Mechanically active integrins target lytic secretion at the immune synapse to facilitate cellular cytotoxicity

Mitchell S. Wang; Yuesong Hu; Elisa E. Sanchez; Xihe Xie; Nathan H. Roy; Miguel de Jesus; Benjamin Y. Winer; Elizabeth A. Zale; Weiyang Jin; Chirag Sachar; Joanne H. Lee; Yeonsun Hong; Minsoo Kim; Lance C. Kam; Khalid Salaita; Morgan Huse

doi:10.1038/s41467-022-30809-3

Mechanically active integrins target lytic secretion at the immune synapse to facilitate cellular cytotoxicity

Mitchell S. Wang
, Yuesong Hu
, Elisa E. Sanchez
, Xihe Xie
, Nathan H. Roy
, Miguel de Jesus
, Benjamin Y. Winer
, Elizabeth A. Zale
, Weiyang Jin
, Chirag Sachar
, Joanne H. Lee
, Yeonsun Hong
, Minsoo Kim
, Lance C. Kam
, Khalid Salaita
, Morgan Huse

Microbiology & Immunology

Upstate Medical University

Memorial Sloan-Kettering Cancer Center
Cornell University
Emory University
Columbia University
University of Rochester

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

59 Scopus citations

Abstract

Cytotoxic lymphocytes fight pathogens and cancer by forming immune synapses with infected or transformed target cells and then secreting cytotoxic perforin and granzyme into the synaptic space, with potent and specific killing achieved by this focused delivery. The mechanisms that establish the precise location of secretory events, however, remain poorly understood. Here we use single cell biophysical measurements, micropatterning, and functional assays to demonstrate that localized mechanotransduction helps define the position of secretory events within the synapse. Ligand-bound integrins, predominantly the α_Lβ₂ isoform LFA-1, function as spatial cues to attract lytic granules containing perforin and granzyme and induce their fusion with the plasma membrane for content release. LFA-1 is subjected to pulling forces within secretory domains, and disruption of these forces via depletion of the adaptor molecule talin abrogates cytotoxicity. We thus conclude that lymphocytes employ an integrin-dependent mechanical checkpoint to enhance their cytotoxic power and fidelity.

Original language	English
Article number	3222
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-30809-3
State	Published - Dec 2022

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Wang, M. S., Hu, Y., Sanchez, E. E., Xie, X., Roy, N. H., de Jesus, M., Winer, B. Y., Zale, E. A., Jin, W., Sachar, C., Lee, J. H., Hong, Y., Kim, M., Kam, L. C., Salaita, K., & Huse, M. (2022). Mechanically active integrins target lytic secretion at the immune synapse to facilitate cellular cytotoxicity. Nature Communications, 13(1), Article 3222. https://doi.org/10.1038/s41467-022-30809-3

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title = "Mechanically active integrins target lytic secretion at the immune synapse to facilitate cellular cytotoxicity",

abstract = "Cytotoxic lymphocytes fight pathogens and cancer by forming immune synapses with infected or transformed target cells and then secreting cytotoxic perforin and granzyme into the synaptic space, with potent and specific killing achieved by this focused delivery. The mechanisms that establish the precise location of secretory events, however, remain poorly understood. Here we use single cell biophysical measurements, micropatterning, and functional assays to demonstrate that localized mechanotransduction helps define the position of secretory events within the synapse. Ligand-bound integrins, predominantly the αLβ2 isoform LFA-1, function as spatial cues to attract lytic granules containing perforin and granzyme and induce their fusion with the plasma membrane for content release. LFA-1 is subjected to pulling forces within secretory domains, and disruption of these forces via depletion of the adaptor molecule talin abrogates cytotoxicity. We thus conclude that lymphocytes employ an integrin-dependent mechanical checkpoint to enhance their cytotoxic power and fidelity.",

author = "Wang, \{Mitchell S.\} and Yuesong Hu and Sanchez, \{Elisa E.\} and Xihe Xie and Roy, \{Nathan H.\} and \{de Jesus\}, Miguel and Winer, \{Benjamin Y.\} and Zale, \{Elizabeth A.\} and Weiyang Jin and Chirag Sachar and Lee, \{Joanne H.\} and Yeonsun Hong and Minsoo Kim and Kam, \{Lance C.\} and Khalid Salaita and Morgan Huse",

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year = "2022",

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doi = "10.1038/s41467-022-30809-3",

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T1 - Mechanically active integrins target lytic secretion at the immune synapse to facilitate cellular cytotoxicity

AU - Wang, Mitchell S.

AU - Hu, Yuesong

AU - Sanchez, Elisa E.

AU - Xie, Xihe

AU - Roy, Nathan H.

AU - de Jesus, Miguel

AU - Winer, Benjamin Y.

AU - Zale, Elizabeth A.

AU - Jin, Weiyang

AU - Sachar, Chirag

AU - Lee, Joanne H.

AU - Hong, Yeonsun

AU - Kim, Minsoo

AU - Kam, Lance C.

AU - Salaita, Khalid

AU - Huse, Morgan

PY - 2022/12

Y1 - 2022/12

N2 - Cytotoxic lymphocytes fight pathogens and cancer by forming immune synapses with infected or transformed target cells and then secreting cytotoxic perforin and granzyme into the synaptic space, with potent and specific killing achieved by this focused delivery. The mechanisms that establish the precise location of secretory events, however, remain poorly understood. Here we use single cell biophysical measurements, micropatterning, and functional assays to demonstrate that localized mechanotransduction helps define the position of secretory events within the synapse. Ligand-bound integrins, predominantly the αLβ2 isoform LFA-1, function as spatial cues to attract lytic granules containing perforin and granzyme and induce their fusion with the plasma membrane for content release. LFA-1 is subjected to pulling forces within secretory domains, and disruption of these forces via depletion of the adaptor molecule talin abrogates cytotoxicity. We thus conclude that lymphocytes employ an integrin-dependent mechanical checkpoint to enhance their cytotoxic power and fidelity.

AB - Cytotoxic lymphocytes fight pathogens and cancer by forming immune synapses with infected or transformed target cells and then secreting cytotoxic perforin and granzyme into the synaptic space, with potent and specific killing achieved by this focused delivery. The mechanisms that establish the precise location of secretory events, however, remain poorly understood. Here we use single cell biophysical measurements, micropatterning, and functional assays to demonstrate that localized mechanotransduction helps define the position of secretory events within the synapse. Ligand-bound integrins, predominantly the αLβ2 isoform LFA-1, function as spatial cues to attract lytic granules containing perforin and granzyme and induce their fusion with the plasma membrane for content release. LFA-1 is subjected to pulling forces within secretory domains, and disruption of these forces via depletion of the adaptor molecule talin abrogates cytotoxicity. We thus conclude that lymphocytes employ an integrin-dependent mechanical checkpoint to enhance their cytotoxic power and fidelity.

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U2 - 10.1038/s41467-022-30809-3

DO - 10.1038/s41467-022-30809-3

M3 - Article

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SN - 2041-1723

VL - 13

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3222

ER -

Mechanically active integrins target lytic secretion at the immune synapse to facilitate cellular cytotoxicity

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