Intrapleural nano-immunotherapy promotes innate and adaptive immune responses to enhance anti-PD-L1 therapy for malignant pleural effusion

Yang Liu; Lulu Wang; Qianqian Song; Muhammad Ali; William N. Crowe; Gregory L. Kucera; Gregory A. Hawkins; Shay Soker; Karl W. Thomas; Lance D. Miller; Yong Lu; Christina R. Bellinger; Wei Zhang; Amyn A. Habib; W. Jeffrey Petty; Dawen Zhao

doi:10.1038/s41565-021-01032-w

Intrapleural nano-immunotherapy promotes innate and adaptive immune responses to enhance anti-PD-L1 therapy for malignant pleural effusion

Yang Liu, Lulu Wang, Qianqian Song, Muhammad Ali, William N. Crowe, Gregory L. Kucera, Gregory A. Hawkins, Shay Soker, Karl W. Thomas, Lance D. Miller, Yong Lu, Christina R. Bellinger, Wei Zhang, Amyn A. Habib, W. Jeffrey Petty, Dawen Zhao

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40 Scopus citations

Abstract

Malignant pleural effusion (MPE) is indicative of terminal malignancy with a uniformly fatal prognosis. Often, two distinct compartments of tumour microenvironment, the effusion and disseminated pleural tumours, co-exist in the pleural cavity, presenting a major challenge for therapeutic interventions and drug delivery. Clinical evidence suggests that MPE comprises abundant tumour-associated myeloid cells with the tumour-promoting phenotype, impairing antitumour immunity. Here we developed a liposomal nanoparticle loaded with cyclic dinucleotide (LNP-CDN) for targeted activation of stimulators of interferon genes signalling in macrophages and dendritic cells and showed that, on intrapleural administration, they induce drastic changes in the transcriptional landscape in MPE, mitigating the immune cold MPE in both effusion and pleural tumours. Moreover, combination immunotherapy with blockade of programmed death ligand 1 potently reduced MPE volume and inhibited tumour growth not only in the pleural cavity but also in the lung parenchyma, conferring significantly prolonged survival of MPE-bearing mice. Furthermore, the LNP-CDN-induced immunological effects were also observed with clinical MPE samples, suggesting the potential of intrapleural LNP-CDN for clinical MPE immunotherapy.

Original language	English (US)
Pages (from-to)	206-216
Number of pages	11
Journal	Nature Nanotechnology
Volume	17
Issue number	2
DOIs	https://doi.org/10.1038/s41565-021-01032-w
State	Published - Feb 2022

ASJC Scopus subject areas

Bioengineering
Atomic and Molecular Physics, and Optics
Biomedical Engineering
General Materials Science
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1038/s41565-021-01032-w

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Liu, Y., Wang, L., Song, Q., Ali, M., Crowe, W. N., Kucera, G. L., Hawkins, G. A., Soker, S., Thomas, K. W., Miller, L. D., Lu, Y., Bellinger, C. R., Zhang, W., Habib, A. A., Petty, W. J., & Zhao, D. (2022). Intrapleural nano-immunotherapy promotes innate and adaptive immune responses to enhance anti-PD-L1 therapy for malignant pleural effusion. Nature Nanotechnology, 17(2), 206-216. https://doi.org/10.1038/s41565-021-01032-w

Liu, Y, Wang, L, Song, Q, Ali, M, Crowe, WN, Kucera, GL, Hawkins, GA, Soker, S, Thomas, KW, Miller, LD, Lu, Y, Bellinger, CR, Zhang, W, Habib, AA, Petty, WJ & Zhao, D 2022, 'Intrapleural nano-immunotherapy promotes innate and adaptive immune responses to enhance anti-PD-L1 therapy for malignant pleural effusion', Nature Nanotechnology, vol. 17, no. 2, pp. 206-216. https://doi.org/10.1038/s41565-021-01032-w

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title = "Intrapleural nano-immunotherapy promotes innate and adaptive immune responses to enhance anti-PD-L1 therapy for malignant pleural effusion",

abstract = "Malignant pleural effusion (MPE) is indicative of terminal malignancy with a uniformly fatal prognosis. Often, two distinct compartments of tumour microenvironment, the effusion and disseminated pleural tumours, co-exist in the pleural cavity, presenting a major challenge for therapeutic interventions and drug delivery. Clinical evidence suggests that MPE comprises abundant tumour-associated myeloid cells with the tumour-promoting phenotype, impairing antitumour immunity. Here we developed a liposomal nanoparticle loaded with cyclic dinucleotide (LNP-CDN) for targeted activation of stimulators of interferon genes signalling in macrophages and dendritic cells and showed that, on intrapleural administration, they induce drastic changes in the transcriptional landscape in MPE, mitigating the immune cold MPE in both effusion and pleural tumours. Moreover, combination immunotherapy with blockade of programmed death ligand 1 potently reduced MPE volume and inhibited tumour growth not only in the pleural cavity but also in the lung parenchyma, conferring significantly prolonged survival of MPE-bearing mice. Furthermore, the LNP-CDN-induced immunological effects were also observed with clinical MPE samples, suggesting the potential of intrapleural LNP-CDN for clinical MPE immunotherapy.",

author = "Yang Liu and Lulu Wang and Qianqian Song and Muhammad Ali and Crowe, {William N.} and Kucera, {Gregory L.} and Hawkins, {Gregory A.} and Shay Soker and Thomas, {Karl W.} and Miller, {Lance D.} and Yong Lu and Bellinger, {Christina R.} and Wei Zhang and Habib, {Amyn A.} and Petty, {W. Jeffrey} and Dawen Zhao",

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doi = "10.1038/s41565-021-01032-w",

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AU - Liu, Yang

AU - Wang, Lulu

AU - Song, Qianqian

AU - Ali, Muhammad

AU - Crowe, William N.

AU - Kucera, Gregory L.

AU - Hawkins, Gregory A.

AU - Soker, Shay

AU - Thomas, Karl W.

AU - Miller, Lance D.

AU - Lu, Yong

AU - Bellinger, Christina R.

AU - Zhang, Wei

AU - Habib, Amyn A.

AU - Petty, W. Jeffrey

AU - Zhao, Dawen

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N2 - Malignant pleural effusion (MPE) is indicative of terminal malignancy with a uniformly fatal prognosis. Often, two distinct compartments of tumour microenvironment, the effusion and disseminated pleural tumours, co-exist in the pleural cavity, presenting a major challenge for therapeutic interventions and drug delivery. Clinical evidence suggests that MPE comprises abundant tumour-associated myeloid cells with the tumour-promoting phenotype, impairing antitumour immunity. Here we developed a liposomal nanoparticle loaded with cyclic dinucleotide (LNP-CDN) for targeted activation of stimulators of interferon genes signalling in macrophages and dendritic cells and showed that, on intrapleural administration, they induce drastic changes in the transcriptional landscape in MPE, mitigating the immune cold MPE in both effusion and pleural tumours. Moreover, combination immunotherapy with blockade of programmed death ligand 1 potently reduced MPE volume and inhibited tumour growth not only in the pleural cavity but also in the lung parenchyma, conferring significantly prolonged survival of MPE-bearing mice. Furthermore, the LNP-CDN-induced immunological effects were also observed with clinical MPE samples, suggesting the potential of intrapleural LNP-CDN for clinical MPE immunotherapy.

AB - Malignant pleural effusion (MPE) is indicative of terminal malignancy with a uniformly fatal prognosis. Often, two distinct compartments of tumour microenvironment, the effusion and disseminated pleural tumours, co-exist in the pleural cavity, presenting a major challenge for therapeutic interventions and drug delivery. Clinical evidence suggests that MPE comprises abundant tumour-associated myeloid cells with the tumour-promoting phenotype, impairing antitumour immunity. Here we developed a liposomal nanoparticle loaded with cyclic dinucleotide (LNP-CDN) for targeted activation of stimulators of interferon genes signalling in macrophages and dendritic cells and showed that, on intrapleural administration, they induce drastic changes in the transcriptional landscape in MPE, mitigating the immune cold MPE in both effusion and pleural tumours. Moreover, combination immunotherapy with blockade of programmed death ligand 1 potently reduced MPE volume and inhibited tumour growth not only in the pleural cavity but also in the lung parenchyma, conferring significantly prolonged survival of MPE-bearing mice. Furthermore, the LNP-CDN-induced immunological effects were also observed with clinical MPE samples, suggesting the potential of intrapleural LNP-CDN for clinical MPE immunotherapy.

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Intrapleural nano-immunotherapy promotes innate and adaptive immune responses to enhance anti-PD-L1 therapy for malignant pleural effusion

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