2 research outputs found
Carrier-Free Immunotherapeutic Nano-Booster with Dual Synergistic Effects Based on Glutaminase Inhibition Combined with Photodynamic Therapy
The immunotherapeutic effect elicited by photodynamic
therapy (PDT)
is attenuated by tumor defense mechanisms associated with glutamine
metabolism, including the metabolic regulation of redox homeostasis
and the limitation of the immunosuppressive tumor microenvironment
(ITM). Herein, a carrier-free immunotherapeutic nanobooster C9SN with
dual synergistic effects was constructed by the self-assembly of glutaminase
(GLS) inhibitor compound 968 (C968) and photosensitizer Chlorin e6.
C968-mediated GSH deprivation through inhibiting glutamine metabolism
prevented PDT-generated reactive oxygen species from being annihilated
by GSH, amplifying intracellular oxidative stress, which caused severe
cell death and also enhanced the immunogenic cell death (ICD) effect.
In addition, genome-wide analysis was carried out using RNA-sequencing
to evaluate the changes in cell transcriptome induced by amplifying
oxidative stress. Thereafter, neoantigens generated by the enhanced
ICD effect promoted the maturation of dendritic cells, thereby recruiting
and activating cytotoxic T lymphocytes (CTLs). Meanwhile, C9SN remodeled
the ITM by blocking glutamine metabolism to polarize M2-type tumor-associated
macrophages (TAMs) into M1-type TAMs, which further recruited and
activated the CTLs. Ultimately, this immunotherapeutic nanobooster
suppressed primary and distant tumors. This ākill two birds
with one stoneā strategy would shed light on enhancing tumor
immunogenicity and alleviating tumor immunosuppression to improve
the immunotherapeutic effect of PDT
ROS-Triggered Self-Assembled Nanoparticles Based on a Chemo-Sonodynamic Combinational Therapy Strategy for the Noninvasive Elimination of Hypoxic Tumors
The hypopermeability and hypoxia in the tumor milieu
are important
factors that limit multiple treatments. Herein, the reactive oxygen
species (ROS)-triggered self-assembled nanoparticles (RP-NPs) was
constructed. The natural small molecule Rhein (Rh) was encapsulated
into RP-NPs as a sonosensitizer highly accumulated at the tumor site.
Then highly tissue-permeable ultrasound (US) irradiation induced apoptosis
of tumor cells through the excitation of Rh and acoustic cavitation,
which prompted the rapid production of large amounts of ROS in the
hypoxic tumor microenvironment. In addition, the thioketal bond structures
in the innovatively designed prodrug LA-GEM were triggered and broken
by ROS to achieve rapid targeted release of the gemcitabine (GEM).
Sonodynamic therapy (SDT) increased the tissue permeability of solid
tumors and actively disrupted redox homeostasis via mitochondrial
pathways to kill hypoxic tumor cells, and the triggered response mechanism
to GEM synergistically amplified the effect of chemotherapy. The chemo-sonodynamic
combinational treatment approach is highly effective and noninvasive,
with promising applications for hypoxic tumor elimination, such as
in cervical cancer (CCa) patients who want to maintain their reproductive
function