Periodontitis is a major threat to oral health, prompting scientists to continuously study new treatment techniques. The nanofibrous membrane prepared via electrospinning has a large specific surface area and high porosity. On the one hand, electrospun nanofibers can improve the absorption capacity of proteins and promote the expression of specific genes. On the other hand, they can improve cell adhesion properties and prevent fibroblasts from passing through the barrier membrane. Therefore, electrospinning has unique advantages in periodontal treatment. At present, many oral nanofibrous membranes with antibacterial, anti-inflammatory, and tissue regeneration properties have been prepared for periodontal treatment. First, this paper introduces the electrospinning process. Then, the commonly used polymers of electrospun nanofibrous membranes for treating periodontitis are summarized. Finally, different types of nanofibrous membranes prepared via electrospinning for periodontal treatment are presented, and the future evolution of electrospinning to treat periodontitis is described.
Lysosomes are the stomachs of the cells that degrade endocytosis and intracellular biomacromolecules and participate in various other cellular processes, such as apoptosis and cell migration. The ability of long-term tracking of lysosomes is very important to understand the details of lysosomal functions and to evaluate drug and gene delivery systems. For studying lysosomes, we designed and synthesized a water-soluble triscyclometalated iridium(III) complex (Ir-lyso) attaching morpholine moieties. The phosphorescent intensity of Ir-lyso is responsive to pH and decreases with an increase in the pH but not quenching in high pH. With excellent two-photon properties, Ir-lyso was used to light up the lysosomes in living cells and 3D tumor spheroids. Moreover, Ir-lyso could label lysosomes more than 4 days, so we developed this complex to act as a long-term probe for tracking lysosomes during cell migration and apoptosis. To the best of our knowledge, this is the first paradigm of metal complexes as the two-photon phosphorescent probe for long-term lysosomes tracking.
Two iridium(iii) complexes with a rotary phenyl substituent ligand were used as mitochondria-targeted photosensitizers for two-photon photodynamic therapy in aggregate states.
An efficient method was developed that controls biscylometalated iridium(iii) complexes to target mitochondria or lysosomes by regulating the lipophilicity of the main ligands.
Chronic diabetic wounds are one of the main complications of diabetes, manifested by persistent inflammation, decreased epithelialization motility, and impaired wound healing. This will not only lead to the repeated hospitalization of patients, but also bear expensive hospitalization costs. In severe cases, it can lead to amputation, sepsis or death. Electrospun nanofibers membranes have the characteristics of high porosity, high specific surface area, and easy functionalization of structure, so they can be used as a safe and effective platform in the treatment of diabetic wounds and have great application potential. This article briefly reviewed the pathogenesis of chronic diabetic wounds and the types of dressings commonly used, and then reviewed the development of electrospinning technology in recent years and the advantages of electrospun nanofibers in the treatment of diabetic wounds. Finally, the reports of different types of nanofiber dressings on diabetic wounds are summarized, and the method of using multi-drug combination therapy in diabetic wounds is emphasized, which provides new ideas for the effective treatment of diabetic wounds.
ARTICLEThis journal is Two-photon phosphorescent probes have emerged as promising molecular tools for imaging subcellular organelles. Here, the facile synthesis of four new iridium(III)-based mitochondrial probes with two-photon phosphorescence, Ir1-Ir4, is presented. Ir1-Ir4 possess high specificity for mitochondrial localization, which is advantageous in comparison with commercially available mitochondrial trackers of changes in the mitochondrial membrane potential in live cells. In addition to low cytotoxicity and high resistance to photobleaching, Ir1-Ir4 are applicable for imaging and tracking of mitochondrial morphological changes during the early stages of apoptosis. While naturally possessing intensive two-photon properties, Ir1-Ir4 were further developed for imaging of the mitochondria in 3D multicellular spheroids.
Scheme 1The chemical structures of Ir1-Ir4.
Two iridium(iii) complexes with ligands containing morpholine groups were used to track mitochondrial pH fluctuation during cell apoptosis as their emissive intensities linearly increased with increase in pH values.
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