Development of an engineered extracellular vesicles-based vaccine platform for combined delivery of mRNA and protein to induce functional immunity

Xin Luo; Kathleen M. McAndrews; Kent A. Arian; Sami J. Morse; Viktoria Boeker; Shreyasee V. Kumbhar; Yingying Hu; Krishnan K. Mahadevan; Kaira A. Church; Sriram Chitta; Nicolas T. Ryujin; Janine Hensel; Jianli Dai; Dara P. Dowlatshahi; Hikaru Sugimoto; Michelle L. Kirtley; Valerie S. LeBleu; Shabnam Shalapour; Joe H. Simmons; Raghu Kalluri

doi:10.1016/j.jconrel.2024.08.017

Development of an engineered extracellular vesicles-based vaccine platform for combined delivery of mRNA and protein to induce functional immunity

Xin Luo, Kathleen M. McAndrews, Kent A. Arian, Sami J. Morse, Viktoria Boeker, Shreyasee V. Kumbhar, Yingying Hu, Krishnan K. Mahadevan, Kaira A. Church, Sriram Chitta, Nicolas T. Ryujin, Janine Hensel, Jianli Dai, Dara P. Dowlatshahi, Hikaru Sugimoto, Michelle L. Kirtley, Valerie S. LeBleu, Shabnam Shalapour, Joe H. Simmons, Raghu Kalluri

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

6 Scopus citations

Abstract

mRNA incorporated in lipid nanoparticles (LNPs) became a new class of vaccine modality for induction of immunity against COVID-19 and ushered in a new era in vaccine development. Here, we report a novel, easy-to-execute, and cost effective engineered extracellular vesicles (EVs)-based combined mRNA and protein vaccine platform (EV^X-M+P vaccine) and explore its utility in proof-of-concept immunity studies in the settings of cancer and infectious disease. As a first example, we engineered EVs, natural nanoparticle carriers shed by all cells, to contain ovalbumin mRNA and protein (EV^OvaM+P vaccine) to serve as cancer vaccine against ovalbumin-expressing melanoma tumors. EV^OvaM+P administration to mice with established melanoma tumors resulted in tumor regression associated with effective humoral and adaptive immune responses. As a second example, we generated engineered EVs that contain Spike (S) mRNA and protein to serve as a combined mRNA and protein vaccine (EV^SpikeM+P vaccine) against SARS-CoV-2 infection. EV^SpikeM+P vaccine administration in mice and baboons elicited robust production of neutralizing IgG antibodies against RBD (receptor binding domain) of S protein and S protein specific T cell responses. Our proof-of-concept study describes a new platform with an ability for rapid development of combination mRNA and protein vaccines employing EVs for deployment against cancer and other diseases.

Original language	English (US)
Pages (from-to)	550-562
Number of pages	13
Journal	Journal of Controlled Release
Volume	374
DOIs	https://doi.org/10.1016/j.jconrel.2024.08.017
State	Published - Oct 2024

ASJC Scopus subject areas

Pharmaceutical Science

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Luo, X., McAndrews, K. M., Arian, K. A., Morse, S. J., Boeker, V., Kumbhar, S. V., Hu, Y., Mahadevan, K. K., Church, K. A., Chitta, S., Ryujin, N. T., Hensel, J., Dai, J., Dowlatshahi, D. P., Sugimoto, H., Kirtley, M. L., LeBleu, V. S., Shalapour, S., Simmons, J. H., & Kalluri, R. (2024). Development of an engineered extracellular vesicles-based vaccine platform for combined delivery of mRNA and protein to induce functional immunity. Journal of Controlled Release, 374, 550-562. https://doi.org/10.1016/j.jconrel.2024.08.017

Luo, X, McAndrews, KM, Arian, KA, Morse, SJ, Boeker, V, Kumbhar, SV, Hu, Y, Mahadevan, KK, Church, KA, Chitta, S, Ryujin, NT, Hensel, J, Dai, J, Dowlatshahi, DP, Sugimoto, H, Kirtley, ML, LeBleu, VS, Shalapour, S , Simmons, JH & Kalluri, R 2024, 'Development of an engineered extracellular vesicles-based vaccine platform for combined delivery of mRNA and protein to induce functional immunity', Journal of Controlled Release, vol. 374, pp. 550-562. https://doi.org/10.1016/j.jconrel.2024.08.017

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title = "Development of an engineered extracellular vesicles-based vaccine platform for combined delivery of mRNA and protein to induce functional immunity",

abstract = "mRNA incorporated in lipid nanoparticles (LNPs) became a new class of vaccine modality for induction of immunity against COVID-19 and ushered in a new era in vaccine development. Here, we report a novel, easy-to-execute, and cost effective engineered extracellular vesicles (EVs)-based combined mRNA and protein vaccine platform (EVX-M+P vaccine) and explore its utility in proof-of-concept immunity studies in the settings of cancer and infectious disease. As a first example, we engineered EVs, natural nanoparticle carriers shed by all cells, to contain ovalbumin mRNA and protein (EVOvaM+P vaccine) to serve as cancer vaccine against ovalbumin-expressing melanoma tumors. EVOvaM+P administration to mice with established melanoma tumors resulted in tumor regression associated with effective humoral and adaptive immune responses. As a second example, we generated engineered EVs that contain Spike (S) mRNA and protein to serve as a combined mRNA and protein vaccine (EVSpikeM+P vaccine) against SARS-CoV-2 infection. EVSpikeM+P vaccine administration in mice and baboons elicited robust production of neutralizing IgG antibodies against RBD (receptor binding domain) of S protein and S protein specific T cell responses. Our proof-of-concept study describes a new platform with an ability for rapid development of combination mRNA and protein vaccines employing EVs for deployment against cancer and other diseases.",

author = "Xin Luo and McAndrews, {Kathleen M.} and Arian, {Kent A.} and Morse, {Sami J.} and Viktoria Boeker and Kumbhar, {Shreyasee V.} and Yingying Hu and Mahadevan, {Krishnan K.} and Church, {Kaira A.} and Sriram Chitta and Ryujin, {Nicolas T.} and Janine Hensel and Jianli Dai and Dowlatshahi, {Dara P.} and Hikaru Sugimoto and Kirtley, {Michelle L.} and LeBleu, {Valerie S.} and Shabnam Shalapour and Simmons, {Joe H.} and Raghu Kalluri",

note = "Publisher Copyright: {\textcopyright} 2024",

year = "2024",

month = oct,

doi = "10.1016/j.jconrel.2024.08.017",

language = "English (US)",

volume = "374",

pages = "550--562",

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T1 - Development of an engineered extracellular vesicles-based vaccine platform for combined delivery of mRNA and protein to induce functional immunity

AU - Luo, Xin

AU - McAndrews, Kathleen M.

AU - Arian, Kent A.

AU - Morse, Sami J.

AU - Boeker, Viktoria

AU - Kumbhar, Shreyasee V.

AU - Hu, Yingying

AU - Mahadevan, Krishnan K.

AU - Church, Kaira A.

AU - Chitta, Sriram

AU - Ryujin, Nicolas T.

AU - Hensel, Janine

AU - Dai, Jianli

AU - Dowlatshahi, Dara P.

AU - Sugimoto, Hikaru

AU - Kirtley, Michelle L.

AU - LeBleu, Valerie S.

AU - Shalapour, Shabnam

AU - Simmons, Joe H.

AU - Kalluri, Raghu

PY - 2024/10

Y1 - 2024/10

N2 - mRNA incorporated in lipid nanoparticles (LNPs) became a new class of vaccine modality for induction of immunity against COVID-19 and ushered in a new era in vaccine development. Here, we report a novel, easy-to-execute, and cost effective engineered extracellular vesicles (EVs)-based combined mRNA and protein vaccine platform (EVX-M+P vaccine) and explore its utility in proof-of-concept immunity studies in the settings of cancer and infectious disease. As a first example, we engineered EVs, natural nanoparticle carriers shed by all cells, to contain ovalbumin mRNA and protein (EVOvaM+P vaccine) to serve as cancer vaccine against ovalbumin-expressing melanoma tumors. EVOvaM+P administration to mice with established melanoma tumors resulted in tumor regression associated with effective humoral and adaptive immune responses. As a second example, we generated engineered EVs that contain Spike (S) mRNA and protein to serve as a combined mRNA and protein vaccine (EVSpikeM+P vaccine) against SARS-CoV-2 infection. EVSpikeM+P vaccine administration in mice and baboons elicited robust production of neutralizing IgG antibodies against RBD (receptor binding domain) of S protein and S protein specific T cell responses. Our proof-of-concept study describes a new platform with an ability for rapid development of combination mRNA and protein vaccines employing EVs for deployment against cancer and other diseases.

AB - mRNA incorporated in lipid nanoparticles (LNPs) became a new class of vaccine modality for induction of immunity against COVID-19 and ushered in a new era in vaccine development. Here, we report a novel, easy-to-execute, and cost effective engineered extracellular vesicles (EVs)-based combined mRNA and protein vaccine platform (EVX-M+P vaccine) and explore its utility in proof-of-concept immunity studies in the settings of cancer and infectious disease. As a first example, we engineered EVs, natural nanoparticle carriers shed by all cells, to contain ovalbumin mRNA and protein (EVOvaM+P vaccine) to serve as cancer vaccine against ovalbumin-expressing melanoma tumors. EVOvaM+P administration to mice with established melanoma tumors resulted in tumor regression associated with effective humoral and adaptive immune responses. As a second example, we generated engineered EVs that contain Spike (S) mRNA and protein to serve as a combined mRNA and protein vaccine (EVSpikeM+P vaccine) against SARS-CoV-2 infection. EVSpikeM+P vaccine administration in mice and baboons elicited robust production of neutralizing IgG antibodies against RBD (receptor binding domain) of S protein and S protein specific T cell responses. Our proof-of-concept study describes a new platform with an ability for rapid development of combination mRNA and protein vaccines employing EVs for deployment against cancer and other diseases.

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AN - SCOPUS:85202548813

SN - 0168-3659

VL - 374

SP - 550

EP - 562

JO - Journal of Controlled Release

JF - Journal of Controlled Release

ER -

Development of an engineered extracellular vesicles-based vaccine platform for combined delivery of mRNA and protein to induce functional immunity

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