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941.
Peng-Li Zhou Min Li Xin-Wei Han Yong-Hua Bi Wen-Guang Zhang Zheng-Yang Wu Gang Wu 《Journal of cellular biochemistry》2019,120(11):19107-19123
Excessive plasma triglyceride (TG) and cholesterol levels promote the progression of several prevalent cardiovascular risk factors, including atherosclerosis, which is a leading death cause. Perilipin 5 (Plin5), an important perilipin protein, is abundant in tissues with very active lipid catabolism and is involved in the regulation of oxidative stress. Although inflammation and oxidative stress play a critical role in atherosclerosis development, the underlying mechanisms are complex and not completely understood. In the present study, we demonstrated the role of Plin5 in high-fat-diet-induced atherosclerosis in apolipoprotein E null (ApoE−/−) mice. Our results suggested that Plin5 expressions increased in the artery tissues of ApoE−/− mice. ApoE/Plin5 double knockout (ApoE−/−Plin5−/−) exacerbated severer atherogenesis, accompanied with significantly disturbed plasma metabolic profiles, such as elevated TG, total cholesterol, and low-density lipoprotein cholesterol levels and reduced high-density lipoprotein cholesterol contents. ApoE−/−Plin5−/− exhibited a higher number of inflammatory monocytes and neutrophils, as well as overexpression of cytokines and chemokines linked with an inflammatory response. Consistently, the IκBα/nuclear factor kappa B pathway was strongly activated in ApoE−/−Plin5−/−. Notably, apoptosis was dramatically induced by ApoE−/−Plin5−/−, as evidenced by increased cleavage of Caspase-3 and Poly (ADP-ribose) polymerase-2. In addition, ApoE−/−Plin5−/− contributed to oxidative stress generation in the aortic tissues, which was linked with the activation of phosphatidylinositol 3-kinase/protein kinase B and mitogen-activated protein kinases pathways. In vitro, oxidized low-density lipoprotein (ox-LDL) increased Plin5 expression in RAW264.7 cells. Its knockdown enhanced inflammation, apoptosis, oxidative stress, and lipid accumulation, while promotion of Plin5 markedly reduced all the effects induced by ox-LDL in cells. These studies strongly supported that Plin5 could be a new regulator against atherosclerosis, providing new insights on therapeutic solutions. 相似文献
942.
Zongyu Zheng Tianjiao Ma Hua Guo Ki Soo Kim Kyoung Tae Kim Liqi Bi Zhiguo Zhang Lu Cai 《Journal of cellular and molecular medicine》2019,23(8):5771-5781
Diabetic cardiomyopathy (DCM) is characterized by increased left ventricular mass and wall thickness, decreased systolic function, reduced ejection fraction (EF) and ultimately heart failure. The 4‐O‐methylhonokiol (MH) has been isolated mainly from the bark of the root and stem of Magnolia species. In this study, we aimed to elucidate whether MH can effectively prevent DCM in type 2 diabetic (T2D) mice and, if so, whether the protective response of MH is associated with its activation of AMPK‐mediated inhibition of lipid accumulation and inflammation. A total number of 40 mice were divided into four groups: Ctrl, Ctrl + MH, T2D, T2D + MH. Five mice from each group were sacrificed after 3‐month MH treatment. The remaining animals in each group were kept for additional 3 months without further MH treatment. In T2D mice, the typical DCM symptoms were induced as expected, reflected by decreased ejection fraction and lipotoxic effects inducing lipid accumulation, oxidative stress, inflammatory reactions, and final fibrosis. However, these typical DCM changes were significantly prevented by the MH treatment immediately or 3 months after the 3‐month MH treatment, suggesting MH‐induced cardiac protection from T2D had a memory effect. Mechanistically, MH cardiac protection from DCM may be associated with its lipid metabolism improvement by the activation of AMPK/CPT1‐mediated fatty acid oxidation. In addition, the MH treatment of DCM mice significantly improved their insulin resistance levels by activation of GSK‐3β. These results indicate that the treatment of T2D with MH effectively prevents DCM probably via AMPK‐dependent improvement of the lipid metabolism. 相似文献
943.
Qun Guan Yongpeng Li Xuanxuan Bi Jie Yang Jingwen Zhou Xuelian Li Jianli Cheng Zhuanpei Wang Bin Wang Jun Lu 《Liver Transplantation》2019,9(41)
Fiber‐shaped aqueous rechargeable Zn batteries (FARZBs) show flexibility, good reliability, cost‐effectiveness, high energy/power densities, and high safety that have attracted increasing attention as promising energy storage devices for future wearable applications. However, the development of FARZB is limited by its poor cycling life and inferior charge–discharge performance, mainly suffering from zinc dendrite growth and increasing electrode irreversibility. In this work, dendrite‐free fiber‐shaped Zn//Co3O4 rechargeable batteries with a long cycle life tested in water and air, are obtained via tuning the surface binding energy of Zn on the anode using the zincophilic N,O‐functional carbon fiber, as well as engineering the Co3O4 cathode with a nanowire array structure. The fiber‐shaped Zn//Co3O4 full battery demonstrates remarkable long cycle life in water and air with high energy density, impressive flexibility, and excellent waterproof ability (fully immersed and charged/discharged under water for more than 33 h for 3000 cycles with capacity retention of ≈80%). The reversible electrochemical mechanisms of the FARZBs, without obvious zinc dendrite deposits and structural change of Co3O4 nanowires, are confirmed by a series of characterizations. These results demonstrate that the FARZBs are promising power sources for emerging wearable electronics. 相似文献
944.
945.
946.
Zheng Mianhai Zhang Wei Luo Yiqi Wan Shiqiang Fu Shenglei Wang Senhao Liu Nan Ye Qing Yan Junhua Zou Bi Fang Chengliang Ju Yuxi Ha Denglong Zhu Liwei Mo Jiangming 《Ecosystems》2019,22(5):955-967
Ecosystems - Asymbiotic nitrogen (N) fixation (ANF) is an important source of N in pristine forests and is predicted to decrease with N deposition. Previous studies revealing N fixation in response... 相似文献
947.
Shanna L. Bowman Jing Bi‐Karchin Linh Le Michael S. Marks 《Traffic (Copenhagen, Denmark)》2019,20(6):404-435
Lysosome‐related organelles (LROs) comprise a diverse group of cell type‐specific, membrane‐bound subcellular organelles that derive at least in part from the endolysosomal system but that have unique contents, morphologies and functions to support specific physiological roles. They include: melanosomes that provide pigment to our eyes and skin; alpha and dense granules in platelets, and lytic granules in cytotoxic T cells and natural killer cells, which release effectors to regulate hemostasis and immunity; and distinct classes of lamellar bodies in lung epithelial cells and keratinocytes that support lung plasticity and skin lubrication. The formation, maturation and/or secretion of subsets of LROs are dysfunctional or entirely absent in a number of hereditary syndromic disorders, including in particular the Hermansky‐Pudlak syndromes. This review provides a comprehensive overview of LROs in humans and model organisms and presents our current understanding of how the products of genes that are defective in heritable diseases impact their formation, motility and ultimate secretion. 相似文献
948.
Renzhe Bi U.S. Dinish Chi Ching Goh Toru Imai Mohesh Moothanchery Xiuting Li Jin Young Kim Seungwan Jeon Yang Pu Chulhong Kim Lai Guan Ng Lihong V. Wang Malini Olivo 《Journal of biophotonics》2019,12(7)
Pressure ulcer formation is a common problem among patients confined to bed or restricted to wheelchairs. The ulcer forms when the affected skin and underlying tissues go through repeated cycles of ischemia and reperfusion, leading to inflammation. This theory is evident by intravital imaging studies performed in immune cell–specific, fluorescent reporter mouse skin with induced ischemia‐reperfusion (I‐R) injuries. However, traditional confocal or multiphoton microscopy cannot accurately monitor the progression of vascular reperfusion by contrast agents, which leaks into the interstitium under inflammatory conditions. Here, we develop a dual‐wavelength micro electro mechanical system (MEMS) scanning–based optical resolution photoacoustic microscopy (OR‐PAM) system for continuous label‐free functional imaging of vascular reperfusion in an IR mouse model. This MEMS‐OR‐PAM system provides fast scanning speed for concurrent dual‐wavelength imaging, which enables continuous monitoring of the reperfusion process. During reperfusion, the revascularization of blood vessels and the oxygen saturation (sO2) changes in both arteries and veins are recorded, from which the local oxygen extraction ratios of the ischemic tissue and the unaffected tissue can be quantified. Our MEMS‐OR‐PAM system provides novel perspectives to understand the I‐R injuries. It solves the problem of dynamic label‐free functional monitoring of the vascular reperfusion at high spatial resolution. 相似文献
949.
Xiuting Li U. S Dinish Juan Aguirre Renzhe Bi Kapil Dev Amalina Binte Ebrahim Attia Suhanyaa Nitkunanantharajah Qian Han Lim Mathias Schwarz Yik Weng Yew Steven Tien Guan Thng Vasilis Ntziachristos Malini Olivo 《Journal of biophotonics》2019,12(9)
Raster Scanning Optoacoustic Mesoscopy (RSOM) is a novel optoacoustic imaging modality that offers non‐invasive, label‐free, high resolution (~7 μm axial, ~30 μm lateral) imaging up to 1 to 2 mm below the skin, providing novel quantitative insights into skin pathophysiology. As the RSOM image contrast mechanism is based on light absorption, it is expected that the amount of melanin present in the skin will affect RSOM images. However, the effect of skin tone in the performance of RSOM has not been addressed so far. Herein, we present the efficiency of RSOM for in vivo skin imaging of human subjects with Fitzpatrick (FP) skin types between II to V. RSOM images acquired from the volar forearms of the subjects were used to derive metrics used in RSOM studies, such as total blood volume, vessel diameter and melanin signal intensity. Our study shows that the melanin signal intensity derived from the RSOM images exhibited an excellent correlation with that obtained from a clinical colorimeter for the subjects of varying FP skin types. We could successfully estimate the vessel diameter at different depths of the dermis. Furthermore, our study shows that there is a need to compensate for total blood volume calculated for subjects with higher FP skin types due to the lower signal‐to‐noise ratio in dermis, owing to strong absorption of light by melanin. This study sheds light into how RSOM can be used for studying various skin conditions in populations with different skin phenotypes. 相似文献
950.
目的探讨TLR4对脂多糖(LPS)诱导的支气管上皮16HBE细胞损伤的影响及其机制。
方法将3条siRNA-TLR4-1、siRNA-TLR4-2和siRNA-TLR4-3转染至16HBE细胞中,筛选出最佳的siRNA-TLR4干扰序列进行实验。实验分为对照组(未处理)、LPS组(给予50 μg/ml LPS处理)、LPS+siNC组(转染siRNA-NC后给予50 μg/ml LPS处理)和LPS+siTLR4组(分别转染设计的3条siRNA-TLR4后给予50 μg/ml LPS处理),采用RT-PCR检测TLR4、IL-6和TNF-α mRNA的表达,MTT法检测细胞活力,流式细胞仪检测细胞凋亡率,Western Blot检测Bcl-2、Bax、Cleaved Caspase-3、NF-κB p65和IκBα蛋白的表达。多组间比较使用单因素方差分析,组间多重比较采用SNK-q,两组间比较采用独立样本t检验。
结果LPS组与LPS+siTLR4-2组TLR4 mRNA(2.05±0.12,3.28±0.15)和蛋白表达(0.38±0.03,0.77±0.05)比较,差异具有统计学意义(t?= 11.091,11.585,P均< 0.001);LPS组与LPS+siTLR4-3组TLR4 mRNA(1.39±0.09,3.28±0.15)和蛋白表达(0.31±0.02,0.77±0.05)比较,差异具有统计学意义(t?= 20.857,12.650,P均?< 0.001)且siRNA-TLR4-3的效果最为显著。与对照组相比,LPS组、LPS+siNC组和LPS+siTLR4组细胞中IL-6 mRNA(11.42±1.05,11.38±1.34,6.22±0.35,0.97±0.06,F?= 98.803,P均< 0.01)、TNF-α mRNA(15.76±1.12,15.69±0.87,7.54±0.41,1.03±0.09,F?= 278.064,P均< 0.01)、Cleaved Caspase-3蛋白(0.75±0.06,0.77±0.05,0.38±0.03,0.13±0.02,F?= 154.851,P均< 0.01)、Bax蛋白(0.48±0.05,0.52±0.05,0.33±0.02,0.11±0.02,F?= 71.310,P均< 0.01)、NF-κBp65蛋白(0.64±0.05,0.67±0.05,0.45±0.04,0.28±0.02,F?= 56.571,P?均?< 0.01)的表达水平和细胞凋亡率[(21.36±2.85)﹪,(20.94±3.22)﹪,(13.08±1.16)?﹪,(7.25±1.28)﹪,F?= 25.685,P均< 0.01]均明显升高,而细胞活力(0.53±0.04,0.51±0.04,0.78±0.06,1.15±0.08,F?= 80.811,P均< 0.01)和Bcl-2蛋白(0.28±0.03,0.25±0.03,0.40±0.03,0.69±0.06,F?= 76.762,P均< 0.01)、IκBα蛋白(0.38±0.03,0.35±0.03,0.44±0.03,0.72±0.06,F?= 53.635,P均< 0.01)的表达水平均明显降低;与LPS组相比,LPS+siTLR4组中IL-6 mRNA、TNF-α mRNA、Cleaved Caspase-3蛋白、Bax蛋白、NF-κBp65蛋白的表达水平和细胞凋亡率均明显降低,差异有统计学意义(t = 8.138,11.937,9.553,4.825,5.140,4.661,P均< 0.01),而细胞活力和Bcl-2蛋白、IκBα蛋白的表达水平均明显升高,差异有统计学意义(t = 6.005,4.899,3.674,P < 0.05),而LPS组和LPS+siNC组间差异无统计学意义(P > 0.05)。
结论下调TLR4可通过抑制NF-κB通路激活抑制LPS诱导的细胞凋亡和炎症反应减轻16HBE细胞损伤。 相似文献