TY - JOUR
T1 - Polymersomes with splenic avidity target red pulp myeloid cells for cancer immunotherapy
AU - Wauters, Annelies C.
AU - Scheerstra, Jari F.
AU - van Leent, Mandy M.T.
AU - Teunissen, Abraham J.P.
AU - Priem, Bram
AU - Beldman, Thijs J.
AU - Rother, Nils
AU - Duivenvoorden, Raphaël
AU - Prévot, Geoffrey
AU - Munitz, Jazz
AU - Toner, Yohana C.
AU - Deckers, Jeroen
AU - van Elsas, Yuri
AU - Mora-Raimundo, Patricia
AU - Chen, Gal
AU - Nauta, Sheqouia A.
AU - Verschuur, Anna Vera D.
AU - Griffioen, Arjan W.
AU - Schrijver, David P.
AU - Anbergen, Tom
AU - Li, Yudong
AU - Wu, Hanglong
AU - Mason, Alexander F.
AU - van Stevendaal, Marleen H.M.E.
AU - Kluza, Ewelina
AU - Post, Richard A.J.
AU - Joosten, Leo A.B.
AU - Netea, Mihai G.
AU - Calcagno, Claudia
AU - Fayad, Zahi A.
AU - van der Meel, Roy
AU - Schroeder, Avi
AU - Abdelmohsen, Loai K.E.A.
AU - Mulder, Willem J.M.
AU - van Hest, Jan C.M.
PY - 2024/7/31
Y1 - 2024/7/31
N2 - Regulating innate immunity is an emerging approach to improve cancer immunotherapy. Such regulation requires engaging myeloid cells by delivering immunomodulatory compounds to hematopoietic organs, including the spleen. Here we present a polymersome-based nanocarrier with splenic avidity and propensity for red pulp myeloid cell uptake. We characterized the in vivo behaviour of four chemically identical yet topologically different polymersomes by in vivo positron emission tomography imaging and innovative flow and mass cytometry techniques. Upon intravenous administration, relatively large and spherical polymersomes accumulated rapidly in the spleen and efficiently targeted myeloid cells in the splenic red pulp. When loaded with β-glucan, intravenously administered polymersomes significantly reduced tumour growth in a mouse melanoma model. We initiated our nanotherapeutic’s clinical translation with a biodistribution study in non-human primates, which revealed that the platform’s splenic avidity is preserved across species.
AB - Regulating innate immunity is an emerging approach to improve cancer immunotherapy. Such regulation requires engaging myeloid cells by delivering immunomodulatory compounds to hematopoietic organs, including the spleen. Here we present a polymersome-based nanocarrier with splenic avidity and propensity for red pulp myeloid cell uptake. We characterized the in vivo behaviour of four chemically identical yet topologically different polymersomes by in vivo positron emission tomography imaging and innovative flow and mass cytometry techniques. Upon intravenous administration, relatively large and spherical polymersomes accumulated rapidly in the spleen and efficiently targeted myeloid cells in the splenic red pulp. When loaded with β-glucan, intravenously administered polymersomes significantly reduced tumour growth in a mouse melanoma model. We initiated our nanotherapeutic’s clinical translation with a biodistribution study in non-human primates, which revealed that the platform’s splenic avidity is preserved across species.
UR - http://www.scopus.com/inward/record.url?scp=85200132583&partnerID=8YFLogxK
U2 - 10.1038/s41565-024-01727-w
DO - 10.1038/s41565-024-01727-w
M3 - Article
C2 - 39085390
AN - SCOPUS:85200132583
SN - 1748-3387
VL - XX
JO - Nature Nanotechnology
JF - Nature Nanotechnology
IS - X
ER -