Targeted theranostic nanomedicine using targeted CT-imageable particles that release tebentafusp
Satoshi Harada, Takahiro Sato, Kunihiro Yoshioka

TL;DR
A new nanomedicine was developed that combines imaging and therapy by releasing a drug in response to radiation, showing promise in treating melanoma and its spread.
Contribution
A novel theranostic nanomedicine using radiation-triggered release of tebentafusp for targeted tumor therapy was developed and tested.
Findings
Nanoparticles selectively accumulated in tumors and metastases and released IFN-γ, forming HLA-A*02:01-GP100 complexes.
Tebentafusp-loaded nanoparticles induced immunological synapses and T cell-mediated tumor cell death, synergizing with radiation.
The theranostic approach showed an enhancement factor greater than 1, indicating improved therapeutic outcomes.
Abstract
A theranostic nanomedicine for CD3+ bispecific antibodies targeting glycoprotein-100 (GP-100) was tested in vivo using two radiation sessions. CT-imageable nanoparticles composed of hyaluronate-alginate and designed to release their contents upon radiation exposure were evaluated in a mouse model of B16-melanoma model in the left hind leg with pulmonary metastases. In session 1, IFN-γ was encapsulated during the Fe polymerization of hyaluronate-alginate nanoparticles. Nine hours after the intravenous injection of 1 × 1010 IFN-γ nanoparticles, enough to observe dose escalation of either 10 or 20 Gy was administered using 140 keV-X-ray to the primary and metastatic tumors. In session 2, tebentafusp was encapsulated using the same method as in session 1. Seventy-two hours after the intravenous injection of 1 × 1010 tebentafusp-loaded nanoparticles, radiation was administered under…
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Taxonomy
TopicsNanoplatforms for cancer theranostics · Immunotherapy and Immune Responses · Nanoparticle-Based Drug Delivery
