Identification of the putative mannose 6-phosphate receptor protein (MPR 300) in the invertebrate unio

Transcriptomic analyses uncover emerging roles of mucins, lysosome/secretory addressing and detoxification pathways in insect midguts

The study of insect midgut features has been made possible by the recent availability of transcriptome datasets. These data uncovered the preferential expression of mucus-forming mucins at midgut regions that require protection (e.g. the acidic middle midgut of Musca domestica) or at sites of enzyme immobilization, particularly around the peritrophic membrane of Spodoptera frugiperda. Coleoptera lysosomal peptidases are directed to midgut lumen when over-expressed and targeted to lysosomes by a mechanism other than the mannose 6-phosphate-dependent pathway. We show that this second trend is likely conserved across Annelida, Mollusca, Nematoda, and Arthropoda. Furthermore, midgut transcriptomes of distantly related species reveal a general overexpression of xenobiotic detoxification pathways. In addition to attenuating toxicity of plant-derived compounds and insecticides, we also discuss a role for these detoxification pathways in regulating host-microbiota interactions by metabolizing bacterial secondary metabolites.

Unravelling novel functions of the endosomal transporter mannose 6-phosphate/insulin-like growth factor receptor (CD222) in health and disease: An emerging regulator of the immune system

Properly balanced cellular responses require both the mutual interactions of soluble factors with cell surface receptors and the crosstalk of intracellular molecules. In particular, immune cells exposed unceasingly to an array of positive and negative stimuli must distinguish between what has to be tolerated and attacked. Protein trafficking is one of crucial pathways involved in this labour. The approximately >270-kDa protein transporter called mannose 6- phosphate/insulin-like growth factor 2 receptor (M6P/IGF2R, CD222) is a type I transmembrane glycoprotein present largely intracellularly in the Golgi apparatus and endosomal compartments, but also at the cell surface. It is expressed ubiquitously in a vast majority of higher eukaryotic cell types. Through binding and trafficking multiple unrelated extracellular and intracellular ligands, CD222 is involved in the regulation of a plethora of functions, and thus implicated in many physiological but also pathophysiological conditions. This review describes, first, general features of CD222, such as its evolution, genomic structure and regulation, protein structure and ligands; and second, its specific functions with a special focus on the immune system.

Role of cation independent mannose 6-phosphate receptor protein in sorting and intracellular trafficking of lysosomal enzymes in chicken embryonic fibroblast (CEF) cells

Delivery of soluble lysosomal proteins to the lysosomes is dependent primarily on the mannose 6-phosphate receptors (MPRs) in mammals. However, in non-mammalian cells the role of MPR300 in sorting and trafficking of acid hydrolases to lysosomes is not fully understood till now. In this paper, we tested the role of MPR300 in sorting and trafficking of lysosomal enzymes in CEF cells using a small interfering RNA (siRNA) technology. Inactivation of MPR300 resulted in the secretion of large amounts of newly synthesized hydrolases into the medium and also inhibited the endocytosis of mannose 6-phospharylated ligands. Knockdown of MPR300 in CEF cells results in missorting of fucosidase and arylsulfatse A enzymes into the medium. The results indicated that the MPR300 in CEF cells plays a key role in sorting and trafficking of these soluble hydrolases.

Strategies for carbohydrate recognition by the mannose 6-phosphate receptors

The two members of the P-type lectin family, the 46 kDa cation-dependent mannose 6-phosphate receptor (CD-MPR) and the 300 kDa cation-independent mannose 6-phosphate receptor (CI-MPR), are ubiquitously expressed throughout the animal kingdom and are distinguished from all other lectins by their ability to recognize phosphorylated mannose residues. The best-characterized function of the MPRs is their ability to direct the delivery of approximately 60 different newly synthesized soluble lysosomal enzymes bearing mannose 6-phosphate (Man-6-P) on their N-linked oligosaccharides to the lysosome. In addition to its intracellular role in lysosome biogenesis, the CI-MPR, but not the CD-MPR, participates in a number of other biological processes by interacting with various molecules at the cell surface. The list of extracellular ligands recognized by this multifunctional receptor has grown to include a diverse spectrum of Man-6-P-containing proteins as well as several non-Man-6-P-containing ligands. Recent structural studies have given us a clearer view of how these two receptors use related, but yet distinct, approaches in the recognition of phosphomannosyl residues.

Mannose 6-phosphate receptor (MPR 300) proteins from goat and chicken bind human IGF-II

Mannose 6-phosphate receptor proteins (MPR 300 and 46) in mammals have been shown to mediate transport of lysosomal enzymes to lysosomes intracellularly. Both receptors are also expressed on the plasma membrane. Only MPR 300 protein on the plasma membrane has been shown to be a multifunctional protein which in addition to binding mannose 6-phosphate containing proteins also binds human insulin-like growth factor-II (IGF-II) causing its internalization [Hille-Rehfeld, A. (1995) Mannose 6-phosphate receptors in sorting and transport of lysosomal enzymes. Biochim. Biophys. Acta. 1241: 177-194]. This property has been shown to be exhibited by other mammalian receptors but not by the chicken and frog receptors. In a recent study however it was shown that the fish embryo MPR 300 binds human IGF-II. [Mendez, E., Planas, J.V., Castillo, J., Navarro, I. and Gutierrez, J. (2001) Identification of a type II insulin-like growth factor receptor in fish embryos. Endocrinology, 142: 1090-1097]. In the present study, we demonstrate that the purified goat and chicken liver receptors bind human IGF-II by employing cross-linking experiments (purified receptors and radiolabeled IGF-II) and by ligand blotting (using purified receptors and biotinylated IGF-II). Further CEF cells (chicken embryonic fibroblasts) that are known to contain the putative MPR 300 protein were employed to demonstrate that the CEF cell receptor binds human IGF-II.

Glycosylation and sorting pathways of lysosomal enzymes in mussel digestive cells

Our aim was to contribute to the understanding of the synthesis, maturation and activation of lysosomal enzymes in an invertebrate cellular model: the endo-lysosomal system (ELS) of mussel digestive cells. The activities of 5'-nucleotidase (AMPase), arylsulphatase (ASase) and acid phosphatase (AcPase), which are transported towards acidic compartments as membrane proteins, were localised by enzyme cytochemistry. AcPase activity was found within large heterolysosomes and residual bodies. ASase was located in endosomes, endolysosomes and heterolysosomes. AcPase and ASase activities were recorded within small vesicles and cisterns of the trans-Golgi network. Conversely, AMPase activity was primarily found in microvilli and apical vesicles and, less conspicuously, in lysosomes and the cis-side of the Golgi and the cis-Golgi network (CGN). In order to understand the processes of synthesis and maturation of these lysosomal enzymes, selected glycoconjugates were localised after lectin cytochemistry. N-acetylglucosamine, mannose and fucose residues were almost ubiquitous in the ELS, as were galactose residues, which were apparently less abundant. N-acetylglucosamine residues occurred in the inner membrane co-localised with mannose residues within the lysosomal and pre-lysosomal acidic compartments. Based on these results, glycosylation and sorting pathways are proposed for both soluble and membrane enzymes. Unlike in mammalian cells, O-glycosylation is fully completed in the CGN, mannose addition in N-glycosylation extends beyond the CGN and galactose addition is fully achieved at the intermediate side. Sorting of soluble lysosomal enzymes, as in crustaceans, is mediated by the indirect transport of membrane-linked proteins with GlcNAc1-P6Man residues that are removed in endolysosomes and heterolysosomes.

Biochemical and immunological characterization of a glycosylated alpha-fucosidase from the invertebrate Unio: interaction of the enzyme with its in vivo binding partners

Mammalian alpha-fucosidase (EC 3.2.1.51) is a lysosomal enzyme that catalyzes the removal of fucose residues from glycosphingolipids and its absence in humans results in a rare metabolic disorder called fucosidosis. Among the invertebrates in the molluscs (Unio) two forms of the enzyme have been reported, a 68 kDa non-glycosylated form and a 56 kDa glycosylated form. The glycosylated form has been purified from the seminal fluid of Unio [Biochem. Biophys. Res. Commun. 234 (1997) 54]. In the present study, the 56 kDa glycosylated form has been purified to homogeneity from the whole body tissue of Unio using a series of chromatographic steps. The purified enzyme migrated as a single protein species in 10% SDS-PAGE. Antibodies to the purified enzyme were raised in a rabbit in order to study its biochemical and immunological properties. The purified enzyme is a glycoprotein that exhibits strong binding to Con A-Sepharose gel and can be deglycosylated by PNGase F enzyme suggesting it to be N-glycosylated. The enzyme has been shown to specifically interact with the mannose 6-phosphate receptor protein (MPR 300) purified from goat and Unio. This specific interaction is discussed in view of its possible in vivo binding partners.

Molecular cloning of goat Mannose 6-phosphate receptors, MPR 300 and 46

Mannose 6-phosphate receptor proteins (MPR 300 and 46) are type 1 transmembrane glycoproteins that mediate transport of lysosomal enzymes to lysosomes. In a recent study we have purified both receptors from goat liver and raised antibodies. An ELISA method was developed that allowed quantification of both receptors in different tissues of goat and chicken and an immuno-affinity method was also developed to purify the receptors. In the present study to understand the structural similarities of the goat receptors to other known receptor proteins, we have prepared cDNA clones for both receptors by RT-PCR approach. A partial cDNA clone (1.368 kb) for the MPR 300 protein, and a full length cDNA clone (0.84 kb) for the MPR 46 protein were obtained. MPR 300 exhibits typical conserved cassette structure in the amino terminal domain similar to other known vertebrate MPR proteins with the conserved cysteine residues and the ligand binding arginine residue in the third domain. MPR 46 exhibits high degree of sequence homology to other known MPR proteins with the conserved cysteine residues, the transmembrane domain and the cytoplasmic tail. mRNA transcript size for both receptors were comparable with that of other vertebrates.

Mannose 6-phosphate/insulin-like growth factor 2 receptor (M6P/IGF2R) variants in American and Japanese populations

M6P/IGF2R encodes a multifunctional protein involved in lysosomal enzyme trafficking, fetal organogenesis, tumor suppression, and cytotoxic T cell-induced apoptosis. M6P/IGF2R is imprinted and expressed only from the maternally inherited allele in marsupials and rodents. In contrast, humans were initially reported to differ from the imprinted mammalian orders by not having an imprinted M6P/IGF2R; however, some studies now suggest M6P/IGF2R imprinting may be a human polymorphic trait. Mutational and functional evidence are consistent with M6P/IGF2R also being a tumor suppressor in human colon, liver, lung, breast, and ovarian cancers. M6P/IGF2R expression is also pathologically downregulated following mammalian in vitro embryo culture, resulting in fetal overgrowth and "large offspring syndrome." Therefore, the M6P/IGF2R imprint status in humans is an unresolved question that critically impacts upon biological issues ranging from human cancer predisposition to evolution. Attempts to further characterize the imprint status of human M6P/IGF2R and loss of heterozygosity at this locus in cancer have been hindered by a lack of readily usable polymorphisms. To facilitate these genetic analyses, we have screened American and Japanese populations for M6P/IGF2R single nucleotide polymorphisms (SNPs). We have identified nine novel SNPs intragenic to human M6P/IGF2R, and have described experimental conditions for their optimal use. Three identified amino-acid variants in the M6P/IGF2R ligand-binding domains may be under selection in humans.

Conserved cassette structure of vertebrate Mr 300 kDa mannose 6-phosphate receptors: partial cDNA sequence of fish MPR 300

The existence of two homologous mannose 6-phosphate receptors (MPRs) with overlapping, but distinct functions has raised the question of at what stage in the phylogenetic tree the two receptors have occurred for the first time. In this paper, we present a partial cDNA sequence of Mr 300 kDa MPR (MPR 300) from poeciliid fish (Xiphophorus). It contains a 5'-untranslated region followed by the initiator ATG, and an open reading frame that corresponds to cassettes 1-5 and part of cassette 6 of mammalian MPR 300. The size of the mRNA transcript for fish MPR 300 was comparable with that of other vertebrates. The amino acid sequence of fish MPR 300 displays 48-52% similarity with mammalian and chicken MPR 300. In particular, all the cysteine residues involved in disulfide bonding and an arginine residue, which is considered to be part of the mannose 6-phosphate binding site in cassette 3 of mammalian MPR 300, are conserved. Sequence similarities were significantly higher within cassette 3 and within cassette 5, to which a ligand-binding function has not yet been ascribed. Sequence similarities of the internal cassettes of MPR 300 are discussed with regard to the multifunctional nature of MPR 300.