Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin

Sindhuja Gowrisankaran; Sébastien Houy; Johanna G.Peña del Castillo; Vicky Steubler; Monika Gelker; Jana Kroll; Paulo S. Pinheiro; Dirk Schwitters; Nils Halbsgut; Arndt Pechstein; Jan R.T. van Weering; Tanja Maritzen; Volker Haucke; Nuno Raimundo; Jakob B. Sørensen; Ira Milosevic

doi:10.1038/s41467-020-14993-8

Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin

Sindhuja Gowrisankaran, Sébastien Houy, Johanna G.Peña del Castillo, Vicky Steubler, Monika Gelker, Jana Kroll, Paulo S. Pinheiro, Dirk Schwitters, Nils Halbsgut, Arndt Pechstein, Jan R.T. van Weering, Tanja Maritzen, Volker Haucke, Nuno Raimundo, Jakob B. Sørensen, Ira Milosevic

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

Endophilins-A are conserved endocytic adaptors with membrane curvature-sensing and -inducing properties. We show here that, independently of their role in endocytosis, endophilin-A1 and endophilin-A2 regulate exocytosis of neurosecretory vesicles. The number and distribution of neurosecretory vesicles were not changed in chromaffin cells lacking endophilin-A, yet fast capacitance and amperometry measurements revealed reduced exocytosis, smaller vesicle pools and altered fusion kinetics. The levels and distributions of the main exocytic and endocytic factors were unchanged, and slow compensatory endocytosis was not robustly affected. Endophilin-A’s role in exocytosis is mediated through its SH3-domain, specifically via a direct interaction with intersectin-1, a coordinator of exocytic and endocytic traffic. Endophilin-A not able to bind intersectin-1, and intersectin-1 not able to bind endophilin-A, resulted in similar exocytic defects in chromaffin cells. Altogether, we report that two endocytic proteins, endophilin-A and intersectin-1, are enriched on neurosecretory vesicles and regulate exocytosis by coordinating neurosecretory vesicle priming and fusion.

Original language	English (US)
Article number	1266
Journal	Nature communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-020-14993-8
State	Published - Dec 1 2020

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-020-14993-8

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Gowrisankaran, S., Houy, S., del Castillo, J. G. P., Steubler, V., Gelker, M., Kroll, J., Pinheiro, P. S., Schwitters, D., Halbsgut, N., Pechstein, A., van Weering, J. R. T., Maritzen, T., Haucke, V., Raimundo, N., Sørensen, J. B., & Milosevic, I. (2020). Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin. Nature communications, 11(1), Article 1266. https://doi.org/10.1038/s41467-020-14993-8

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title = "Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin",

abstract = "Endophilins-A are conserved endocytic adaptors with membrane curvature-sensing and -inducing properties. We show here that, independently of their role in endocytosis, endophilin-A1 and endophilin-A2 regulate exocytosis of neurosecretory vesicles. The number and distribution of neurosecretory vesicles were not changed in chromaffin cells lacking endophilin-A, yet fast capacitance and amperometry measurements revealed reduced exocytosis, smaller vesicle pools and altered fusion kinetics. The levels and distributions of the main exocytic and endocytic factors were unchanged, and slow compensatory endocytosis was not robustly affected. Endophilin-A{\textquoteright}s role in exocytosis is mediated through its SH3-domain, specifically via a direct interaction with intersectin-1, a coordinator of exocytic and endocytic traffic. Endophilin-A not able to bind intersectin-1, and intersectin-1 not able to bind endophilin-A, resulted in similar exocytic defects in chromaffin cells. Altogether, we report that two endocytic proteins, endophilin-A and intersectin-1, are enriched on neurosecretory vesicles and regulate exocytosis by coordinating neurosecretory vesicle priming and fusion.",

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year = "2020",

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doi = "10.1038/s41467-020-14993-8",

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Gowrisankaran, S, Houy, S, del Castillo, JGP, Steubler, V, Gelker, M, Kroll, J, Pinheiro, PS, Schwitters, D, Halbsgut, N, Pechstein, A, van Weering, JRT, Maritzen, T, Haucke, V, Raimundo, N, Sørensen, JB & Milosevic, I 2020, 'Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin', Nature communications, vol. 11, no. 1, 1266. https://doi.org/10.1038/s41467-020-14993-8

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T1 - Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin

AU - Gowrisankaran, Sindhuja

AU - Houy, Sébastien

AU - del Castillo, Johanna G.Peña

AU - Steubler, Vicky

AU - Gelker, Monika

AU - Kroll, Jana

AU - Pinheiro, Paulo S.

AU - Schwitters, Dirk

AU - Halbsgut, Nils

AU - Pechstein, Arndt

AU - van Weering, Jan R.T.

AU - Maritzen, Tanja

AU - Haucke, Volker

AU - Raimundo, Nuno

AU - Sørensen, Jakob B.

AU - Milosevic, Ira

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Endophilins-A are conserved endocytic adaptors with membrane curvature-sensing and -inducing properties. We show here that, independently of their role in endocytosis, endophilin-A1 and endophilin-A2 regulate exocytosis of neurosecretory vesicles. The number and distribution of neurosecretory vesicles were not changed in chromaffin cells lacking endophilin-A, yet fast capacitance and amperometry measurements revealed reduced exocytosis, smaller vesicle pools and altered fusion kinetics. The levels and distributions of the main exocytic and endocytic factors were unchanged, and slow compensatory endocytosis was not robustly affected. Endophilin-A’s role in exocytosis is mediated through its SH3-domain, specifically via a direct interaction with intersectin-1, a coordinator of exocytic and endocytic traffic. Endophilin-A not able to bind intersectin-1, and intersectin-1 not able to bind endophilin-A, resulted in similar exocytic defects in chromaffin cells. Altogether, we report that two endocytic proteins, endophilin-A and intersectin-1, are enriched on neurosecretory vesicles and regulate exocytosis by coordinating neurosecretory vesicle priming and fusion.

AB - Endophilins-A are conserved endocytic adaptors with membrane curvature-sensing and -inducing properties. We show here that, independently of their role in endocytosis, endophilin-A1 and endophilin-A2 regulate exocytosis of neurosecretory vesicles. The number and distribution of neurosecretory vesicles were not changed in chromaffin cells lacking endophilin-A, yet fast capacitance and amperometry measurements revealed reduced exocytosis, smaller vesicle pools and altered fusion kinetics. The levels and distributions of the main exocytic and endocytic factors were unchanged, and slow compensatory endocytosis was not robustly affected. Endophilin-A’s role in exocytosis is mediated through its SH3-domain, specifically via a direct interaction with intersectin-1, a coordinator of exocytic and endocytic traffic. Endophilin-A not able to bind intersectin-1, and intersectin-1 not able to bind endophilin-A, resulted in similar exocytic defects in chromaffin cells. Altogether, we report that two endocytic proteins, endophilin-A and intersectin-1, are enriched on neurosecretory vesicles and regulate exocytosis by coordinating neurosecretory vesicle priming and fusion.

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JO - Nature communications

JF - Nature communications

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M1 - 1266

ER -

Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin

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