Bioorthogonal
activation of prodrugs provides a strategy for on-demand
on-site production of therapeutics. Intracellular activation provides
a strategy to localize therapeutics, potentially minimizing off-target
effects. To this end, nanoparticles embedded with transition metal
catalysts (nanozymes) were engineered to generate either “hard”
irreversible or “soft” reversible coronas in serum.
The hard corona induced nanozyme aggregation, effectively inhibiting
nanozyme activity, whereas only modest loss of activity was observed
with the nonaggregating soft corona nanozymes. In both cases complete
activity was restored by treatment with proteases. Intracellular activity
mirrored this reactivation: endogenous proteases in the endosome provided
intracellular activation of both nanozymes. The role of intracellular
proteases in nanozyme reactivation was verified through treatment
of the cells with protease inhibitors, which prevented reactivation.
This study demonstrates the use of intracellular proteolysis as a
strategy for localization of therapeutic generation to within cells.
Macrophages are key effectors of host defense and metabolism, making them pro mising targets for transient genetic therapy. Gene edit ing through delivery of the Cas9-ribonucleoprotein (RNP) provides mu ltip le advantages over gene delivery-based strategies for introducing CRISP R machinery to the cell. There are, however, significant physiological, cellular, and intracellular barriers to the effective delivery of the Cas9 protein and guide RNA (sgRNA) that have to date, restricted in vivo Cas9 proteinbased approaches to local/topical delivery applications. Herein we describe a new nanoassembled platform featuring co-engineered nanoparticles and Cas9 protein that has been developed to provide efficient Cas9-sgRNA delivery and conco mitant CRISPR edit ing through systemic tail-vein inject ion into mice, achieving >8% gene editing efficiency in macrophages of the liver and spleen.Received: ((will be filled in by the editorial staff))Revised: ((will be filled in by the editorial staff))
Phenylenevinylene oligomers (PVs) have outstanding photophysical characteristics for applications in the growing field of organic electronics. Yet, PVs are also versatile molecules, the optical and physicochemical properties of which can be tuned by manipulation of their structure. We report the synthesis, photophysical, and MS characterization of eight PV derivatives with potential value as electron transfer (ET) matrices for UV-MALDI. UV-vis analysis show the presence of strong characteristic absorption bands in the UV region and molar absorptivities at 355 nm similar or higher than those of traditional proton (CHCA) and ET (DCTB) MALDI matrices. Most of the PVs exhibit non-radiative quantum yields (φ) above 0.5, indicating favorable thermal decay. Ionization potential values (IP) for PVs, calculated by the Electron Propagator Theory (EPT), range from 6.88 to 7.96 eV, making these oligomers good candidates as matrices for ET ionization. LDI analysis of PVs shows only the presence of radical cations (M) in positive ion mode and absence of clusters, adducts, or protonated species; in addition, M threshold energies for PVs are lower than for DCTB. We also tested the performance of four selected PVs as ET MALDI matrices for analytes ranging from porphyrins and phthalocyanines to polyaromatic compounds. Two of the four PVs show S/N enhancement of 1961% to 304% in comparison to LDI, and laser energy thresholds from 0.17 μJ to 0.47 μJ compared to 0.58 μJ for DCTB. The use of PV matrices also results in lower LODs (low fmol range) whereas LDI LODs range from pmol to nmol. Graphical Abstract ᅟ.
Freely available software written in Python is described that can analyze and reconstruct laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) imaging data, and enable the segmentation of metal distributions in biological tissues.
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