Currently, the therapeutic performance of traditional mono-chemotherapy on cancers remains unsatisfactory because of the tumor heterogeneity and multidrug resistance. In-light-of intricate tumor structures and distinct tumor microenvironment (TME), combinational therapeutic...
The
precise delivery of multiple drugs to their distinct destinations
plays a significant role in safe and efficient combination therapy;
however, it is highly challenging to simultaneously realize the targets
and overcome the intricate biological hindrances using an all-in-one
nanosystem. Herein, a cascade-responsive hierarchical nanosystem containing
checkpoint inhibitor anti-PD-L1 antibody (αPD-L1) and paclitaxel
(PTX) is developed for spatially programed delivery of multiple drugs
and simultaneously overcoming biological pathway barriers. The hierarchical
nanoparticles (MPH-NP@A) are composed of pH-sensitive hyaluronic acid-acetal-PTX
prodrugs (HA-ace-PTX(SH)) chaperoned by αPD-L1
and metalloproteinase-9 (MMP-9)-responsive outer shells, which could
be fast cleaved to release αPD-L1 in the tumor microenvironment
(TME). The released αPD-L1 sequentially synergizes with PTX
released in the cytoplasm for boosted chemoimmunotherapy due to direct
killing of PTX and intensified immune responses through immunogenic
cell death (ICD) as well as suppression of immune escape by blocking
the PD-1/PD-L1 axis. The in vitro and in
vivo studies demonstrate that MPH-NP@A evokes distinct ICD,
enhanced cytotoxic T lymphocytes infiltration, as well as significant
tumor inhibition, thus providing a promising therapeutic nano-platform
for safe and efficient combination therapy.
Despite the numerous advantages of nanomedicines, their
therapeutic
efficacy is hampered by biological barriers, including fast in vivo clearance, poor tumor accumulation, inefficient
penetration, and cellular uptake. Herein, cross-linked supersmall
micelles based on zwitterionic hyperbranched polycarbonates can overcome
these challenges for efficiently targeted drug delivery. Biodegradable
acryloyl/zwitterion-functionalized hyperbranched polycarbonates are
synthesized by a one-pot sequential reaction of Michael-type addition
and ring-opening polymerization, followed by controlled modification
with carboxybetaine thiol. Cross-linked supersmall zwitterionic micelles
(X-CBMs) are readily prepared by straightforward self-assembly and
UV cross-linking. X-CBMs exhibit prolonged blood circulation because
of their cross-linked structure and zwitterion decoration, which resist
protein corona formation and facilitate escaping RES recognition.
Combined with the advantage of supersmall size (7.0 nm), X-CBMs mediate
high tumor accumulation and deep penetration, which significantly
enhance the targeted antitumor outcome against the 4T1 tumor model
by administration of the paclitaxel (PTX) formulation (X-CBM@PTX).
Oral insulin delivery has been considered with great patient dependence and convenience, as well as favourable glucose homeostasis. Nevertheless, its application is highly limited by the low insulin bioavailability because...
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.