000 M(r) species was detected instead of the 43,000 M(r) protein, suggesting that, as demonstrated in the Kx polypeptide might be complexed with another protein in mouse red cells, presumably the homologue of the human Kell protein of 93,000 M(r).

Rossi DL et al.
Cloning and characterization of a new type of mouse chemokine.
Genomics. 1998; 47: 163-70
Display abstract
We report here the identification and characterization of the mouse homologue of a human CX3C chemokine described by F. Bazan et al. (1997, Nature 385, 640-644). Termed fractalkine, this molecule constitutes a fourth or delta chemokine structural type that displays a novel CX3C sequence fingerprint. Distinct from the alpha, beta, or gamma chemokine families, the polypeptide chain of CX3C predicts a 373-amino-acid type I transmembrane glycoprotein with the chemokine domain resting on top of an extended mucin-like stalk. Comparison of the mouse and human protein chains shows a high degree of conservation in all the globular segments with the exception of the stalk portion. The striking identity of an amino acid stretch encompassing a putative juxtamembrane cleavage site suggests the evolutionary conservation of both membrane-bound and processed CX3C forms. Northern analysis reveals the presence of mouse CX3C mRNA in heart, brain, lung, kidney, skeletal muscle, and testis tissues. The mouse CX3C gene was further localized to the central region of chromosome 8 by interspecific backcross mapping; a related locus was detected on chromosome 11. The novel location of this gene from other chemokine gene clusters adds to the notion that CX3C is a fundamentally new class of chemokine.

Nishi M, Komazaki S, Iino M, Kangawa K, Takeshima H
Mitsugumin23, a novel transmembrane protein on endoplasmic reticulum and nuclear membranes.
FEBS Lett. 1998; 432: 191-6
Display abstract
We report the identification using monoclonal antibody and the primary structure by cDNA cloning of mitsugumin23, a novel transmembrane protein with a molecular mass of approximately 23 kDa from skeletal muscle sarcoplasmic reticulum. Mitsugumin23 possesses three putative transmembrane segments, and its carboxy-terminal hydrophilic region exhibits sequence similarity with the tail-end portion of the myosin heavy chain. Immunochemical analysis showed that this protein is distributed throughout the outer nuclear membrane and the sarcoplasmic reticulum including the terminal cisternae at the triad junction in skeletal muscle cells. Furthermore, RNA blotting and immunohistochemical experiments demonstrated that mitsugumin23 is distributed among a wide variety of cell types in various tissues. The distribution and primary structure indicate the possibility that mitsugumin23 interacts with cytoplasmic protein(s) and participates in a housekeeping function on the intracellular organelle membranes.

Anflous K, Blondel O, Bernard A, Khrestchatisky M, Ventura-Clapier R
Characterization of rat porin isoforms: cloning of a cardiac type-3 variant encoding an additional methionine at its putative N-terminal region.
Biochim Biophys Acta. 1998; 1399: 47-50
Display abstract
In vivo, the outer mitochondrial membrane presents a restriction of diffusion for ADP in heart and slow twitch skeletal muscles, but not in fast twitch skeletal muscle. Mitochondrial porins constitute the main pathway for the transit of metabolites across the outer mitochondrial membrane. We decided, therefore, to characterize, by cloning, rat heart VDAC and to follow their expression in different striated muscles. We cloned three isoforms, one being HVDAC1-like porin (RVDAC1) whereas the other two are MVDAC3-like porins (RVDAC3 and RVDAC3v). These three isoforms are ubiquitously expressed among striated muscles. RVDAC3v differs from RVDAC3 by one additional amino acid, a Met, located between Val39 and Glu40 in RVDAC3 sequence. This study constitutes a first step in order to further characterize striated muscle porin isoforms.

Zeng Q et al.
A novel synaptobrevin/VAMP homologous protein (VAMP5) is increased during in vitro myogenesis and present in the plasma membrane.
Mol Biol Cell. 1998; 9: 2423-37
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cDNA clones encoding a novel protein (VAMP5) homologous to synaptobrevins/VAMPs are detected during database searches. The predicted 102-amino acid VAMP5 harbors a 23-residue hydrophobic region near the carboxyl terminus and exhibits an overall amino acid identity of 33% with synaptobrevin/VAMP1 and 2 and cellubrevin. Northern blot analysis reveals that the mRNA for VAMP5 is preferentially expressed in the skeletal muscle and heart, whereas significantly lower levels are detected in several other tissues but not in the brain. During in vitro differentiation (myogenesis) of C2C12 myoblasts into myotubes, the mRNA level for VAMP5 is increased approximately 8- to 10-fold. Immunoblot analysis using antibodies specific for VAMP5 shows that the protein levels are also elevated approximately 6-fold during in vitro myogenesis of C2C12 cells. Indirect immunofluorescence microscopy and immunoelectron microscopy reveal that VAMP5 is associated with the plasma membrane as well as intracellular perinuclear and peripheral vesicular structures of myotubes. Epitope-tagged versions of VAMP5 are similarly targeted to the plasma membrane.