Transport by circulating myeloid cells drives liposomal accumulation in inflamed synovium

Joke Deprez; Rein Verbeke; Sofie Meulewaeter; Ilke Aernout; Heleen Dewitte; Tine Decruy; Julie Coudenys; Julie Van Duyse; Gert Van Isterdael; Dan Peer; Roy van der Meel; Stefaan C. De Smedt; Peggy Jacques; Dirk Elewaut; Ine Lentacker

doi:10.1038/s41565-023-01444-w

Transport by circulating myeloid cells drives liposomal accumulation in inflamed synovium

Joke Deprez, Rein Verbeke, Sofie Meulewaeter, Ilke Aernout, Heleen Dewitte, Tine Decruy, Julie Coudenys, Julie Van Duyse, Gert Van Isterdael, Dan Peer, Roy van der Meel, Stefaan C. De Smedt, Peggy Jacques, Dirk Elewaut (Corresponding author), Ine Lentacker (Corresponding author)

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

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Abstract

The therapeutic potential of liposomes to deliver drugs into inflamed tissue is well documented. Liposomes are believed to largely transport drugs into inflamed joints by selective extravasation through endothelial gaps at the inflammatory sites, known as the enhanced permeation and retention effect. However, the potential of blood-circulating myeloid cells for the uptake and delivery of liposomes has been largely overlooked. Here we show that myeloid cells can transport liposomes to inflammatory sites in a collagen-induced arthritis model. It is shown that the selective depletion of the circulating myeloid cells reduces the accumulation of liposomes up to 50–60%, suggesting that myeloid-cell-mediated transport accounts for more than half of liposomal accumulation in inflamed regions. Although it is widely believed that PEGylation inhibits premature liposome clearance by the mononuclear phagocytic system, our data show that the long blood circulation times of PEGylated liposomes rather favours uptake by myeloid cells. This challenges the prevailing theory that synovial liposomal accumulation is primarily due to the enhanced permeation and retention effect and highlights the potential for other pathways of delivery in inflammatory diseases.

Original language	English
Pages (from-to)	1341-1350
Number of pages	10
Journal	Nature Nanotechnology
Volume	18
Issue number	11
Early online date	10 Jul 2023
DOIs	https://doi.org/10.1038/s41565-023-01444-w
Publication status	Published - Nov 2023

Funding

J.D. acknowledges funding from the Special Research Fund (BOF) from Ghent University (grant no. 01D30517). R.V., S.M. and I.A. acknowledge funding from the Research Foundation-Flanders (FWO-V) (grant nos. 1275023N, 1S73120N and 1S40923N, respectively). I.L. and S.C.D.S acknowledge the FWO-V (grant agreement no. G016221N). I.L. acknowledges financial support from the Ghent University Special Research Fund (UGent-BOF) for Concerted Research Actions (GOA). The work of R.v.d.M. is supported by the Netherlands Research Council (NWO: ZonMW Vici grant no. 016.176.622 to W. J. M. Mulder). D.E. acknowledges funding from the FWO-V (grant nos. 3G0C7719, 3G067219 and G082023N) and Stichting tegen Kanker (STI) (grant no. STI.STK.2023.0005.01). We thank B.D and C.V. from the pre-clinical core imaging facility Infinity Lab (UGent).

Funders	Funder number
Fonds Wetenschappelijk Onderzoek	1275023N, 1S73120N, G016221N, 1S40923N
Nederlandse Organisatie voor Wetenschappelijk Onderzoek	G082023N, 3G0C7719, 3G067219, 016.176.622
Ghent University	01D30517

Keywords

Animals
Arthritis, Experimental/drug therapy
Humans
Liposomes/therapeutic use
Myeloid Cells
Synovial Membrane/metabolism

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Deprez, J., Verbeke, R., Meulewaeter, S., Aernout, I., Dewitte, H., Decruy, T., Coudenys, J., Van Duyse, J., Van Isterdael, G., Peer, D., van der Meel, R., De Smedt, S. C., Jacques, P., Elewaut, D., & Lentacker, I. (2023). Transport by circulating myeloid cells drives liposomal accumulation in inflamed synovium. Nature Nanotechnology, 18(11), 1341-1350. https://doi.org/10.1038/s41565-023-01444-w

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abstract = "The therapeutic potential of liposomes to deliver drugs into inflamed tissue is well documented. Liposomes are believed to largely transport drugs into inflamed joints by selective extravasation through endothelial gaps at the inflammatory sites, known as the enhanced permeation and retention effect. However, the potential of blood-circulating myeloid cells for the uptake and delivery of liposomes has been largely overlooked. Here we show that myeloid cells can transport liposomes to inflammatory sites in a collagen-induced arthritis model. It is shown that the selective depletion of the circulating myeloid cells reduces the accumulation of liposomes up to 50–60%, suggesting that myeloid-cell-mediated transport accounts for more than half of liposomal accumulation in inflamed regions. Although it is widely believed that PEGylation inhibits premature liposome clearance by the mononuclear phagocytic system, our data show that the long blood circulation times of PEGylated liposomes rather favours uptake by myeloid cells. This challenges the prevailing theory that synovial liposomal accumulation is primarily due to the enhanced permeation and retention effect and highlights the potential for other pathways of delivery in inflammatory diseases.",

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author = "Joke Deprez and Rein Verbeke and Sofie Meulewaeter and Ilke Aernout and Heleen Dewitte and Tine Decruy and Julie Coudenys and {Van Duyse}, Julie and {Van Isterdael}, Gert and Dan Peer and {van der Meel}, Roy and {De Smedt}, {Stefaan C.} and Peggy Jacques and Dirk Elewaut and Ine Lentacker",

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Deprez, J, Verbeke, R, Meulewaeter, S, Aernout, I, Dewitte, H, Decruy, T, Coudenys, J, Van Duyse, J, Van Isterdael, G, Peer, D, van der Meel, R, De Smedt, SC, Jacques, P, Elewaut, D & Lentacker, I 2023, 'Transport by circulating myeloid cells drives liposomal accumulation in inflamed synovium', Nature Nanotechnology, vol. 18, no. 11, pp. 1341-1350. https://doi.org/10.1038/s41565-023-01444-w

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AU - Decruy, Tine

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AU - Van Duyse, Julie

AU - Van Isterdael, Gert

AU - Peer, Dan

AU - van der Meel, Roy

AU - De Smedt, Stefaan C.

AU - Jacques, Peggy

AU - Elewaut, Dirk

AU - Lentacker, Ine

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Transport by circulating myeloid cells drives liposomal accumulation in inflamed synovium

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