Glycosylation Tunes Neuroserpin Physiological and Pathological Properties

Neuroserpin (NS) is a member of the serine protease inhibitors superfamily. Specific point mutations are responsible for its accumulation in the endoplasmic reticulum of neurons that leads to a pathological condition named familial encephalopathy with neuroserpin inclusion bodies (FENIB). Wild-type...

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Veröffentlicht in:	INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES 2020-05, Vol.21 (9), p.3235
Hauptverfasser:	Visentin, Cristina, Broggini, Luca, Sala, Benedetta Maria, Russo, Rosaria, Barbiroli, Alberto, Santambrogio, Carlo, Nonnis, Simona, Dubnovitsky, Anatoly, Bolognesi, Martino, Miranda, Elena, Achour, Adnane, Ricagno, Stefano
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Sprache:	eng
Schlagworte:	Accumulation Cell culture Cell Line Chromatography Circular dichroism Cloning Dichroism Encephalopathy Endoplasmic reticulum Fluorescence Glycosylation Humans Inclusion bodies Mutation Neuropeptides - chemistry Neuropeptides - metabolism Neuroserpin Peptides Physiology Polymerization Polymers Protease inhibitors Protein Folding Protein Multimerization protein polymerisation Protein Processing, Post-Translational Protein Stability Proteinase inhibitors Proteins Purification Serine Serine proteinase Serpins - chemistry Serpins - metabolism Tryptophan
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creator	Visentin, Cristina Broggini, Luca Sala, Benedetta Maria Russo, Rosaria Barbiroli, Alberto Santambrogio, Carlo Nonnis, Simona Dubnovitsky, Anatoly Bolognesi, Martino Miranda, Elena Achour, Adnane Ricagno, Stefano
description	Neuroserpin (NS) is a member of the serine protease inhibitors superfamily. Specific point mutations are responsible for its accumulation in the endoplasmic reticulum of neurons that leads to a pathological condition named familial encephalopathy with neuroserpin inclusion bodies (FENIB). Wild-type NS presents two N-glycosylation chains and does not form polymers in vivo, while non-glycosylated NS causes aberrant polymer accumulation in cell models. To date, all in vitro studies have been conducted on bacterially expressed NS, de facto neglecting the role of glycosylation in the biochemical properties of NS. Here, we report the expression and purification of human glycosylated NS (gNS) using a novel eukaryotic expression system, LEXSY. Our results confirm the correct N-glycosylation of wild-type gNS. The fold and stability of gNS are not altered compared to bacterially expressed NS, as demonstrated by the circular dichroism and intrinsic tryptophan fluorescence assays. Intriguingly, gNS displays a remarkably reduced polymerisation propensity compared to non-glycosylated NS, in keeping with what was previously observed for wild-type NS in vivo and in cell models. Thus, our results support the relevance of gNS as a new in vitro tool to study the molecular bases of FENIB.
doi_str_mv	10.3390/ijms21093235
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Specific point mutations are responsible for its accumulation in the endoplasmic reticulum of neurons that leads to a pathological condition named familial encephalopathy with neuroserpin inclusion bodies (FENIB). Wild-type NS presents two N-glycosylation chains and does not form polymers in vivo, while non-glycosylated NS causes aberrant polymer accumulation in cell models. To date, all in vitro studies have been conducted on bacterially expressed NS, de facto neglecting the role of glycosylation in the biochemical properties of NS. Here, we report the expression and purification of human glycosylated NS (gNS) using a novel eukaryotic expression system, LEXSY. Our results confirm the correct N-glycosylation of wild-type gNS. The fold and stability of gNS are not altered compared to bacterially expressed NS, as demonstrated by the circular dichroism and intrinsic tryptophan fluorescence assays. Intriguingly, gNS displays a remarkably reduced polymerisation propensity compared to non-glycosylated NS, in keeping with what was previously observed for wild-type NS in vivo and in cell models. Thus, our results support the relevance of gNS as a new in vitro tool to study the molecular bases of FENIB.</description><identifier>ISSN: 1422-0067</identifier><identifier>ISSN: 1661-6596</identifier><identifier>EISSN: 1422-0067</identifier><identifier>DOI: 10.3390/ijms21093235</identifier><identifier>PMID: 32375228</identifier><language>eng</language><publisher>Switzerland: MDPI AG</publisher><subject>Accumulation ; Cell culture ; Cell Line ; Chromatography ; Circular dichroism ; Cloning ; Dichroism ; Encephalopathy ; Endoplasmic reticulum ; Fluorescence ; Glycosylation ; Humans ; Inclusion bodies ; Mutation ; Neuropeptides - chemistry ; Neuropeptides - metabolism ; Neuroserpin ; Peptides ; Physiology ; Polymerization ; Polymers ; Protease inhibitors ; Protein Folding ; Protein Multimerization ; protein polymerisation ; Protein Processing, Post-Translational ; Protein Stability ; Proteinase inhibitors ; Proteins ; Purification ; Serine ; Serine proteinase ; Serpins - chemistry ; Serpins - metabolism ; Tryptophan</subject><ispartof>INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2020-05, Vol.21 (9), p.3235</ispartof><rights>2020. 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Specific point mutations are responsible for its accumulation in the endoplasmic reticulum of neurons that leads to a pathological condition named familial encephalopathy with neuroserpin inclusion bodies (FENIB). Wild-type NS presents two N-glycosylation chains and does not form polymers in vivo, while non-glycosylated NS causes aberrant polymer accumulation in cell models. To date, all in vitro studies have been conducted on bacterially expressed NS, de facto neglecting the role of glycosylation in the biochemical properties of NS. Here, we report the expression and purification of human glycosylated NS (gNS) using a novel eukaryotic expression system, LEXSY. Our results confirm the correct N-glycosylation of wild-type gNS. The fold and stability of gNS are not altered compared to bacterially expressed NS, as demonstrated by the circular dichroism and intrinsic tryptophan fluorescence assays. 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Specific point mutations are responsible for its accumulation in the endoplasmic reticulum of neurons that leads to a pathological condition named familial encephalopathy with neuroserpin inclusion bodies (FENIB). Wild-type NS presents two N-glycosylation chains and does not form polymers in vivo, while non-glycosylated NS causes aberrant polymer accumulation in cell models. To date, all in vitro studies have been conducted on bacterially expressed NS, de facto neglecting the role of glycosylation in the biochemical properties of NS. Here, we report the expression and purification of human glycosylated NS (gNS) using a novel eukaryotic expression system, LEXSY. Our results confirm the correct N-glycosylation of wild-type gNS. The fold and stability of gNS are not altered compared to bacterially expressed NS, as demonstrated by the circular dichroism and intrinsic tryptophan fluorescence assays. 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subjects	Accumulation Cell culture Cell Line Chromatography Circular dichroism Cloning Dichroism Encephalopathy Endoplasmic reticulum Fluorescence Glycosylation Humans Inclusion bodies Mutation Neuropeptides - chemistry Neuropeptides - metabolism Neuroserpin Peptides Physiology Polymerization Polymers Protease inhibitors Protein Folding Protein Multimerization protein polymerisation Protein Processing, Post-Translational Protein Stability Proteinase inhibitors Proteins Purification Serine Serine proteinase Serpins - chemistry Serpins - metabolism Tryptophan
title	Glycosylation Tunes Neuroserpin Physiological and Pathological Properties
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