A modular approach toward producing nanotherapeutics targeting the innate immune system

Mandy M. T. van Leent; Anu E. Meerwaldt; Alexandre Berchouchi; Yohana C. Toner; Marianne E. Burnett; Emma D. Klein; Anna Vera D. Verschuur; Sheqouia A. Nauta; Jazz Munitz; Geoffrey Prévot; Esther M. van Leeuwen; Farideh Ordikhani; Vera P. Mourits; Claudia Calcagno; Philip M. Robson; George Soultanidis; Thomas Reiner; Rick R. M. Joosten; Heiner Friedrich; Joren C. Madsen; Ewelina Kluza; Roy van der Meel; Leo A. B. Joosten; Mihai G. Netea; Jordi Ochando; Zahi A. Fayad; Carlos Pérez-Medina; Willem J. M. Mulder; Abraham J. P. Teunissen

doi:https://doi.org/10.1126/sciadv.abe7853

A modular approach toward producing nanotherapeutics targeting the innate immune system

Mandy M. T. van Leent, Anu E. Meerwaldt, Alexandre Berchouchi, Yohana C. Toner, Marianne E. Burnett, Emma D. Klein, Anna Vera D. Verschuur, Sheqouia A. Nauta, Jazz Munitz, Geoffrey Prévot, Esther M. van Leeuwen, Farideh Ordikhani, Vera P. Mourits, Claudia Calcagno, Philip M. Robson, George Soultanidis, Thomas Reiner, Rick R. M. Joosten, Heiner Friedrich, Joren C. MadsenEwelina Kluza, Roy van der Meel, Leo A. B. Joosten, Mihai G. Netea, Jordi Ochando, Zahi A. Fayad, Carlos Pérez-Medina, Willem J. M. Mulder, Abraham J. P. Teunissen

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

16 Citations (Scopus)

Abstract

Immunotherapies controlling the adaptive immune system are firmly established, but regulating the innate immune system remains much less explored. The intrinsic interactions between nanoparticles and phagocytic myeloid cells make these materials especially suited for engaging the innate immune system. However, developing nanotherapeutics is an elaborate process. Here, we demonstrate a modular approach that facilitates efficiently incorporating a broad variety of drugs in a nanobiologic platform. Using a microfluidic formulation strategy, we produced apolipoprotein A1–based nanobiologics with favorable innate immune system–engaging properties as evaluated by in vivo screening. Subsequently, rapamycin and three small-molecule inhibitors were derivatized with lipophilic promoieties, ensuring their seamless incorporation and efficient retention in nanobiologics. A short regimen of intravenously administered rapamycin-loaded nanobiologics (mTORi-NBs) significantly prolonged allograft survival in a heart transplantation mouse model. Last, we studied mTORi-NB biodistribution in nonhuman primates by PET/MR imaging and evaluated its safety, paving the way for clinical translation.

Original language	English
Article number	eabe7853
Journal	Science advances
Volume	7
Issue number	10
DOIs	https://doi.org/10.1126/sciadv.abe7853
Publication status	Published - 3 Mar 2021

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van Leent, M. M. T., Meerwaldt, A. E., Berchouchi, A., Toner, Y. C., Burnett, M. E., Klein, E. D., Verschuur, A. V. D., Nauta, S. A., Munitz, J., Prévot, G., van Leeuwen, E. M., Ordikhani, F., Mourits, V. P., Calcagno, C., Robson, P. M., Soultanidis, G., Reiner, T., Joosten, R. R. M., Friedrich, H., ... Teunissen, A. J. P. (2021). A modular approach toward producing nanotherapeutics targeting the innate immune system. Science advances, 7(10), Article eabe7853. https://doi.org/10.1126/sciadv.abe7853

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title = "A modular approach toward producing nanotherapeutics targeting the innate immune system",

abstract = "Immunotherapies controlling the adaptive immune system are firmly established, but regulating the innate immune system remains much less explored. The intrinsic interactions between nanoparticles and phagocytic myeloid cells make these materials especially suited for engaging the innate immune system. However, developing nanotherapeutics is an elaborate process. Here, we demonstrate a modular approach that facilitates efficiently incorporating a broad variety of drugs in a nanobiologic platform. Using a microfluidic formulation strategy, we produced apolipoprotein A1–based nanobiologics with favorable innate immune system–engaging properties as evaluated by in vivo screening. Subsequently, rapamycin and three small-molecule inhibitors were derivatized with lipophilic promoieties, ensuring their seamless incorporation and efficient retention in nanobiologics. A short regimen of intravenously administered rapamycin-loaded nanobiologics (mTORi-NBs) significantly prolonged allograft survival in a heart transplantation mouse model. Last, we studied mTORi-NB biodistribution in nonhuman primates by PET/MR imaging and evaluated its safety, paving the way for clinical translation.",

author = "{van Leent}, {Mandy M. T.} and Meerwaldt, {Anu E.} and Alexandre Berchouchi and Toner, {Yohana C.} and Burnett, {Marianne E.} and Klein, {Emma D.} and Verschuur, {Anna Vera D.} and Nauta, {Sheqouia A.} and Jazz Munitz and Geoffrey Pr{\'e}vot and {van Leeuwen}, {Esther M.} and Farideh Ordikhani and Mourits, {Vera P.} and Claudia Calcagno and Robson, {Philip M.} and George Soultanidis and Thomas Reiner and Joosten, {Rick R. M.} and Heiner Friedrich and Madsen, {Joren C.} and Ewelina Kluza and {van der Meel}, Roy and Joosten, {Leo A. B.} and Netea, {Mihai G.} and Jordi Ochando and Fayad, {Zahi A.} and Carlos P{\'e}rez-Medina and Mulder, {Willem J. M.} and Teunissen, {Abraham J. P.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 The Authors, some rights reserved;",

year = "2021",

month = mar,

day = "3",

doi = "https://doi.org/10.1126/sciadv.abe7853",

language = "English",

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journal = "Science advances",

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van Leent, MMT, Meerwaldt, AE, Berchouchi, A, Toner, YC, Burnett, ME, Klein, ED, Verschuur, AVD, Nauta, SA, Munitz, J, Prévot, G, van Leeuwen, EM, Ordikhani, F, Mourits, VP, Calcagno, C, Robson, PM, Soultanidis, G, Reiner, T, Joosten, RRM, Friedrich, H, Madsen, JC, Kluza, E, van der Meel, R, Joosten, LAB, Netea, MG, Ochando, J, Fayad, ZA, Pérez-Medina, C, Mulder, WJM & Teunissen, AJP 2021, 'A modular approach toward producing nanotherapeutics targeting the innate immune system', Science advances, vol. 7, no. 10, eabe7853. https://doi.org/10.1126/sciadv.abe7853

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AU - van Leent, Mandy M. T.

AU - Meerwaldt, Anu E.

AU - Berchouchi, Alexandre

AU - Toner, Yohana C.

AU - Burnett, Marianne E.

AU - Klein, Emma D.

AU - Verschuur, Anna Vera D.

AU - Nauta, Sheqouia A.

AU - Munitz, Jazz

AU - Prévot, Geoffrey

AU - van Leeuwen, Esther M.

AU - Ordikhani, Farideh

AU - Mourits, Vera P.

AU - Calcagno, Claudia

AU - Robson, Philip M.

AU - Soultanidis, George

AU - Reiner, Thomas

AU - Joosten, Rick R. M.

AU - Friedrich, Heiner

AU - Madsen, Joren C.

AU - Kluza, Ewelina

AU - van der Meel, Roy

AU - Joosten, Leo A. B.

AU - Netea, Mihai G.

AU - Ochando, Jordi

AU - Fayad, Zahi A.

AU - Pérez-Medina, Carlos

AU - Mulder, Willem J. M.

AU - Teunissen, Abraham J. P.

PY - 2021/3/3

Y1 - 2021/3/3

N2 - Immunotherapies controlling the adaptive immune system are firmly established, but regulating the innate immune system remains much less explored. The intrinsic interactions between nanoparticles and phagocytic myeloid cells make these materials especially suited for engaging the innate immune system. However, developing nanotherapeutics is an elaborate process. Here, we demonstrate a modular approach that facilitates efficiently incorporating a broad variety of drugs in a nanobiologic platform. Using a microfluidic formulation strategy, we produced apolipoprotein A1–based nanobiologics with favorable innate immune system–engaging properties as evaluated by in vivo screening. Subsequently, rapamycin and three small-molecule inhibitors were derivatized with lipophilic promoieties, ensuring their seamless incorporation and efficient retention in nanobiologics. A short regimen of intravenously administered rapamycin-loaded nanobiologics (mTORi-NBs) significantly prolonged allograft survival in a heart transplantation mouse model. Last, we studied mTORi-NB biodistribution in nonhuman primates by PET/MR imaging and evaluated its safety, paving the way for clinical translation.

AB - Immunotherapies controlling the adaptive immune system are firmly established, but regulating the innate immune system remains much less explored. The intrinsic interactions between nanoparticles and phagocytic myeloid cells make these materials especially suited for engaging the innate immune system. However, developing nanotherapeutics is an elaborate process. Here, we demonstrate a modular approach that facilitates efficiently incorporating a broad variety of drugs in a nanobiologic platform. Using a microfluidic formulation strategy, we produced apolipoprotein A1–based nanobiologics with favorable innate immune system–engaging properties as evaluated by in vivo screening. Subsequently, rapamycin and three small-molecule inhibitors were derivatized with lipophilic promoieties, ensuring their seamless incorporation and efficient retention in nanobiologics. A short regimen of intravenously administered rapamycin-loaded nanobiologics (mTORi-NBs) significantly prolonged allograft survival in a heart transplantation mouse model. Last, we studied mTORi-NB biodistribution in nonhuman primates by PET/MR imaging and evaluated its safety, paving the way for clinical translation.

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DO - https://doi.org/10.1126/sciadv.abe7853

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SN - 2375-2548

VL - 7

JO - Science advances

JF - Science advances

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A modular approach toward producing nanotherapeutics targeting the innate immune system

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