Targeted Nanocarriers Co-Opting Pulmonary Intravascular Leukocytes for Drug Delivery to the Injured Brain

Jia Nong; Patrick M. Glassman; Jacob W. Myerson; Viviana Zuluaga-Ramirez; Alba Rodriguez-Garcia; Alvin Mukalel; Serena Omo-Lamai; Landis R. Walsh; Marco E. Zamora; Xijing Gong; Zhicheng Wang; Kartik Bhamidipati; Raisa Y. Kiseleva; Carlos H. Villa; Colin Fred Greineder; Scott E. Kasner; Drew Weissman; Michael J. Mitchell; Silvia Muro; Yuri Persidsky; Jacob Samuel Brenner; Vladimir R. Muzykantov; Oscar A. Marcos-Contreras

doi:10.1021/acsnano.2c08275

Targeted Nanocarriers Co-Opting Pulmonary Intravascular Leukocytes for Drug Delivery to the Injured Brain

Jia Nong, Patrick M. Glassman, Jacob W. Myerson, Viviana Zuluaga-Ramirez, Alba Rodriguez-Garcia, Alvin Mukalel, Serena Omo-Lamai, Landis R. Walsh, Marco E. Zamora, Xijing Gong, Zhicheng Wang, Kartik Bhamidipati, Raisa Y. Kiseleva, Carlos H. Villa, Colin Fred Greineder, Scott E. Kasner, Drew Weissman, Michael J. Mitchell, Silvia Muro, Yuri PersidskyJacob Samuel Brenner, Vladimir R. Muzykantov^*, Oscar A. Marcos-Contreras^*

^*Corresponding author for this work

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

21 Citations (Scopus)

Abstract

Ex vivo-loaded white blood cells (WBC) can transfer cargo to pathological foci in the central nervous system (CNS). Here we tested affinity ligand driven in vivo loading of WBC in order to bypass the need for ex vivo WBC manipulation. We used a mouse model of acute brain inflammation caused by local injection of tumor necrosis factor alpha (TNF-α). We intravenously injected nanoparticles targeted to intercellular adhesion molecule 1 (anti-ICAM/NP). We found that (A) at 2 h, >20% of anti-ICAM/NP were localized to the lungs; (B) of the anti-ICAM/NP in the lungs >90% were associated with leukocytes; (C) at 6 and 22 h, anti-ICAM/NP pulmonary uptake decreased; (D) anti-ICAM/NP uptake in brain increased up to 5-fold in this time interval, concomitantly with migration of WBCs into the injured brain. Intravital microscopy confirmed transport of anti-ICAM/NP beyond the blood-brain barrier and flow cytometry demonstrated complete association of NP with WBC in the brain (98%). Dexamethasone-loaded anti-ICAM/liposomes abrogated brain edema in this model and promoted anti-inflammatory M2 polarization of macrophages in the brain. In vivo targeted loading of WBC in the intravascular pool may provide advantages of coopting WBC predisposed to natural rapid mobilization from the lungs to the brain, connected directly via conduit vessels.

Original language	English
Pages (from-to)	13121-13136
Number of pages	16
Journal	ACS Nano
Volume	17
Issue number	14
DOIs	https://doi.org/10.1021/acsnano.2c08275
Publication status	Published - Jul 25 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 The Authors. Published by American Chemical Society.

ASJC Scopus Subject Areas

General Materials Science
General Engineering
General Physics and Astronomy

Keywords

brain
drug delivery
inflammation
nanoparticles
pharmacokinetics
white blood cells

Access to Document

10.1021/acsnano.2c08275

Cite this

Nong, J., Glassman, P. M., Myerson, J. W., Zuluaga-Ramirez, V., Rodriguez-Garcia, A., Mukalel, A., Omo-Lamai, S., Walsh, L. R., Zamora, M. E., Gong, X., Wang, Z., Bhamidipati, K., Kiseleva, R. Y., Villa, C. H., Greineder, C. F., Kasner, S. E., Weissman, D., Mitchell, M. J., Muro, S., ... Marcos-Contreras, O. A. (2023). Targeted Nanocarriers Co-Opting Pulmonary Intravascular Leukocytes for Drug Delivery to the Injured Brain. ACS Nano, 17(14), 13121-13136. https://doi.org/10.1021/acsnano.2c08275

@article{427c33e9911449a6bc36ec39a73fcdcb,

title = "Targeted Nanocarriers Co-Opting Pulmonary Intravascular Leukocytes for Drug Delivery to the Injured Brain",

abstract = "Ex vivo-loaded white blood cells (WBC) can transfer cargo to pathological foci in the central nervous system (CNS). Here we tested affinity ligand driven in vivo loading of WBC in order to bypass the need for ex vivo WBC manipulation. We used a mouse model of acute brain inflammation caused by local injection of tumor necrosis factor alpha (TNF-α). We intravenously injected nanoparticles targeted to intercellular adhesion molecule 1 (anti-ICAM/NP). We found that (A) at 2 h, >20\% of anti-ICAM/NP were localized to the lungs; (B) of the anti-ICAM/NP in the lungs >90\% were associated with leukocytes; (C) at 6 and 22 h, anti-ICAM/NP pulmonary uptake decreased; (D) anti-ICAM/NP uptake in brain increased up to 5-fold in this time interval, concomitantly with migration of WBCs into the injured brain. Intravital microscopy confirmed transport of anti-ICAM/NP beyond the blood-brain barrier and flow cytometry demonstrated complete association of NP with WBC in the brain (98\%). Dexamethasone-loaded anti-ICAM/liposomes abrogated brain edema in this model and promoted anti-inflammatory M2 polarization of macrophages in the brain. In vivo targeted loading of WBC in the intravascular pool may provide advantages of coopting WBC predisposed to natural rapid mobilization from the lungs to the brain, connected directly via conduit vessels.",

keywords = "brain, drug delivery, inflammation, nanoparticles, pharmacokinetics, white blood cells",

author = "Jia Nong and Glassman, \{Patrick M.\} and Myerson, \{Jacob W.\} and Viviana Zuluaga-Ramirez and Alba Rodriguez-Garcia and Alvin Mukalel and Serena Omo-Lamai and Walsh, \{Landis R.\} and Zamora, \{Marco E.\} and Xijing Gong and Zhicheng Wang and Kartik Bhamidipati and Kiseleva, \{Raisa Y.\} and Villa, \{Carlos H.\} and Greineder, \{Colin Fred\} and Kasner, \{Scott E.\} and Drew Weissman and Mitchell, \{Michael J.\} and Silvia Muro and Yuri Persidsky and Brenner, \{Jacob Samuel\} and Muzykantov, \{Vladimir R.\} and Marcos-Contreras, \{Oscar A.\}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Published by American Chemical Society.",

year = "2023",

month = jul,

day = "25",

doi = "10.1021/acsnano.2c08275",

language = "English",

volume = "17",

pages = "13121--13136",

journal = "ACS Nano",

issn = "1936-0851",

publisher = "American Chemical Society",

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}

Nong, J, Glassman, PM, Myerson, JW, Zuluaga-Ramirez, V, Rodriguez-Garcia, A, Mukalel, A, Omo-Lamai, S, Walsh, LR, Zamora, ME, Gong, X, Wang, Z, Bhamidipati, K, Kiseleva, RY, Villa, CH, Greineder, CF, Kasner, SE, Weissman, D, Mitchell, MJ, Muro, S, Persidsky, Y, Brenner, JS, Muzykantov, VR & Marcos-Contreras, OA 2023, 'Targeted Nanocarriers Co-Opting Pulmonary Intravascular Leukocytes for Drug Delivery to the Injured Brain', ACS Nano, vol. 17, no. 14, pp. 13121-13136. https://doi.org/10.1021/acsnano.2c08275

TY - JOUR

T1 - Targeted Nanocarriers Co-Opting Pulmonary Intravascular Leukocytes for Drug Delivery to the Injured Brain

AU - Nong, Jia

AU - Glassman, Patrick M.

AU - Myerson, Jacob W.

AU - Zuluaga-Ramirez, Viviana

AU - Rodriguez-Garcia, Alba

AU - Mukalel, Alvin

AU - Omo-Lamai, Serena

AU - Walsh, Landis R.

AU - Zamora, Marco E.

AU - Gong, Xijing

AU - Wang, Zhicheng

AU - Bhamidipati, Kartik

AU - Kiseleva, Raisa Y.

AU - Villa, Carlos H.

AU - Greineder, Colin Fred

AU - Kasner, Scott E.

AU - Weissman, Drew

AU - Mitchell, Michael J.

AU - Muro, Silvia

AU - Persidsky, Yuri

AU - Brenner, Jacob Samuel

AU - Muzykantov, Vladimir R.

AU - Marcos-Contreras, Oscar A.

PY - 2023/7/25

Y1 - 2023/7/25

N2 - Ex vivo-loaded white blood cells (WBC) can transfer cargo to pathological foci in the central nervous system (CNS). Here we tested affinity ligand driven in vivo loading of WBC in order to bypass the need for ex vivo WBC manipulation. We used a mouse model of acute brain inflammation caused by local injection of tumor necrosis factor alpha (TNF-α). We intravenously injected nanoparticles targeted to intercellular adhesion molecule 1 (anti-ICAM/NP). We found that (A) at 2 h, >20% of anti-ICAM/NP were localized to the lungs; (B) of the anti-ICAM/NP in the lungs >90% were associated with leukocytes; (C) at 6 and 22 h, anti-ICAM/NP pulmonary uptake decreased; (D) anti-ICAM/NP uptake in brain increased up to 5-fold in this time interval, concomitantly with migration of WBCs into the injured brain. Intravital microscopy confirmed transport of anti-ICAM/NP beyond the blood-brain barrier and flow cytometry demonstrated complete association of NP with WBC in the brain (98%). Dexamethasone-loaded anti-ICAM/liposomes abrogated brain edema in this model and promoted anti-inflammatory M2 polarization of macrophages in the brain. In vivo targeted loading of WBC in the intravascular pool may provide advantages of coopting WBC predisposed to natural rapid mobilization from the lungs to the brain, connected directly via conduit vessels.

AB - Ex vivo-loaded white blood cells (WBC) can transfer cargo to pathological foci in the central nervous system (CNS). Here we tested affinity ligand driven in vivo loading of WBC in order to bypass the need for ex vivo WBC manipulation. We used a mouse model of acute brain inflammation caused by local injection of tumor necrosis factor alpha (TNF-α). We intravenously injected nanoparticles targeted to intercellular adhesion molecule 1 (anti-ICAM/NP). We found that (A) at 2 h, >20% of anti-ICAM/NP were localized to the lungs; (B) of the anti-ICAM/NP in the lungs >90% were associated with leukocytes; (C) at 6 and 22 h, anti-ICAM/NP pulmonary uptake decreased; (D) anti-ICAM/NP uptake in brain increased up to 5-fold in this time interval, concomitantly with migration of WBCs into the injured brain. Intravital microscopy confirmed transport of anti-ICAM/NP beyond the blood-brain barrier and flow cytometry demonstrated complete association of NP with WBC in the brain (98%). Dexamethasone-loaded anti-ICAM/liposomes abrogated brain edema in this model and promoted anti-inflammatory M2 polarization of macrophages in the brain. In vivo targeted loading of WBC in the intravascular pool may provide advantages of coopting WBC predisposed to natural rapid mobilization from the lungs to the brain, connected directly via conduit vessels.

KW - brain

KW - drug delivery

KW - inflammation

KW - nanoparticles

KW - pharmacokinetics

KW - white blood cells

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ER -

Targeted Nanocarriers Co-Opting Pulmonary Intravascular Leukocytes for Drug Delivery to the Injured Brain

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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