Publications by authors named "Veerasikku Gopal Deepagan"

Article Synopsis
  • Mitochondria play complex roles in two different cell death pathways: apoptosis and pyroptosis, particularly regarding NLRP3 inflammasome activation, but their exact mechanisms are not well understood.
  • The study found that activating NLRP3 while inhibiting apoptosis occurs when cells are under stress from various stimuli like nigericin and viruses, as these activators affect mitochondrial function rather than just triggering inflammasome activation.
  • NLRP3 activation needs a combination of signals—one from disrupted mitochondrial processes and another from specific NLRP3 activators—suggesting that both oxidative phosphorylation inhibition and apoptosis suppression influence cell fate.
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Quantum-sized gold nanoclusters (AuNCs) are emerging as theranostic agents-those that combine diagnostics and therapeutic properties-given their ultrasmall size <3 nm, which makes them behave more like a molecule rather than a nanoparticle. This molecule-like behavior endows AuNCs with interesting properties including photoluminescence, catalytic activity, and paramagnetism-all without the presence of any toxic heavy metal. But despite these fundamental advances, scalable synthetic approaches to produce high-quality AuNCs with well-controlled and programmable properties for biological applications as well as methods to determine their structure-property relationships are not widely available.

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We introduce xanthate-functionalized poly(cyclic imino ethers)s (PCIEs), specifically poly(2-ethyl-2-oxazoline) and poly(2-ethyl-2-oxazine) given their stealth characteristics, as an attractive alternative to conventional thiol-based ligands for the synthesis of highly monodisperse and fluorescent gold nanoclusters (AuNCs). The xanthate in the PCIEs interacts with Au ions, acting as a well-controlled template for the direct formation of PCIE-AuNCs. This method yields red-emitting AuNCs with a narrow emission peak (λ = 645 nm), good quantum yield (4.

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Background: Targeted cancer therapy has been extensively developed to improve the quality of treatment by reducing the systemic exposure of cytotoxic drug. Polymeric nanoparticles with conjugated targeting agents are widely investigated because they offer tunability in particle size, drug release profile and biocompatibility.

Materials & Methods: Here, we have prepared targeted multifunctional nanoparticles composed of a poly(lactic-co-glycolic acid) matrix, ZnS:Mn(2+) quantum dots and camptothecin, and targeted them to EGF receptor overexpressing cells with a cetuximab antibody.

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