Mechanosensing in T lymphocyte activation

Edward Judokusumo; Erdem Tabdanov; Sudha Kumari; Michael L. Dustin; Lance C. Kam

doi:10.1016/j.bpj.2011.12.011

Mechanosensing in T lymphocyte activation

Edward Judokusumo, Erdem Tabdanov, Sudha Kumari, Michael L. Dustin, Lance C. Kam

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222 Scopus citations

Abstract

Mechanical forces play an increasingly recognized role in modulating cell function. This report demonstrates mechanosensing by T cells, using polyacrylamide gels presenting ligands to CD3 and CD28. Naive CD4 T cells exhibited stronger activation, as measured by attachment and secretion of IL-2, with increasing substrate elastic modulus over the range of 10-200 kPa. By presenting these ligands on different surfaces, this report further demonstrates that mechanosensing is more strongly associated with CD3 rather than CD28 signaling. Finally, phospho-specific staining for Zap70 and Src family kinase proteins suggests that sensing of substrate rigidity occurs at least in part by processes downstream of T-cell receptor activation. The ability of T cells to quantitatively respond to substrate rigidly provides an intriguing new model for mechanobiology.

Original language	English (US)
Pages (from-to)	L5-L7
Journal	Biophysical journal
Volume	102
Issue number	2
DOIs	https://doi.org/10.1016/j.bpj.2011.12.011
State	Published - Jan 18 2012

All Science Journal Classification (ASJC) codes

Biophysics

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10.1016/j.bpj.2011.12.011

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title = "Mechanosensing in T lymphocyte activation",

abstract = "Mechanical forces play an increasingly recognized role in modulating cell function. This report demonstrates mechanosensing by T cells, using polyacrylamide gels presenting ligands to CD3 and CD28. Naive CD4 T cells exhibited stronger activation, as measured by attachment and secretion of IL-2, with increasing substrate elastic modulus over the range of 10-200 kPa. By presenting these ligands on different surfaces, this report further demonstrates that mechanosensing is more strongly associated with CD3 rather than CD28 signaling. Finally, phospho-specific staining for Zap70 and Src family kinase proteins suggests that sensing of substrate rigidity occurs at least in part by processes downstream of T-cell receptor activation. The ability of T cells to quantitatively respond to substrate rigidly provides an intriguing new model for mechanobiology.",

author = "Edward Judokusumo and Erdem Tabdanov and Sudha Kumari and Dustin, {Michael L.} and Kam, {Lance C.}",

note = "Funding Information: This study was supported by National Institutes of Health grants PN2 EY016586 and R01AI088377. ",

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AU - Judokusumo, Edward

AU - Tabdanov, Erdem

AU - Kumari, Sudha

AU - Dustin, Michael L.

AU - Kam, Lance C.

N1 - Funding Information: This study was supported by National Institutes of Health grants PN2 EY016586 and R01AI088377.

PY - 2012/1/18

Y1 - 2012/1/18

N2 - Mechanical forces play an increasingly recognized role in modulating cell function. This report demonstrates mechanosensing by T cells, using polyacrylamide gels presenting ligands to CD3 and CD28. Naive CD4 T cells exhibited stronger activation, as measured by attachment and secretion of IL-2, with increasing substrate elastic modulus over the range of 10-200 kPa. By presenting these ligands on different surfaces, this report further demonstrates that mechanosensing is more strongly associated with CD3 rather than CD28 signaling. Finally, phospho-specific staining for Zap70 and Src family kinase proteins suggests that sensing of substrate rigidity occurs at least in part by processes downstream of T-cell receptor activation. The ability of T cells to quantitatively respond to substrate rigidly provides an intriguing new model for mechanobiology.

AB - Mechanical forces play an increasingly recognized role in modulating cell function. This report demonstrates mechanosensing by T cells, using polyacrylamide gels presenting ligands to CD3 and CD28. Naive CD4 T cells exhibited stronger activation, as measured by attachment and secretion of IL-2, with increasing substrate elastic modulus over the range of 10-200 kPa. By presenting these ligands on different surfaces, this report further demonstrates that mechanosensing is more strongly associated with CD3 rather than CD28 signaling. Finally, phospho-specific staining for Zap70 and Src family kinase proteins suggests that sensing of substrate rigidity occurs at least in part by processes downstream of T-cell receptor activation. The ability of T cells to quantitatively respond to substrate rigidly provides an intriguing new model for mechanobiology.

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Mechanosensing in T lymphocyte activation

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