Syringe loading introduces macro molecules into living mammalian cell cytosol

Mark S.F. Clarke; Paul L. McNeil

Syringe loading introduces macro molecules into living mammalian cell cytosol

Mark S.F. Clarke, Paul L. McNeil

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

Abstract

We describe a simple, efficient, gentle and inexpensive technique for the introduction of normally impermeant macromolecules into the cytosol of living mammalian cells growing in suspension or attached to the culturing substratum. Loading is achieved by the production of transient, survivable plasma membrane disruptions as cells are passed back and forth through a standard syringe needle or similar narrow orifice. The loading volume required, which contains cells and the macromolecule to be loaded, can be as little as 5 μl, thus minimizing the use of valuable reagents. In addition, we report that the surfactant molecule, Pluronic F-68, is capable of altering the physical properties of the plasma membrane in such a way as to increase loading efficiency and the long-term survivability of cells loaded by this and other mechanically based cell-loading techniques.

Original language	English (US)
Pages (from-to)	533-541
Number of pages	9
Journal	Journal of Cell Science
Volume	102
Issue number	3
State	Published - Jul 1992
Externally published	Yes

Keywords

Cell loading
Mechanical disruption
Plasma membrane
Syringe loading

ASJC Scopus subject areas

Cell Biology

Cite this

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title = "Syringe loading introduces macro molecules into living mammalian cell cytosol",

abstract = "We describe a simple, efficient, gentle and inexpensive technique for the introduction of normally impermeant macromolecules into the cytosol of living mammalian cells growing in suspension or attached to the culturing substratum. Loading is achieved by the production of transient, survivable plasma membrane disruptions as cells are passed back and forth through a standard syringe needle or similar narrow orifice. The loading volume required, which contains cells and the macromolecule to be loaded, can be as little as 5 μl, thus minimizing the use of valuable reagents. In addition, we report that the surfactant molecule, Pluronic F-68, is capable of altering the physical properties of the plasma membrane in such a way as to increase loading efficiency and the long-term survivability of cells loaded by this and other mechanically based cell-loading techniques.",

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year = "1992",

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T1 - Syringe loading introduces macro molecules into living mammalian cell cytosol

AU - Clarke, Mark S.F.

AU - McNeil, Paul L.

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AB - We describe a simple, efficient, gentle and inexpensive technique for the introduction of normally impermeant macromolecules into the cytosol of living mammalian cells growing in suspension or attached to the culturing substratum. Loading is achieved by the production of transient, survivable plasma membrane disruptions as cells are passed back and forth through a standard syringe needle or similar narrow orifice. The loading volume required, which contains cells and the macromolecule to be loaded, can be as little as 5 μl, thus minimizing the use of valuable reagents. In addition, we report that the surfactant molecule, Pluronic F-68, is capable of altering the physical properties of the plasma membrane in such a way as to increase loading efficiency and the long-term survivability of cells loaded by this and other mechanically based cell-loading techniques.

KW - Cell loading

KW - Mechanical disruption

KW - Plasma membrane

KW - Syringe loading

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ER -

Syringe loading introduces macro molecules into living mammalian cell cytosol

Abstract

Keywords

ASJC Scopus subject areas

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