Zymogen activation of neurotrypsin and neurotrypsin-dependent agrin cleavage on the cell surface are enhanced by glycosaminoglycans

Claudio Gisler; Daniel Lüscher; Philipp Schätzle; Stephanie Dürr; Antonio Baici; Giovanna Galliciotti; Raymond Reif; Marc F Bolliger; Beat Kunz; Peter Sonderegger

doi:10.1042/BJ20130166

Zymogen activation of neurotrypsin and neurotrypsin-dependent agrin cleavage on the cell surface are enhanced by glycosaminoglycans

Standard

Zymogen activation of neurotrypsin and neurotrypsin-dependent agrin cleavage on the cell surface are enhanced by glycosaminoglycans. / Gisler, Claudio; Lüscher, Daniel; Schätzle, Philipp; Dürr, Stephanie; Baici, Antonio; Galliciotti, Giovanna; Reif, Raymond; Bolliger, Marc F; Kunz, Beat; Sonderegger, Peter.

in: BIOCHEM J, Jahrgang 453, Nr. 1, 01.07.2013, S. 83-100.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Gisler, C, Lüscher, D, Schätzle, P, Dürr, S, Baici, A, Galliciotti, G, Reif, R, Bolliger, MF, Kunz, B & Sonderegger, P 2013, 'Zymogen activation of neurotrypsin and neurotrypsin-dependent agrin cleavage on the cell surface are enhanced by glycosaminoglycans', BIOCHEM J, Jg. 453, Nr. 1, S. 83-100. https://doi.org/10.1042/BJ20130166

APA

Gisler, C., Lüscher, D., Schätzle, P., Dürr, S., Baici, A., Galliciotti, G., Reif, R., Bolliger, M. F., Kunz, B., & Sonderegger, P. (2013). Zymogen activation of neurotrypsin and neurotrypsin-dependent agrin cleavage on the cell surface are enhanced by glycosaminoglycans. BIOCHEM J, 453(1), 83-100. https://doi.org/10.1042/BJ20130166

Vancouver

Gisler C, Lüscher D, Schätzle P, Dürr S, Baici A, Galliciotti G et al. Zymogen activation of neurotrypsin and neurotrypsin-dependent agrin cleavage on the cell surface are enhanced by glycosaminoglycans. BIOCHEM J. 2013 Jul 1;453(1):83-100. https://doi.org/10.1042/BJ20130166

Bibtex

@article{d893830bf18f489899540930fe34c8e7,

title = "Zymogen activation of neurotrypsin and neurotrypsin-dependent agrin cleavage on the cell surface are enhanced by glycosaminoglycans",

abstract = "The serine peptidase neurotrypsin is stored in presynaptic nerve endings and secreted in an inactive zymogenic form by synaptic activity. After activation, which requires activity of postsynaptic NMDA (N-methyl-D-aspartate) receptors, neurotrypsin cleaves the heparan sulfate proteoglycan agrin at active synapses. The resulting C-terminal 22-kDa fragment of agrin induces dendritic filopodia, which are considered to be precursors of new synapses. In the present study, we investigated the role of GAGs (glycosaminoglycans) in the activation of neurotrypsin and neurotrypsin-dependent agrin cleavage. We found binding of neurotrypsin to the GAG side chains of agrin, which in turn enhanced the activation of neurotrypsin by proprotein convertases and resulted in enhanced agrin cleavage. A similar enhancement of neurotrypsin binding to agrin, neurotrypsin activation and agrin cleavage was induced by the four-amino-acid insert at the y splice site of agrin, which is crucial for the formation of a heparin-binding site. Non-agrin GAGs also contributed to binding and activation of neurotrypsin and, thereby, to agrin cleavage, albeit to a lesser extent. Binding of neurotrypsin to cell-surface glycans locally restricts its conversion from zymogen into active peptidase. This provides the molecular foundation for the local action of neurotrypsin at or in the vicinity of its site of synaptic secretion. By its local action at synapses with correlated pre- and post-synaptic activity, the neurotrypsin-agrin system fulfils the requirements for a mechanism serving experience-dependent modification of activated synapses, which is essential for adaptive structural reorganizations of neuronal circuits in the developing and/or adult brain.",

keywords = "Agrin, Animals, Binding Sites, COS Cells, Cercopithecus aethiops, Enzyme Activation, Glycosaminoglycans, HEK293 Cells, Humans, Presynaptic Terminals, Proprotein Convertases, Serine Endopeptidases, Syndecan-2",

author = "Claudio Gisler and Daniel L{\"u}scher and Philipp Sch{\"a}tzle and Stephanie D{\"u}rr and Antonio Baici and Giovanna Galliciotti and Raymond Reif and Bolliger, {Marc F} and Beat Kunz and Peter Sonderegger",

year = "2013",

month = jul,

day = "1",

doi = "10.1042/BJ20130166",

language = "English",

volume = "453",

pages = "83--100",

journal = "BIOCHEM J",

issn = "0264-6021",

publisher = "PORTLAND PRESS LTD",

number = "1",

}

RIS

TY - JOUR

T1 - Zymogen activation of neurotrypsin and neurotrypsin-dependent agrin cleavage on the cell surface are enhanced by glycosaminoglycans

AU - Gisler, Claudio

AU - Lüscher, Daniel

AU - Schätzle, Philipp

AU - Dürr, Stephanie

AU - Baici, Antonio

AU - Galliciotti, Giovanna

AU - Reif, Raymond

AU - Bolliger, Marc F

AU - Kunz, Beat

AU - Sonderegger, Peter

PY - 2013/7/1

Y1 - 2013/7/1

N2 - The serine peptidase neurotrypsin is stored in presynaptic nerve endings and secreted in an inactive zymogenic form by synaptic activity. After activation, which requires activity of postsynaptic NMDA (N-methyl-D-aspartate) receptors, neurotrypsin cleaves the heparan sulfate proteoglycan agrin at active synapses. The resulting C-terminal 22-kDa fragment of agrin induces dendritic filopodia, which are considered to be precursors of new synapses. In the present study, we investigated the role of GAGs (glycosaminoglycans) in the activation of neurotrypsin and neurotrypsin-dependent agrin cleavage. We found binding of neurotrypsin to the GAG side chains of agrin, which in turn enhanced the activation of neurotrypsin by proprotein convertases and resulted in enhanced agrin cleavage. A similar enhancement of neurotrypsin binding to agrin, neurotrypsin activation and agrin cleavage was induced by the four-amino-acid insert at the y splice site of agrin, which is crucial for the formation of a heparin-binding site. Non-agrin GAGs also contributed to binding and activation of neurotrypsin and, thereby, to agrin cleavage, albeit to a lesser extent. Binding of neurotrypsin to cell-surface glycans locally restricts its conversion from zymogen into active peptidase. This provides the molecular foundation for the local action of neurotrypsin at or in the vicinity of its site of synaptic secretion. By its local action at synapses with correlated pre- and post-synaptic activity, the neurotrypsin-agrin system fulfils the requirements for a mechanism serving experience-dependent modification of activated synapses, which is essential for adaptive structural reorganizations of neuronal circuits in the developing and/or adult brain.

AB - The serine peptidase neurotrypsin is stored in presynaptic nerve endings and secreted in an inactive zymogenic form by synaptic activity. After activation, which requires activity of postsynaptic NMDA (N-methyl-D-aspartate) receptors, neurotrypsin cleaves the heparan sulfate proteoglycan agrin at active synapses. The resulting C-terminal 22-kDa fragment of agrin induces dendritic filopodia, which are considered to be precursors of new synapses. In the present study, we investigated the role of GAGs (glycosaminoglycans) in the activation of neurotrypsin and neurotrypsin-dependent agrin cleavage. We found binding of neurotrypsin to the GAG side chains of agrin, which in turn enhanced the activation of neurotrypsin by proprotein convertases and resulted in enhanced agrin cleavage. A similar enhancement of neurotrypsin binding to agrin, neurotrypsin activation and agrin cleavage was induced by the four-amino-acid insert at the y splice site of agrin, which is crucial for the formation of a heparin-binding site. Non-agrin GAGs also contributed to binding and activation of neurotrypsin and, thereby, to agrin cleavage, albeit to a lesser extent. Binding of neurotrypsin to cell-surface glycans locally restricts its conversion from zymogen into active peptidase. This provides the molecular foundation for the local action of neurotrypsin at or in the vicinity of its site of synaptic secretion. By its local action at synapses with correlated pre- and post-synaptic activity, the neurotrypsin-agrin system fulfils the requirements for a mechanism serving experience-dependent modification of activated synapses, which is essential for adaptive structural reorganizations of neuronal circuits in the developing and/or adult brain.

KW - Agrin

KW - Animals

KW - Binding Sites

KW - COS Cells

KW - Cercopithecus aethiops

KW - Enzyme Activation

KW - Glycosaminoglycans

KW - HEK293 Cells

KW - Humans

KW - Presynaptic Terminals

KW - Proprotein Convertases

KW - Serine Endopeptidases

KW - Syndecan-2

U2 - 10.1042/BJ20130166

DO - 10.1042/BJ20130166

M3 - SCORING: Journal article

C2 - 23560819

VL - 453

SP - 83

EP - 100

JO - BIOCHEM J

JF - BIOCHEM J

SN - 0264-6021

IS - 1

ER -