Objective : To investigate the effect and mechanism of exosome ( Exo) transported miR⁃223 on brain tissue injury and microglial activation in rats with traumatic brain injury ( TBI) . Methods : The miR⁃NC plasmid and miR⁃223 mimic plasmid were transfected into HEK293 cells by liposome method , and the expression level of miR⁃223 in the cells was determined by quantitative real⁃time PCR . Exo was extracted from transfected HEK293 cells and identified by transmission electron microscopy , nanoparticle tracking analysis and Western blot , the expression level of miR⁃223 in Exo was determined by quantitative real⁃time PCR . Forty SD rats were randomly divided into sham group , model group , NC⁃Exo group and miR⁃223 ⁃Exo group , with 10 rats in each group , TBI model was prepared by modified Feeney free fall method in all groups except sham group , rats in NC⁃Exo group and miR⁃223 ⁃Exo group were injected with cell⁃derived Exo transfected with miR⁃NC plasmid and cell⁃derived Exo transfected with miR⁃223 mimic plasmid via tail vein , respectively . Two weeks later , hematoxylin⁃eosin (HE) staining was used to observe the pathological changes of brain tissue in each group , Nissl staining was used to detect the changes and distribution of Nissl bodies in each group , enzyme⁃linked immunosorbent assay (ELISA) was used to measure the serum levels of tumor necrosis factor⁃α (TNF⁃α ) , interleukin⁃1β (IL⁃1β) and interleukin⁃6(IL⁃6) , immunofluorescence double staining was used to observe the expression of nod⁃like receptor family pyrin domain containing 3(NLRP3) and ionized calcium binding adaptor molecule 1 (Iba⁃1) , Western blot was used to detect the protein expression of NLRP3 , apoptosis⁃associated speck⁃like protein containing( ASC) and Caspase⁃1 . Results: After transfection , compared with control group and miR⁃NC group , the relative expression of miR⁃223 in miR⁃223 group significantly increased (P < 0. 05) . The isolated particles had typical Exo morphology , the peak particle size was about 120 nm , the Exo marker proteins CD9 , CD63 and CD81 were significantly overexpressed , and the relative expression of miR⁃223 significantly non of brain tissue in the miR⁃223 ⁃Exo group was improved , the morphology and number of Nissl bodies were re⁃increased (P < 0. 05) . Compared with the model group , the damage phenome stored , the levels of TNF⁃α , IL⁃1β and IL⁃6 in serum decreased ( P < 0. 05) , the intensity of NLRP3 and Iba⁃1 fluorescence staining in brain tissue decreased (P < 0. 05) , the relative protein expressions of NLRP3 , ASC and Caspase⁃1 in brain tissue were down⁃regulated (P < 0. 05) . Conclusion Exo operation of miR⁃223 can significant ly improve brain tissue injury and inhibit microglial activation in TBI rats , which may be related to the inhibition of NLRP3 .

Fibroblast activating protein (FAP) is an important biomarker of cancer associated fibroblasts and activated fibroblasts, which is highly expressed in activated fibroblasts of many tumor and fibrotic tissues, but not in normal tissues and non malignant lesions. Therefore, FAP has become an excellent target for diagnosis and treatment of tumors and other diseases. PET imaging and internal radiotherapy based on FAP inhibitor (FAPI) have been used in the diagnosis and treatment of many diseases, such as cancer and fibrosis. We first introduce the mechanism of disease occurrence and progression mediated by FAP and its clinical significance as a therapeutic target.Then,we systematically summarize the FAP probes labeled with 125I, 68Ga, 64Cu and other radionuclides, including their structural evolution, imaging, biodistribution and pharmacokinetic properties.After that, the reported strategies to improve the pharmacokinetic properties and target affinity of probes are summarized, including the use of squaramide linkers,modification with albumin binding agent,the development of dual-targeting probes.Finally, some suggestions for the future development of novel radioactive probes targeting FAP and the clinical application of classical probes are proposed.

In clinical application, a microneedle system that continuously delivers drugs is of great value for the delivery of some vaccines and hormone drugs. In this study, a controlled-release chitosan-based microneedle array (PVA/CS-MN) was designed, combining microneedle patches with drugs for controlled-release of drugs. Here we report the optimization of the preparation process of PVA/CS-MN. The appearance, morphology, mechanical properties, dissolution and swelling properties, and in vitro penetration properties of the MN arrays were characterized. The PVA/CS-MN prepared by the optimal process showed good morphology and mechanical properties. PVA/CS-MN can smoothly open microchannels on the skin and achieve controllable dissolution and swelling functions. Ascorbic acid (l-ascorbic acid) was used as a model drug to prepare a Vc-PVA/CS-MN. In vitro transdermal diffusion experiments showed that the Vc-PVA/CS-MN released about 57% of the drug within 1 h. About 66.7% of the drug was slowly released within 12 h, and a total of 92% of the drug was released after 7 days. The controllable sustained-release properties and excellent drug delivery efficiency of PVA/CS-MN provide a new option for sustained transdermal drug delivery.
Ascorbic Acid ; Chitosan ; Delayed-Action Preparations ; Drug Delivery Systems ; Hormones ; Vaccines

Objective To evaluate the feasibility and safety of tracheal extubation in operating room for patients with end-stage chronic obstructive pulmonary disease (COPD) after single-lung transplantation. Methods Clinical data of 57 recipients who underwent single-lung transplantation due to end-stage COPD were retrospectively analyzed. According to the evaluation indexes of tracheal extubation in operating room established by our hospital, 17 recipients eligible for tracheal extubation in operating room were assigned into the operating room extubation group (OR extubation group) and 40 recipients receiving tracheal extubation in intensive care unit (ICU) were allocated in the ICU extubation group. The evaluation results of intraoperative tracheal extubation and postoperative recovery were compared between two groups. Results Compared with the ICU extubation group, recipients in the OR extubation group had higher oxygenation index, lower arterial partial pressure of carbon dioxide (PaCO₂), lower blood lactic acid level, less fluctuation range of blood pressure and fewer cases receiving extracorporeal membrane oxygenation (ECMO) during operation (all P < 0.05). Two recipients in the OR extubation group received repeated tracheal intubation at 6 and 8 h after returning to ICU, and tracheal extubation at postoperative 6 and 9 d. In the OR extubation group, time of postoperative mechanical ventilation, length of postoperative ICU and hospital stay of the recipients were shorter than those in the ICU extubation group (all P < 0.05). The incidence of grade 3 primary graft dysfunction (PGD), atrial tachyarrhythmia, continuous renal replacement therapy and 1-year survival rate did not significantly differ between two groups (all P > 0.05). Conclusions The tracheal extubation regimen in the operating room for COPD patients after single-lung transplantation established by our hospital is safe and feasible, which shortens the time of postoperative mechanical ventilation, the length of postoperative ICU and hospital stay, whereas does not increase the incidence of postoperative complications.

To explore the mechanisms by which AKR1C3 induces tumor resistance, human breast cancer cell strain MCF-7/DOX resistant to doxorubicin, MCF-7/ AKR1C3 cells for overexpression of AKR1C3 and MCF-7/DOX-KD cells for knockdown of AKR1C3 in MCF-7/DOX cells were established. Western blot analysis found that AKR1C3 was expressed at a higher level in MCF-7/DOX than MCF-7 wild type cells. Similarly, CCK-8 and DAPI confirmed that MCF-7/ AKR1C3 cells were more resistant to DOX than AKR1C3 wild types as the IC50 was increased 6 times in MCF-7/AKR1C3 cells more than in AKR1C3 wild type cells. Meanwhile, colony formation ability was also enhanced after AKR1C3 was over-expressed in MCF-7 cells.Cytoplasmic/nuclear separation analysis and IF further found that β-catenin nuclear translocation mediated by AKR1C3 was the main reason contributing to the occurrence of DOX-resistant breast cancer cells. β-catenin inhibitor, XAV939, could reverse the AKR1C3 induced doxorubicin resistance in MCF-7 cells.Results indicated that AKR1C3 could be a potential therapeutic target in breast cancer cells.

Objective:To explore the use of internet-based continuous visual recognition task (MemTrax test, MTX) as a rapid screening tool for amnestic mild cognitive impairment (aMCI).Methods:Sixty-four patients with aMCI and 64 individuals with normal cognition as healthy controls were enrolled respectively from Department of Neurology and Health Examination Center of the First Affiliated Hospital of Kunming Medical University from August 2018 to December 2019. Montreal Cognitive Assessment (MoCA) scale and MTX were adopted to assess the cognitive function of all subjects. The total adjusted MoCA scale score, correct rate of MTX, reaction time of MTX and MTX score were obtained and statistically analyzed.Results:The adjusted MoCA scale scores of aMCI patients and healthy controls were 19 (14, 24) and 26 (24, 27; Z=6.795), the correct rate of MTX of aMCI patients and healthy controls were 74% (60%, 80%) and 88% (84%, 94%; Z=8.359), and the MTX score of aMCI patients and healthy controls were 51.11±14.07 and 70.56±14.91 ( t=7.590), respectively, all with statistically significant difference ( P<0.001). Reaction time of MTX of aMCI patients and healthy controls was 1.401 (1.253, 1.590) s and 1.277 (1.163, 1.410) s, respectively ( Z=3.083, P<0.01). After adjustment for age, physical or mental occupation, exercise, hypertension, hyperlipidemia, stroke, sleep time, as well as smoke, the linear regression showed that the aMCI patients had a significant decrease of adjusted MoCA score, correct rate of MTX and MTX score ( P<0.001), and an extension of reaction time of MTX ( P=0.071), compared with the controls. By MTX and MoCA scale assessment, the best cutoff value was 81% for correct rate of MTX and 23 for adjusted MoCA scale score respectively for the prediction of aMCI (with sensitivity of 79.7%, 93.8% respectively, and specificity of 68.8%, 82.8% respectively). The area under the curve (AUC) of correct rate of MTX was 0.93 (95% CI 0.89-0.97, P<0.001), and the AUC of adjusted MoCA score was 0.85 (95% CI 0.78-0.91, P<0.001). There was a statistically significant difference in paired comparison of the two AUCs (χ2=4.620, P<0.05). Conclusion:MTX acts better for the detection of aMCI than MoCA scale, and correct rate of MTX<81% can be considered as the existence of MCI.

The integrity of lysosomes is of vital importance to survival of tumor cells. We demonstrated that LW-218, a synthetic flavonoid, induced rapid lysosomal enlargement accompanied with lysosomal membrane permeabilization in hematological malignancy. LW-218-induced lysosomal damage and lysosome-dependent cell death were mediated by cathepsin D, as the lysosomal damage and cell apoptosis could be suppressed by depletion of cathepsin D or lysosome alkalization agents, which can alter the activity of cathepsins. Lysophagy, was initiated for cell self-rescue after LW-218 treatment and correlated with calcium release and nuclei translocation of transcription factor EB. LW-218 treatment enhanced the expression of autophagy-related genes which could be inhibited by intracellular calcium chelator. Sustained exposure to LW-218 exhausted the lysosomal capacity so as to repress the normal autophagy. LW-218-induced enlargement and damage of lysosomes were triggered by abnormal cholesterol deposition on lysosome membrane which caused by interaction between LW-218 and NPC intracellular cholesterol transporter 1. Moreover, LW-218 inhibited the leukemia cell growth

The harm of pathogenic bacteria to humans has promoted extensive research on physiological processes of pathogens, such as the mechanism of bacterial infection, antibiotic mode of action, and bacterial antimicrobial resistance. Most of these processes can be better investigated by timely tracking of fluorophore-derived antibiotics in living cells. In this paper, we will review the recent development of fluorescent antibiotics featuring the conjugation with various fluorophores, and focus on their applica-tions in fluorescent imaging and real-time detection for various physiological processes of bacteria in vivo.