G. Herma Renkema scite author profile

In various mammals, enzymatically active and inactive members of family 18 glycosyl hydrolases, containing chitinases, have been identified. In man, chitotriosidase is the functional chitinolytic enzyme, whilst the homologous human cartilage 39-kDa glycoprotein (HC gp-39) does not exhibit chitinase activity and its function is unknown. This study establishes that HC gp-39 is a chitin-specific lectin. It is experimentally demonstrated that a single amino acid substitution in the catalytic centre of the 39-kDa isoform of chitotriosidase, which generates a similar sequence to that in HC gp-39, results in a loss of hydrolytic activity and creates the capacity to bind to chitin. The possible implication of the finding for chitinolytic and chitin-binding proteins that are produced in high quantities by activated macrophages are discussed.

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Characterization of human phagocyte-derived chitotriosidase, a component of innate immunity

Eijk¹,

Roomen²,

Renkema³

et al. 2005

265

253

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Man has been found to produce highly conserved chitinases. The most prominent is the phagocyte-derived chitotriosidase, the plasma levels of which are markedly elevated in some pathological conditions. Here, we report that both polymorphonuclear neutrophils (PMNs) and macrophages (m) are a source of chitotriosidase. The enzyme is located in specific granules of human PMNs and secreted following stimulation with granulocyte macrophage colony-stimulating factor (GM-CSF). In addition, GM-CSF induces expression of chitotriosidase in m that constitutively secrete the enzyme and partly accumulate it in their lysosomes. Studies with recombinant human chitotriosidase revealed that the enzyme targets chitin-containing fungi. These findings are consistent with earlier observations concerning anti-fungal activity of homologous plant chitinases and beneficial effects of GM-CSF administration in individuals suffering from invasive fungal infections. In conclusion, chitotriosidase should be viewed as a component of the innate immunity that may play a role in defence against chitin-containing pathogens and the expression and release of which by human phagocytes is highly regulated.

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Purification and Characterization of Human Chitotriosidase, a Novel Member of the Chitinase Family of Proteins

Renkema

Boot

Muijsers

et al. 1995

Journal of Biological Chemistry

288

233

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Generation of Specific Deoxynojirimycin-type Inhibitors of the Non-lysosomal Glucosylceramidase

Overkleeft¹,

Renkema²,

Neele³

et al. 1998

Journal of Biological Chemistry

170

201

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The existence of a non-lysosomal glucosylceramidase in human cells has been documented (van Weely, S., Brandsma, M., Strijland, A., Tager, J. M., and Aerts, J. M. F. G. (1993) Biochim. Biophys. Acta 1181, 55-62). Hypothetically, the activity of this enzyme, which is localized near the cell surface, may influence ceramidemediated signaling processes. To obtain insight in the physiological importance of the non-lysosomal glucosylceramidase, the availability of specific inhibitors would be helpful. Here we report on the generation of hydrophobic deoxynojirimycin (DNM) derivatives that potently inhibit the enzyme. The inhibitors were designed on the basis of the known features of the non-lysosomal glucosylceramidase and consist of a DNM moiety, an N-alkyl spacer, and a large hydrophobic group that promotes insertion in membranes. In particular, N-(5-adamantane-1-yl-methoxy)pentyl)-DNM is a very powerful inhibitor of the non-lysosomal glucosylceramidase at nanomolar concentrations. At such concentrations, the lysosomal glucocerebrosidase and ␣-glucosidase, the glucosylceramide synthase, and the N-linked glycantrimming ␣-glucosidases of the endoplasmic reticulum are not affected.

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Mutations in the phospholipid remodeling gene SERAC1 impair mitochondrial function and intracellular cholesterol trafficking and cause dystonia and deafness

et al. 2012

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Using exome sequencing, we identify SERAC1 mutations as the cause of MEGDEL syndrome, a recessive disorder of dystonia and deafness with Leigh-like syndrome, impaired oxidative phosphorylation and 3-methylglutaconic aciduria. We localized SERAC1 at the interface between the mitochondria and the endoplasmic reticulum in the mitochondria-associated membrane fraction that is essential for phospholipid exchange. A phospholipid analysis in patient fibroblasts showed elevated concentrations of phosphatidylglycerol-34:1 (where the species nomenclature denotes the number of carbon atoms in the two acyl chains:number of double bonds in the two acyl groups) and decreased concentrations of phosphatidylglycerol-36:1 species, resulting in an altered cardiolipin subspecies composition. We also detected low concentrations of bis(monoacyl-glycerol)-phosphate, leading to the accumulation of free cholesterol, as shown by abnormal filipin staining. Complementation of patient fibroblasts with wild-type human SERAC1 by lentiviral infection led to a decrease and partial normalization of the mean ratio of phosphatidylglycerol-34:1 to phosphatidylglycerol-36:1. Our data identify SERAC1 as a key player in the phosphatidylglycerol remodeling that is essential for both mitochondrial function and intracellular cholesterol trafficking.

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NANS-mediated synthesis of sialic acid is required for brain and skeletal development

et al. 2016

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We identified biallelic mutations in NANS, the gene encoding the synthase for N-acetylneuraminic acid (NeuNAc; sialic acid), in nine individuals with infantile-onset severe developmental delay and skeletal dysplasia. Patient body fluids showed an elevation in N-acetyl-D-mannosamine levels, and patient-derived fibroblasts had reduced NANS activity and were unable to incorporate sialic acid precursors into sialylated glycoproteins. Knockdown of nansa in zebrafish embryos resulted in abnormal skeletal development, and exogenously added sialic acid partially rescued the skeletal phenotype. Thus, NANS-mediated synthesis of sialic acid is required for early brain development and skeletal growth. Normal sialylation of plasma proteins was observed in spite of NANS deficiency. Exploration of endogenous synthesis, nutritional absorption, and rescue pathways for sialic acid in different tissues and developmental phases is warranted to design therapeutic strategies to counteract NANS deficiency and to shed light on sialic acid metabolism and its implications for human nutrition. DOI: https://doi.org/10. 1038/ng.3578 Posted at the Zurich Open Repository and Archive, University of Zurich ZORA URL: https://doi.org/10.5167/uzh-130493 Accepted Version Originally published at: van Karnebeek, Clara D M; Bonafé, Luisa; Wen, Xiao-Yan; Tarailo-Graovac, Maja; Balzano, Sara; RoyerBertrand, Beryl; Ashikov, Angel; Garavelli, Livia; Mammi, Isabella; Turolla, Licia; Breen, Catherine; Donnai, Dian; Cormier, Valerie; Heron, Delphine; Nishimura, Gen; Uchikawa, Shinichi; Campos-Xavier, Belinda; Rossi, Antonio; Hennet, Thierry; Brand-Arzamendi, Koroboshka; Rozmus, Jacob; Harshman, Keith; Stevenson, Brian J; Girardi, Enrico; Superti-Furga, Giulio; Dewan, Tammie; Collingridge, Alissa; Halparin, Jessie; Ross, Colin J; Van Allen, Margot I;et al (2016). NANS-mediated synthesis of sialic acid is required for brain and skeletal development. Nature Genetics, 48 (7) insights into the molecular basis of neurocognitive impairment allows for the development and 89 application of targeted therapeutic strategies 5 . Although less frequent than IDD, genetic disorders 90 affecting skeletal development and growth (commonly called the "skeletal dysplasias") are a 91 group of over 500 distinct disorders 6 . Studying their molecular basis has provided precious 92 insights into the many factors necessary for skeletal development, ranging from minerals and 93 structural molecules to enzymes, to signaling molecules and transcription factors 6,7 . We report 94here a genetic disorder presenting with a combination of severe IDD with skeletal dysplasia and 95 short stature. Our data show that its pathogenic basis is an inborn error of metabolism that 96 affects the endogenous synthesis of N-acetyl neuraminic acid (NeuNAc; sialic acid). Exploration 97 of the biochemical and molecular features of this disorder provides new information on the role 98 of sialic acid in the development of brain and bone. 99 100 RESULTS 101 Clinical and radiographic phenotype of N...

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High-Throughput Phosphotyrosine Profiling Using SH2 Domains

et al. 2007

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Protein tyrosine phosphorylation controls many aspects of signaling in multicellular organisms. One of the major consequences of tyrosine phosphorylation is the creation of binding sites for proteins containing Src homology 2 (SH2) domains. To profile the global tyrosine phosphorylation state of the cell, we have developed proteomic binding assays encompassing nearly the full complement of human SH2 domains. Here we provide a global view of SH2 domain binding to cellular proteins based on large-scale far-western analyses. We also use reverse-phase protein arrays to generate comprehensive, quantitative SH2 binding profiles for phosphopeptides, recombinant proteins, and entire proteomes. As an example, we profiled the adhesion-dependent SH2 binding interactions in fibroblasts and identified specific focal adhesion complex proteins whose tyrosine phosphorylation and binding to SH2 domains are modulated by adhesion. These results demonstrate that high-throughput comprehensive SH2 profiling provides valuable mechanistic insights into tyrosine kinase signaling pathways.

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G. Herma Renkema

Cloning of a cDNA Encoding Chitotriosidase, a Human Chitinase Produced by Macrophages

Chitotriosidase, a chitinase, and the 39‐kDa human cartilage glycoprotein, a chitin‐binding lectin, are homologues of family 18 glycosyl hydrolases secreted by human macrophages

Characterization of human phagocyte-derived chitotriosidase, a component of innate immunity

Purification and Characterization of Human Chitotriosidase, a Novel Member of the Chitinase Family of Proteins

Generation of Specific Deoxynojirimycin-type Inhibitors of the Non-lysosomal Glucosylceramidase

Mutations in the phospholipid remodeling gene SERAC1 impair mitochondrial function and intracellular cholesterol trafficking and cause dystonia and deafness

NANS-mediated synthesis of sialic acid is required for brain and skeletal development

High-Throughput Phosphotyrosine Profiling Using SH2 Domains

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