Amphiphysin 2 (Bin1) and T-tubule biogenesis in muscle

Eunkyung Lee; Melissa Marcucci; Laurie Daniell; Marc Pypaert; Ora A. Weisz; Gian Carlo Ochoa; Khashayar Farsad; Markus R. Wenk; Pietro De Camilli

doi:10.1126/science.1071362

Amphiphysin 2 (Bin1) and T-tubule biogenesis in muscle

Eunkyung Lee
, Melissa Marcucci
, Laurie Daniell
, Marc Pypaert
, Ora A. Weisz
, Gian Carlo Ochoa
, Khashayar Farsad
, Markus R. Wenk
, Pietro De Camilli^*

^*Corresponding author for this work

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

368 Citations (Scopus)

Abstract

In striated muscle, the plasma membrane forms tubular invaginations (transverse tubules or T-tubules) that function in depolarization-contraction coupling. Caveolin-3 and amphiphysin were implicated in their biogenesis. Amphiphysin isoforms have a putative role in membrane deformation at endocytic sites. An isoform of amphiphysin 2 concentrated at T-tubules induced tubular plasma membrane invaginations when expressed in nonmuscle cells. This property required exon 10, a phosphoinositide-binding module. In developing myotubes, amphiphysin 2 and caveolin-3 segregated in tubular and vesicular portions of the T-tubule system, respectively. These findings support a role of the bilayer-deforming properties of amphiphysin at T-tubules and, more generally, a physiological role of amphiphysin in membrane deformation.

Original language	English
Pages (from-to)	1193-1196
Number of pages	4
Journal	Science
Volume	297
Issue number	5584
DOIs	https://doi.org/10.1126/science.1071362
Publication status	Published - 16 Aug 2002
Externally published	Yes

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title = "Amphiphysin 2 (Bin1) and T-tubule biogenesis in muscle",

abstract = "In striated muscle, the plasma membrane forms tubular invaginations (transverse tubules or T-tubules) that function in depolarization-contraction coupling. Caveolin-3 and amphiphysin were implicated in their biogenesis. Amphiphysin isoforms have a putative role in membrane deformation at endocytic sites. An isoform of amphiphysin 2 concentrated at T-tubules induced tubular plasma membrane invaginations when expressed in nonmuscle cells. This property required exon 10, a phosphoinositide-binding module. In developing myotubes, amphiphysin 2 and caveolin-3 segregated in tubular and vesicular portions of the T-tubule system, respectively. These findings support a role of the bilayer-deforming properties of amphiphysin at T-tubules and, more generally, a physiological role of amphiphysin in membrane deformation.",

author = "Eunkyung Lee and Melissa Marcucci and Laurie Daniell and Marc Pypaert and Weisz, \{Ora A.\} and Ochoa, \{Gian Carlo\} and Khashayar Farsad and Wenk, \{Markus R.\} and \{De Camilli\}, Pietro",

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language = "English",

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AU - Lee, Eunkyung

AU - Marcucci, Melissa

AU - Daniell, Laurie

AU - Pypaert, Marc

AU - Weisz, Ora A.

AU - Ochoa, Gian Carlo

AU - Farsad, Khashayar

AU - Wenk, Markus R.

AU - De Camilli, Pietro

PY - 2002/8/16

Y1 - 2002/8/16

N2 - In striated muscle, the plasma membrane forms tubular invaginations (transverse tubules or T-tubules) that function in depolarization-contraction coupling. Caveolin-3 and amphiphysin were implicated in their biogenesis. Amphiphysin isoforms have a putative role in membrane deformation at endocytic sites. An isoform of amphiphysin 2 concentrated at T-tubules induced tubular plasma membrane invaginations when expressed in nonmuscle cells. This property required exon 10, a phosphoinositide-binding module. In developing myotubes, amphiphysin 2 and caveolin-3 segregated in tubular and vesicular portions of the T-tubule system, respectively. These findings support a role of the bilayer-deforming properties of amphiphysin at T-tubules and, more generally, a physiological role of amphiphysin in membrane deformation.

AB - In striated muscle, the plasma membrane forms tubular invaginations (transverse tubules or T-tubules) that function in depolarization-contraction coupling. Caveolin-3 and amphiphysin were implicated in their biogenesis. Amphiphysin isoforms have a putative role in membrane deformation at endocytic sites. An isoform of amphiphysin 2 concentrated at T-tubules induced tubular plasma membrane invaginations when expressed in nonmuscle cells. This property required exon 10, a phosphoinositide-binding module. In developing myotubes, amphiphysin 2 and caveolin-3 segregated in tubular and vesicular portions of the T-tubule system, respectively. These findings support a role of the bilayer-deforming properties of amphiphysin at T-tubules and, more generally, a physiological role of amphiphysin in membrane deformation.

UR - https://www.scopus.com/pages/publications/0037119615

U2 - 10.1126/science.1071362

DO - 10.1126/science.1071362

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AN - SCOPUS:0037119615

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VL - 297

SP - 1193

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JO - Science

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ER -

Amphiphysin 2 (Bin1) and T-tubule biogenesis in muscle

Abstract

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