Christine Laurini scite author profile

Background: Protein paucimannosylation is considered an important invertebrate-and plant-specific glycoepitope. Results: Azurophilic granule-specific human neutrophil proteins from pathogen-infected sputum displayed significant corefucosylated paucimannosylation generated by maturation-and granule-specific ␤-hexosaminidase A and were preferentially secreted from non-lysosomal origins into sputum upon P. aeruginosa stimulation. Conclusion: Human neutrophils produce, store, and selectively secrete bioactive paucimannosidic proteins. Significance: This work will aid in understanding the function(s) of human paucimannosylation in glycoimmunology.

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Paucimannosidic glycoepitopes are functionally involved in proliferation of neural progenitor cells in the subventricular zone

Dahmen

Fergen

Laurini

et al. 2015

Glycobiology

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Protein glycosylation has received much attention due to its multiple functional roles in physiological and pathophysiological conditions. Paucimannose is a common mannosidic N-glycoepitope in invertebrates and plants but has only recently been detected in vertebrates. Herein, we demonstrate the presence of paucimannosidic epitopes specifically in early postnatal neural progenitor cells (NPCs) between postnatal day 0 and 7 in mouse brain suggesting a possible role in the development of NPCs. Paucimannosidic epitopes were also detected in human glioblastoma cells and human macrophages by immunofluorescence and mass spectrometric analysis. Its expression was significantly increased after proliferation arrest indicating its importance in the regulation of cell proliferation. This hypothesis was further strengthened by reduced cell proliferation after the application of paucimannose-reactive Mannitou antibody into culture medium of growing cells. Most interestingly, this reduction in cell proliferation upon the administration of Mannitou antibody could also be observed in vivo in the subventricular zone of early postnatal mouse brain. Taken together, these observations demonstrate that paucimannosylation directly influences cell proliferation in various vertebrate cell types including early postnatal neural stem cells.

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Cytoplasmic domain of NCAM140 interacts with ubiquitin-fold modifier-conjugating enzyme-1 (Ufc1)

Homrich

Wobst

Laurini

et al. 2014

Experimental Cell Research

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UCHL1 regulates ubiquitination and recycling of the neural cell adhesion molecule NCAM

et al. 2012

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The neural cell adhesion molecule (NCAM) is involved in neural development and in plasticity in the adult brain. NCAM140 and NCAM180 isoforms are transmembrane proteins with cytoplasmic domains that differ only in an alternatively spliced exon in the NCAM180 isoform. Both isoforms can interact with several extracellular and cytoplasmic molecules mediating NCAM-dependent functions. Most identified intracellular interaction partners bind to both isoforms, NCAM140 and NCAM180. To identify further intracellular interaction partners specifically binding to NCAM180 the cytosolic domain of human NCAM180 was recombinantly expressed and applied onto a protein macroarray containing the protein library from human fetal brain. We identified the ubiquitin C-terminal hydrolase (UCHL1) which has been described as a de-ubiquitinating enzyme as a potential interaction partner of NCAM180. Since NCAM180 and NCAM140 are ubiquitinated, NCAM140 was included in the subsequent experiments. A partial colocalization of both NCAM isoforms and UCHL1 was observed in primary neurons and the B35 neuroblastoma cell line. Overexpression of UCHL1 significantly decreased constitutive ubiquitination of NCAM180 and NCAM140 whereas inhibition of endogenous UCHL1 increased NCAM's ubiquitination. Furthermore, lysosomal localization of NCAM180 and NCAM140 was significantly reduced after overexpression of UCHL1 consistent with a partial colocalization of internalized NCAM with UCHL1. These data indicate that UCHL1 is a novel interaction partner of both NCAM isoforms that regulates their ubiquitination and intracellular trafficking. Structured digital abstractNCAM1 binds to UCHL1 by protein array (View interaction) Uchl1 and NCAM180 colocalize by fluorescence microscopy (View interaction) Uchl1 and NCAM1 colocalize by fluorescence microscopy (View interaction) Uchl1 and NCAM140 colocalize by fluorescence microscopy (View interaction)

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Tyrosine 734 of NCAM180 interferes with FGF receptor-dependent signaling implicated in neurite growth

Diestel¹,

Laurini²,

Traub

et al. 2004

Biochemical and Biophysical Research Communications

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