Journal of Nanobiotechnology (Dec 2022)

Gold nanoparticle delivery to solid tumors: a multiparametric study on particle size and the tumor microenvironment

  • Mukaddes Izci,
  • Christy Maksoudian,
  • Filipa Gonçalves,
  • Lucia Aversa,
  • Robbe Salembier,
  • Ara Sargsian,
  • Irati Pérez Gilabert,
  • Tianjiao Chu,
  • Carla Rios Luci,
  • Eduardo Bolea-Fernandez,
  • David Nittner,
  • Frank Vanhaecke,
  • Bella B. Manshian,
  • Stefaan J. Soenen

DOI
https://doi.org/10.1186/s12951-022-01727-9
Journal volume & issue
Vol. 20, no. 1
pp. 1 – 20

Abstract

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Abstract Nanoparticle (NP) delivery to solid tumors remains an actively studied field, where several recent studies have shed new insights into the underlying mechanisms and the still overall poor efficacy. In the present study, Au NPs of different sizes were used as model systems to address this topic, where delivery of the systemically administered NPs to the tumor as a whole or to tumor cells specifically was examined in view of a broad range of tumor-associated parameters. Using non-invasive imaging combined with histology, immunohistochemistry, single-cell spatial RNA expression and image-based single cell cytometry revealed a size-dependent complex interaction of multiple parameters that promoted tumor and tumor-cell specific NP delivery. Interestingly, the data show that most NPs are sequestered by tumor-associated macrophages and cancer-associated fibroblasts, while only few NPs reach the actual tumor cells. While perfusion is important, leaky blood vessels were found not to promote NP delivery, but rather that delivery efficacy correlated with the maturity level of tumor-associated blood vessels. In line with recent studies, we found that the presence of specialized endothelial cells, expressing high levels of CD276 and Plvap promoted both tumor delivery and tumor cell-specific delivery of NPs. This study identifies several parameters that can be used to determine the suitability of NP delivery to the tumor region or to tumor cells specifically, and enables personalized approaches for maximal delivery of nanoformulations to the targeted tumor. Graphical Abstract

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