Low-frequency ultrasound-mediated cytokine transfection enhances T cell recruitment at local and distant tumor sites

Tali Ilovitsh; Yi Feng; Josquin Foiret; Azadeh Kheirolomoom; Hua Zhang; Elizabeth S. Ingham; Asaf Ilovitsh; Spencer K. Tumbale; Brett Z. Fite; Bo Wu; Marina N. Raie; Nisi Zhang; Aris J. Kare; Michael Chavez; Lei S. Qi; Gadi Pelled; Dan Gazit; Ophir Vermesh; Idan Steinberg; Sanjiv S. Gambhir; Katherine W. Ferrara

doi:10.1073/pnas.1914906117

Low-frequency ultrasound-mediated cytokine transfection enhances T cell recruitment at local and distant tumor sites

Tali Ilovitsh
, Yi Feng
, Josquin Foiret
, Azadeh Kheirolomoom
, Hua Zhang
, Elizabeth S. Ingham
, Asaf Ilovitsh
, Spencer K. Tumbale
, Brett Z. Fite
, Bo Wu
, Marina N. Raie
, Nisi Zhang
, Aris J. Kare
, Michael Chavez
, Lei S. Qi
, Gadi Pelled
, Dan Gazit
, Ophir Vermesh
, Idan Steinberg
, Sanjiv S. Gambhir

Katherine W. Ferrara^*

^*Corresponding author for this work

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

80 Scopus citations

Abstract

Robust cytotoxic T cell infiltration has proven to be difficult to achieve in solid tumors. We set out to develop a flexible protocol to efficiently transfect tumor and stromal cells to produce immune-activating cytokines, and thus enhance T cell infiltration while debulking tumor mass. By combining ultrasound with tumor-targeted microbubbles, membrane pores are created and facilitate a controllable and local transfection. Here, we applied a substantially lower transmission frequency (250 kHz) than applied previously. The resulting microbubble oscillation was significantly enhanced, reaching an effective expansion ratio of 35 for a peak negative pressure of 500 kPa in vitro. Combining low-frequency ultrasound with tumor-targeted microbubbles and a DNA plasmid construct, 20% of tumor cells remained viable, and ∼20% of these remaining cells were transfected with a reporter gene both in vitro and in vivo. The majority of cells transfected in vivo were mucin 1⁺/ CD45⁻ tumor cells. Tumor and stromal cells were then transfected with plasmid DNA encoding IFN-β, producing 150 pg/10⁶ cells in vitro, a 150-fold increase compared to no-ultrasound or no-plasmid controls and a 50-fold increase compared to treatment with targeted microbubbles and ultrasound (without IFN-β). This enhancement in secretion exceeds previously reported fourfold to fivefold increases with other in vitro treatments. Combined with intraperitoneal administration of checkpoint inhibition, a single application of IFN-β plasmid transfection reduced tumor growth in vivo and recruited efficacious immune cells at both the local and distant tumor sites.

Original language	English
Pages (from-to)	12674-12685
Number of pages	12
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	117
Issue number	23
DOIs	https://doi.org/10.1073/pnas.1914906117
State	Published - 9 Jun 2020
Externally published	Yes

Funding

Funders	Funder number
University of California, Davis
National Institutes of Health	T32GM007276, C06-RR12088, R01CA199658, R01CA211602, R01CA112356, R01EB026094, R01CA210553, R01CA227687
National Cancer Institute	P30 CA093373

Keywords

Microbubble
Transfection
Ultrasound

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1073/pnas.1914906117

Cite this

Ilovitsh, T., Feng, Y., Foiret, J., Kheirolomoom, A., Zhang, H., Ingham, E. S., Ilovitsh, A., Tumbale, S. K., Fite, B. Z., Wu, B., Raie, M. N., Zhang, N., Kare, A. J., Chavez, M., Qi, L. S., Pelled, G., Gazit, D., Vermesh, O., Steinberg, I., ... Ferrara, K. W. (2020). Low-frequency ultrasound-mediated cytokine transfection enhances T cell recruitment at local and distant tumor sites. Proceedings of the National Academy of Sciences of the United States of America, 117(23), 12674-12685. https://doi.org/10.1073/pnas.1914906117

@article{ae14110fc6a94c6882c4eaba8a13fce7,

title = "Low-frequency ultrasound-mediated cytokine transfection enhances T cell recruitment at local and distant tumor sites",

abstract = "Robust cytotoxic T cell infiltration has proven to be difficult to achieve in solid tumors. We set out to develop a flexible protocol to efficiently transfect tumor and stromal cells to produce immune-activating cytokines, and thus enhance T cell infiltration while debulking tumor mass. By combining ultrasound with tumor-targeted microbubbles, membrane pores are created and facilitate a controllable and local transfection. Here, we applied a substantially lower transmission frequency (250 kHz) than applied previously. The resulting microbubble oscillation was significantly enhanced, reaching an effective expansion ratio of 35 for a peak negative pressure of 500 kPa in vitro. Combining low-frequency ultrasound with tumor-targeted microbubbles and a DNA plasmid construct, 20\% of tumor cells remained viable, and ∼20\% of these remaining cells were transfected with a reporter gene both in vitro and in vivo. The majority of cells transfected in vivo were mucin 1+/ CD45− tumor cells. Tumor and stromal cells were then transfected with plasmid DNA encoding IFN-β, producing 150 pg/106 cells in vitro, a 150-fold increase compared to no-ultrasound or no-plasmid controls and a 50-fold increase compared to treatment with targeted microbubbles and ultrasound (without IFN-β). This enhancement in secretion exceeds previously reported fourfold to fivefold increases with other in vitro treatments. Combined with intraperitoneal administration of checkpoint inhibition, a single application of IFN-β plasmid transfection reduced tumor growth in vivo and recruited efficacious immune cells at both the local and distant tumor sites.",

keywords = "Microbubble, Transfection, Ultrasound",

author = "Tali Ilovitsh and Yi Feng and Josquin Foiret and Azadeh Kheirolomoom and Hua Zhang and Ingham, \{Elizabeth S.\} and Asaf Ilovitsh and Tumbale, \{Spencer K.\} and Fite, \{Brett Z.\} and Bo Wu and Raie, \{Marina N.\} and Nisi Zhang and Kare, \{Aris J.\} and Michael Chavez and Qi, \{Lei S.\} and Gadi Pelled and Dan Gazit and Ophir Vermesh and Idan Steinberg and Gambhir, \{Sanjiv S.\} and Ferrara, \{Katherine W.\}",

year = "2020",

month = jun,

day = "9",

doi = "10.1073/pnas.1914906117",

language = "אנגלית",

volume = "117",

pages = "12674--12685",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "23",

}

Ilovitsh, T, Feng, Y, Foiret, J, Kheirolomoom, A, Zhang, H, Ingham, ES, Ilovitsh, A, Tumbale, SK, Fite, BZ, Wu, B, Raie, MN, Zhang, N, Kare, AJ, Chavez, M, Qi, LS, Pelled, G, Gazit, D, Vermesh, O, Steinberg, I, Gambhir, SS & Ferrara, KW 2020, 'Low-frequency ultrasound-mediated cytokine transfection enhances T cell recruitment at local and distant tumor sites', Proceedings of the National Academy of Sciences of the United States of America, vol. 117, no. 23, pp. 12674-12685. https://doi.org/10.1073/pnas.1914906117

TY - JOUR

T1 - Low-frequency ultrasound-mediated cytokine transfection enhances T cell recruitment at local and distant tumor sites

AU - Ilovitsh, Tali

AU - Feng, Yi

AU - Foiret, Josquin

AU - Kheirolomoom, Azadeh

AU - Zhang, Hua

AU - Ingham, Elizabeth S.

AU - Ilovitsh, Asaf

AU - Tumbale, Spencer K.

AU - Fite, Brett Z.

AU - Wu, Bo

AU - Raie, Marina N.

AU - Zhang, Nisi

AU - Kare, Aris J.

AU - Chavez, Michael

AU - Qi, Lei S.

AU - Pelled, Gadi

AU - Gazit, Dan

AU - Vermesh, Ophir

AU - Steinberg, Idan

AU - Gambhir, Sanjiv S.

AU - Ferrara, Katherine W.

PY - 2020/6/9

Y1 - 2020/6/9

N2 - Robust cytotoxic T cell infiltration has proven to be difficult to achieve in solid tumors. We set out to develop a flexible protocol to efficiently transfect tumor and stromal cells to produce immune-activating cytokines, and thus enhance T cell infiltration while debulking tumor mass. By combining ultrasound with tumor-targeted microbubbles, membrane pores are created and facilitate a controllable and local transfection. Here, we applied a substantially lower transmission frequency (250 kHz) than applied previously. The resulting microbubble oscillation was significantly enhanced, reaching an effective expansion ratio of 35 for a peak negative pressure of 500 kPa in vitro. Combining low-frequency ultrasound with tumor-targeted microbubbles and a DNA plasmid construct, 20% of tumor cells remained viable, and ∼20% of these remaining cells were transfected with a reporter gene both in vitro and in vivo. The majority of cells transfected in vivo were mucin 1+/ CD45− tumor cells. Tumor and stromal cells were then transfected with plasmid DNA encoding IFN-β, producing 150 pg/106 cells in vitro, a 150-fold increase compared to no-ultrasound or no-plasmid controls and a 50-fold increase compared to treatment with targeted microbubbles and ultrasound (without IFN-β). This enhancement in secretion exceeds previously reported fourfold to fivefold increases with other in vitro treatments. Combined with intraperitoneal administration of checkpoint inhibition, a single application of IFN-β plasmid transfection reduced tumor growth in vivo and recruited efficacious immune cells at both the local and distant tumor sites.

AB - Robust cytotoxic T cell infiltration has proven to be difficult to achieve in solid tumors. We set out to develop a flexible protocol to efficiently transfect tumor and stromal cells to produce immune-activating cytokines, and thus enhance T cell infiltration while debulking tumor mass. By combining ultrasound with tumor-targeted microbubbles, membrane pores are created and facilitate a controllable and local transfection. Here, we applied a substantially lower transmission frequency (250 kHz) than applied previously. The resulting microbubble oscillation was significantly enhanced, reaching an effective expansion ratio of 35 for a peak negative pressure of 500 kPa in vitro. Combining low-frequency ultrasound with tumor-targeted microbubbles and a DNA plasmid construct, 20% of tumor cells remained viable, and ∼20% of these remaining cells were transfected with a reporter gene both in vitro and in vivo. The majority of cells transfected in vivo were mucin 1+/ CD45− tumor cells. Tumor and stromal cells were then transfected with plasmid DNA encoding IFN-β, producing 150 pg/106 cells in vitro, a 150-fold increase compared to no-ultrasound or no-plasmid controls and a 50-fold increase compared to treatment with targeted microbubbles and ultrasound (without IFN-β). This enhancement in secretion exceeds previously reported fourfold to fivefold increases with other in vitro treatments. Combined with intraperitoneal administration of checkpoint inhibition, a single application of IFN-β plasmid transfection reduced tumor growth in vivo and recruited efficacious immune cells at both the local and distant tumor sites.

KW - Microbubble

KW - Transfection

KW - Ultrasound

UR - https://www.scopus.com/pages/publications/85086346243

U2 - 10.1073/pnas.1914906117

DO - 10.1073/pnas.1914906117

M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???

C2 - 32430322

AN - SCOPUS:85086346243

SN - 0027-8424

VL - 117

SP - 12674

EP - 12685

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 23

ER -

Low-frequency ultrasound-mediated cytokine transfection enhances T cell recruitment at local and distant tumor sites

Abstract

Funding

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this