Activating Esterase D by PFD5 exerts antiviral effect through inhibiting glutathionization of LAMP1 during Senecavirus A infection.

Seneca virus A (SVA) is a newly discovered small nucleic acid virus, which can cause swine blister disease (PVD). Currently, there is no drug or vaccine. Studies have shown that SVA relies on the endolysosomal pathway to accomplish intracellular transport and release, and can disrupt lysosomal homeostasis, but its specific mechanism has not been revealed.

Two "turn on" fluorescence probes based on nitroso recognition group for detecting hydrogen sulfide.

Hydrogen sulfide is a vital signaling molecule which holds a pivotal position in numerous biological functions. In this research, two novel "OFF-ON" fluorescence probes named YNO and TNO were designed based on the nitroso recognition group to detect HS. Both YNO and TNO performed outstanding response rate and linear relationship between the fluorescence intensity and the concentration of HS.

Novel fluorescence probe for ClO in living cells: Based on FRET mechanism.

Hypochlorous acid (HClO) as a kind of reactive oxygen species (ROS) plays a vital role in many biological processes. Organic fluorescence probes have attracted great interests for the detection of HClO, due to their relatively high selectivity and sensitivity, satisfactory spatiotemporal resolution and good biocompatibility. Constructing fluorescence probes to detect HClO with advantages of large Stokes shift, wide emission gap, near infrared emission and good water solubility is still challenging.

A near-infrared fluorescent probe for simultaneous detection of pH and viscosity.

In this work, we developed a ratiometric fluorescent probe (NT) based on ICT framework in near-infrared (NIR) which could detect pH and viscosity simultaneously. Long emission wavelength in NIR could protect the probe from interference of background fluorescence and improve the accuracy of the test. Due to the presence of thiazole-salt, the probe possessed good water solubility and could respond immediately to pH in water system.

A highly sensitive ratiometric fluorescent probe for detecting HSO/SO and viscosity change based on FRET/TICT mechanism.

Background: Sulfur dioxide (SO) is a significant gas signaling molecule in organisms, and viscosity is a crucial parameter of the cellular microenvironment. They are both involved in regulating many physiological processes in the human body. However, abnormalities in SO and viscosity levels are associated with various diseases, such as cardiovascular disease, lung cancer, respiratory diseases, neurological disorders, diabetes and Alzheimer's disease.

A near-infrared fluorescent probe based FRET for ratiometric sensing of HO and viscosity in live cells.

Hydrogen peroxide (HO) and viscosity play vital roles in the cellular environment as signaling molecule and microenvironment parameter, respectively, and are associated with many physiological and pathological processes in biological systems. We developed a near-infrared fluorescent probe, CQ, which performed colorimetric and ratiometric detection of HO and viscosity based on the FRET mechanism, and was capable of monitoring changes in viscosity and HO levels simultaneously through two different channels. Based on the specific reaction of HO with borate ester, CQ exhibited a significant ratiometric response to HO with a large Stokes shift of 221 nm, a detection limit of 0.

NBD-based colorimetric and ratiometric fluorescent probe in NIR for bisulfite.

This work presented a FRET-ICT based fluorescent probe (named NTC) composed of coumarin-benzothiazole as the acceptor and 4-nitrobenzo[c][1,2,5] oxadiazole (NBD) as the donor for the detection of SO derivatives in NIR. Probe NTC possessed superior performance including selectivity, quickly response toward SO/HSO and high energy transfer efficiency (94 %). The test strips provided a simple and effective tool in detecting the presence of bisulfite.

A ratiometric fluorescent probe based on the FRET platform for the detection of sulfur dioxide derivatives and viscosity.

Background: Sulfur dioxide (SO) is a common gaseous pollutant that significantly threatens environmental pollution and human health. Meanwhile, viscosity is an essential parameter of the intracellular microenvironment, manipulating many physiological roles such as nutrient transport, metabolism, signaling regulation and apoptosis. Currently, most of the fluorescent probes used for detecting SO derivatives and viscosity are single-emission probes or probes based on the ICT mechanism, which suffer from short emission wavelengths, small Stokes shifts or susceptibility to environmental background.

A novel ratiometric fluorescence probe based on the FRET-ICT mechanism for detecting fluoride ions and viscosity.

Fluoride ion is not only important for dental health, but also a contributing factor in a variety of diseases. At the same time, fluoride ions and cell viscosity are both important to the physiological environment of mitochondria. We developed a dual-response ratiometric fluorescent probe BDF based on Förster resonance energy transfer (FRET) and intramolecular charge transfer (ICT) mechanism for the detection of F and viscosity.

Grp94 Inhibitor HCP1 Suppressed the Replication of SVA in BHK-21 Cells and PK-15 Cells.

Background: Glucoregulatory protein 94 (Grp94) is necessary for the post-viral life cycle and plays a quality control role in viral proteins, but the role of Grp94 in regulating viral replication in host cells is not well known. Therefore, finding a compound that can regulate Grp94 will help us to study the mechanism of viral replication. Previously, we synthesized a coumarin pyrazoline derivative HCP1 that is an effective inhibitor of Grp94.

An efficient dual-function fluorescent probe for sulfites and sulfides and its imaging application in cells.

As gas signaling molecules in organisms, SO derivatives and HS play crucial regulating roles in a series of physiological processes. Therefore, developing an assay that can accurately monitor the concentration of SO derivatives and HS in cells is extremely important for the research and treatment of related illnesses. A bifunctional probe SN-F based on FRET mechanism for SO derivatives and HS was designed.

A FRET-based ratiometric fluorescent probe for sensing bisulfite/sulfite and viscosity and its applications in food, water samples and test strips.

A FRET-based ratiometric dual-response fluorescent probe, CQI, constructed by combining quinolinium-indole as the acceptor and coumarin as the donor, was developed for sensing HSO/SO and viscosity. After the interaction of probe CQI with the analyte, we achieved a green channel for the response to HSO/SO and an orange channel for the response to viscosity. We comprehensively evaluated the ability of CQI to detect SO derivatives and viscosity using fluorescence spectroscopy.

A benzothiazole-salt-based fluorescent probe for precise monitoring the changes of pH and viscosity.

This work presented a novel ratiometric fluorescent probe (NBO) based on benzothiazole dye, which could monitor the pH fluctuations with high sensitivity via the intramolecular charge transfer (ICT) process. NBO was developed with a good linear response in the pH range of 5.75-7.

FRET-based fluorescent probe with favorable water solubility for simultaneous detection of SO derivatives and viscosity.

The intracellular viscosity is an important parameter of the microenvironment and SO is a vital gas signal molecule. At present, some dual-response fluorescence probes for simultaneous measurements of viscosity and SO derivatives (HSO/SO) possessed poor water solubility. In this work, we developed a water-soluble fluorescence probe CIJ (0.

Dual-response and lysosome-targeted fluorescent probe for viscosity and sulfur dioxide derivatives.

Viscosity and sulfur dioxide levels are important factors to evaluate the changes of cell micro-environment because a series of diseases usually occur when they are abnormal. At present, dual-response probes that can detect both viscosity and sulfur dioxide are rare. Therefore, we developed a novel fluorescent probe CBN for simultaneous detection of sulfur dioxide and viscosity.

Identification of a new way to induce differentiation of dermal fibroblasts into vascular endothelial cells.

Background: Human dermal fibroblasts (HDFs) have the potential to differentiate into vascular endothelial cells (VECs), but their differentiation rate is low and the mechanism involved is not clear. The small molecule pathway controls the phenotype of fibroblasts by activating cellular signaling pathways, which is a more convenient method in the differentiation strategy of HDFs into VECs.

Methods: In this study, HDFs were treated with the different doses of CPP ((E)-4-(4-(4-(7-(diethylamino)-2-oxo-2H-chromene-3-carbonyl) piperazin-1-yl) styryl)-1-methylpyridin-1-ium iodide), and the mRNA and protein levels of HDFs were detected by qPCR, Western blot, flow cytometry and immunofluorescent staining.

An imidazo[1,5-α]pyridines-based ratiometric fluorescent probe for sensing sulfur dioxide derivatives in real samples based on a FRET mechanism.

A novel fluorescence resonance energy transfer (FRET)-based ratiometric emission fluorescent probe AT was designed and developed in which the imidazo[1,5-α]pyridine was served as a FRET donor and tricyanofuran (TCF) as the FRET acceptor to detect SO/HSO based on the Michael addition reaction. Probe AT had a high energy transfer efficiency (95%) and a large pseudo-Stokes shift (259 nm) in EtOH/PBS buffer (5/5, v/v). It also possessed good selectivity and quick response to SO/HSO.

A spectroscopic probe with FRET-ICT feature for thiophenol monitoring in real water samples.

Thiophenol (PhSH) is widely used in industry, however, it is extremely harmful to the environment and human health due to its high toxicity. In this work, we developed a new FRET-ICT-based ratiometric fluorescent and colorimetric probe (DMNP) for detecting PhSH. DMNP had an ultrahigh energy transfer efficiency (99.

A quinoline-coumarin near-infrared ratiometric fluorescent probe for detection of sulfur dioxide derivatives.

Sulfur dioxide derivatives (HSO and SO) play an important role in food preservative, antibacterial, antioxidant and other aspects, so it is urgent for us to develop more efficient detection methods to broaden their application in biochemical research and related disease diagnosis. Fluorescent probes are of particular interest because of their simplicity and high temporal and spatial resolution. Herein, we constructed a new near-infrared (NIR) fluorescence probe, CQC, composed of coumarin fluorophore and quinoline fluorophore, for detecting SO derivatives.

A ratiometric fluorescent probe for selective detection of thiophenol derivatives.

Though a number of on-off or off-on fluorescent probes have been developed for the detection of thiophenol by using its unique recognition groups, such as 2, 4-dinitrophenyl ether, 2, 4-dinitrophenyl sulfonamide, and 2, 4-dinitrophenyl sulfonate, up to now, there are few probes that can detect thiophenol by the proportional fluorescence signal. We developed a ratiometric fluorescent probe with coumarin pyridine derivative as fluorophore and 2, 4-dinitrophenyl ether moiety as the sensing unit which could be used to detect thiophenol derivatives by the aromatic nucleophilic substitution reaction. This probe (CPBPN) displayed significant change in fluorescence ratio (256 fold) to result in a more reliable analysis by self-calibration and a relatively low detection limit of 24 nM toward 4-methylthiophenol (MTP) within 30 min to achieve more sensitivity.

Two simple but effective turn-on benzothiazole-based fluorescent probes for detecting hydrogen sulfide in real water samples and HeLa cells.

Two simple turn-on fluorescent probes, containing a benzothiazole and the 2,4-dinitrobenzenesulfonyl group, were designed for detecting HS. Two probes exhibited good selectivity and high sensitivity, which were applied to detect the HS in real water samples. Probe P2 with a positive charge had better solubility than probe P1 in water; therefore, probe P2 was successfully applied to detect both the endogenous and exogenous HS in lysosomes of living HeLa cells.

Metal-Free Catalyzed Synthesis of Fluorescent Indolizine Derivatives.

A mild and high efficient method to prepare indolizines by two-component reaction with the acid as the catalyst was developed. In this reaction, a new ring efficiently formed in one-step reaction. A wide range of substrates could be applied and the desired products were obtained in 8-95% yields under metal-free conditions.

Identification of a new autophagy inhibitor targeting lipid droplets in vascular endothelial cells.

Autophagy of vascular endothelial cells (VECs) plays an important role in maintaining vascular homeostasis. Lipid droplets (LDs) are organelles that can be formed in response to various stimuli, including excessive lipid or various stresses. LDs sequester toxic lipids, thereby preventing lipotoxic cell damage and have a complex relationship with autophagy.

A fluorescent probe based on ICT for selective detection of benzenethiol derivatives.

This work presented a benzothiazole-based fluorescent probe for the detection of benzenethiol derivatives using 2, 4-dinitrobenzene moiety as a sensing unit. This probe (NCABT) was able to instantaneously respond to 4-methylbenzenethiol (MTP) within 5 min. In detecting MTP, this probe displayed a low limit of detection (49 nM).