Rational Development of a Lipid Droplets and Hypochlorous Acid In-Sequence Responsive Fluorescent Probe for Accurate Imaging of Atherosclerotic Plaques.

To answer the call for effective and timely intervention in cardiovascular diseases (CVDs), the development of fluorescent probes that can precisely identify atherosclerotic plaques, the root cause of various fatal CVDs, is highly desirable but remains a great challenge. Herein, by integrating bis(trifluoromethyl)benzyl and phenothiazine into the coumarin matrix, a robust fluorescent probe, NOR1, has been developed. NOR1 responds sequentially to lipid droplets (LDs) and HClO via fluorescence turn-on and ratiometric readouts, respectively, with a fast response rate (within 70 s for LDs and 80 s for HClO), excellent sensitivity (detection limit: 0.

Spotlight on Mitochondrial Health: A Trailblazing Fluorescent Tool for Cancer Detection and Surgical Guidance.

Mitochondria play a pivotal role in maintaining normal physiological functions. Mitochondrial autophagy, namely, mitophagy, is a selective catabolic disposal of impaired mitochondria through an autophagic mechanism during episodes of mitochondrial harm. This selective removal, e.

Ratiometric Fluorescent Probe for Super-Resolution Imaging of Lysosome HClO in Ferroptosis Cells.

Ferroptosis is an iron-dependent programmed cell death that is characterized by the dysregulation of lipid reactive oxygen species (ROS) production, causing abnormal changes in hypochlorous acid (HClO) levels in lysosomes. Super-resolution imaging can observe the fine structure of the lysosome at the nanometer level; therefore, it can be used to detect lysosome HClO levels during ferroptosis at the suborganelle level. Herein, we utilize a ratiometric fluorescent probe, , for super-resolution imaging of lysosome HClO.

NIR Mitochondrial Fluorescent Probe for Visualizing SO/Polarity in Drug Induced Inflammatory Mice.

SO and polarity are important microenvironmental parameters in cells, which are closely related to physiological activities in organisms. The intracellular levels of SO and polarity are abnormal in inflammatory models. To this end, a novel near-infrared fluorescent probe BTHP that can simultaneously detect SO and polarity was studied.

Interferon mediated prophylactic protection against respiratory viruses conferred by a prototype live attenuated influenza virus vaccine lacking non-structural protein 1.

The influenza A non-structural protein 1 (NS1) is known for its ability to hinder the synthesis of type I interferon (IFN) during viral infection. Influenza viruses lacking NS1 (ΔNS1) are under clinical development as live attenuated human influenza virus vaccines and induce potent influenza virus-specific humoral and cellular adaptive immune responses. Attenuation of ΔNS1 influenza viruses is due to their high IFN inducing properties, that limit their replication in vivo.

Prophylactic Protection Against Respiratory Viruses Conferred by a Prototype Live Attenuated Influenza Virus Vaccine.

The influenza A non-structural protein 1 (NS1) is known for its ability to hinder the synthesis of type I interferon (IFN) during viral infection. Influenza viruses lacking NS1 (ΔNS1) are under clinical development as live attenuated human influenza virus vaccines and induce potent influenza virus-specific humoral and cellular adaptive immune responses. Attenuation of ΔNS1 influenza viruses is due to their high IFN inducing properties, that limit their replication in vivo.

Prophylactic protection against respiratory viruses conferred by a prototype live attenuated influenza virus vaccine.

The influenza A non-structural protein 1 (NS1) is known for its ability to hinder the synthesis of type I interferon (IFN) during viral infection. Influenza viruses lacking NS1 (ΔNS1) are under clinical development as live attenuated human influenza virus vaccines and induce potent influenza virus-specific humoral and cellular adaptive immune responses. Attenuation of ΔNS1 influenza viruses is due to their high IFN inducing properties, that limit their replication in vivo.

Enhanced cellular immune responses to SIV Gag by immunization with influenza and vaccinia virus recombinants.

An effective vaccination strategy against human immunodeficiency virus type 1 (HIV-1) should include the induction of potent cellular immune responses against conserved HIV-1 antigens. We have generated five replication competent recombinant influenza viruses (rFlu/SIV Gag nos. 1-5) expressing different portions of Gag of simian immunodeficiency virus (SIV).

The influenza A virus NS1 protein inhibits activation of Jun N-terminal kinase and AP-1 transcription factors.

The influenza A virus nonstructural NS1 protein is known to modulate host cell gene expression and to inhibit double-stranded RNA (dsRNA)-mediated antiviral responses. Here we identify NS1 as the first viral protein that antagonizes virus- and dsRNA-induced activation of the stress response-signaling pathway mediated through Jun N-terminal kinase.

Effects of influenza A virus NS1 protein on protein expression: the NS1 protein enhances translation and is not required for shutoff of host protein synthesis.

The influenza A virus NS1 protein, a virus-encoded alpha/beta interferon (IFN-alpha/beta) antagonist, appears to be a key regulator of protein expression in infected cells. We now show that NS1 protein expression results in enhancement of reporter gene activity from transfected plasmids. This effect appears to be mediated at the translational level, and it is reminiscent of the activity of the adenoviral virus-associated I (VAI) RNA, a known inhibitor of the antiviral, IFN-induced, PKR protein.