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ChaoChien Chang KeeChin Sia JiaFeng Chang ChiaMo Lin ChuenMao Yang ITa Lee Thi Thuy Tien Vo KuoYang Huang WeiNing Lin 《Journal of cellular and molecular medicine》2022,26(14):3850
Obesity is a world‐wide problem, especially the child obesity, with the complication of various metabolic diseases. Child obesity can be developed as early as the age between 2 and 6. The expansion of fat mass in child age includes both hyperplasia and hypertrophy of adipose tissue, suggesting the importance of proliferation and adipogenesis of preadipocytes. The changed composition of gut microbiota is associated with obesity, revealing the roles of lipopolysaccharide (LPS) on manipulating adipose tissue development. Studies suggest that LPS enters the circulation and acts as a pro‐inflammatory regulator to facilitate pathologies. Nevertheless, the underlying mechanisms behind LPS‐modulated obesity are yet clearly elucidated. This study showed that LPS enhanced the expression of cyclooxygenase‐2 (COX‐2), an inflammatory regulator of obesity, in preadipocytes. Pretreating preadipocytes with the scavenger of reactive oxygen species (ROS) or the inhibitors of NADPH oxidase or p42/p44 MAPK markedly decreased LPS‐stimulated gene expression of COX‐2 together with the phosphorylation of p47phox and p42/p44 MAPK, separately. LPS activated p42/p44 MAPK via NADPH oxidase‐dependent ROS accumulation in preadipocytes. Reduction of intracellular ROS or attenuation of p42/p44 MAPK activation both reduced LPS‐mediated COX‐2 expression and preadipocyte proliferation. Moreover, LPS‐induced preadipocyte proliferation and adipogenesis were abolished by the inhibition of COX‐2 or PEG2 receptors. Taken together, our results suggested that LPS enhanced the proliferation and adipogenesis of preadipocytes via NADPH oxidase/ROS/p42/p44 MAPK‐dependent COX‐2 expression. 相似文献
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Han Mo Linghan Wang Yuting Chen Xuchen Zhang Ning Huang Tingting Liu Wantong Hu Yi Zhong Qian Li 《Aging cell》2022,21(6)
Age‐related memory impairment (AMI) is a common phenomenon across species. Vulnerability to interfering stimuli has been proposed to be an important cause of AMI. However, the molecular mechanisms underlying this vulnerability‐related AMI remain unknown. Here we show that learning‐activated MAPK signals are gradually lost with age, leading to vulnerability‐related AMI in Drosophila. Young flies (2‐ or 3‐day‐old) exhibited a significant increase in phosphorylated MAPK levels within 15 min after learning, whereas aged flies (25‐day‐old) did not. Compared to 3‐day‐old flies, significant 1 h memory impairments were observed in 15‐, 20‐, and 30‐day‐old flies, but not in 10‐day‐old flies. However, with post‐learning interfering stimuli such as cooling or electric stimuli, 10‐day‐old flies had worse memory performance at 1 h than 3‐day‐old flies, showing a premature AMI phenomenon. Increasing learning‐activated MAPK signals through acute transgene expression in mushroom body (MB) neurons restored physiological trace of 1 h memory in a pair of MB output neurons in aged flies. Decreasing such signals in young flies mimicked the impairment of 1 h memory trace in aged flies. Restoring learning‐activated MAPK signals in MB neurons in aged flies significantly suppressed AMI even with interfering stimuli. Thus, our data suggest that age‐related loss of learning‐activated neuronal MAPK signals causes memory vulnerability to interfering stimuli, thereby leading to AMI. 相似文献
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Olivier Mercey Corinne Kostic Eloïse Bertiaux Alexia Giroud Yashar Sadian David C. A. Gaboriau Ciaran G. Morrison Ning Chang Yvan Arsenijevic Paul Guichard Virginie Hamel 《PLoS biology》2022,20(6)
Inherited retinal degeneration due to loss of photoreceptor cells is a leading cause of human blindness. These cells possess a photosensitive outer segment linked to the cell body through the connecting cilium (CC). While structural defects of the CC have been associated with retinal degeneration, its nanoscale molecular composition, assembly, and function are barely known. Here, using expansion microscopy and electron microscopy, we reveal the molecular architecture of the CC and demonstrate that microtubules are linked together by a CC inner scaffold containing POC5, CENTRIN, and FAM161A. Dissecting CC inner scaffold assembly during photoreceptor development in mouse revealed that it acts as a structural zipper, progressively bridging microtubule doublets and straightening the CC. Furthermore, we show that Fam161a disruption in mouse leads to specific CC inner scaffold loss and triggers microtubule doublet spreading, prior to outer segment collapse and photoreceptor degeneration, suggesting a molecular mechanism for a subtype of retinitis pigmentosa.Inherited retinal degeneration due to loss of photoreceptor cells is a leading cause of human blindness. Ultrastructure expansion microscopy on mouse retina reveals the presence of a novel structure inside the photoreceptor connecting cilium, the inner scaffold, that protects the outer segment against degeneration. 相似文献
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雌激素受体及其信号通路在乳腺癌的发生发展中发挥着关键作用。到目前为止,抑制或阻断雌激素信号通路的内分泌治疗尤其是他莫西芬,仍是对雌激素受体阳性乳腺癌患者最有效的治疗手段之一。然而,他莫西芬的耐药问题直接影响了乳腺癌患者的治疗及预后。最近多项研究表明雌激素受体与表皮生长因子受体家族尤其是HER2介导的信号传导通路在多个点上相互交叉,彼此影响,与他莫西芬的耐药密切相关 相似文献
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Xiong XH Han S Wang JH Jiang ZH Chen W Jia N Wei HL Cheng H Yang YX Zhu B You S He JY Hou W Chen MX Yu CJ Jiao YH Zhang WC 《Journal of bacteriology》2011,193(1):315-316
Ketogulonicigenium vulgare is characterized by the efficient production of 2KGA from L-sorbose. Ketogulonicigenium vulgare Y25 is known as a 2-keto-L-gulonic acid-producing strain in the vitamin C industry. Here we report the finished, annotated genome sequence of Ketogulonicigenium vulgare Y25. 相似文献
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本文通过新生大鼠原代培养获取骨骼肌肌管,利用水平回转器模拟失重效应,通过F-actin/G-actin以及F-actin/pERK免疫细胞化学染色,观察研究了模拟失重对肌管形态、微丝及磷酸化ERK表达的影响。通过建立的航天飞行失重性肌萎缩的细胞学模型研究发现:回转后肌管变细,F-actin染色减弱伴有G-actin染色增强,同时pERK染色减弱。表明回转模拟失重条件下肌管发生萎缩、微丝解聚并伴随信号转导活性分子磷酸化ERK表达下降。提示肌管细化是失重性肌萎缩结构和功能变化的结构基础 相似文献
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乙醇酸氧化酶(Go)是植物光呼吸途径中的一种关键酶,可以催化乙醇酸生产乙醛酸。从新鲜菠菜叶中提取总RNA,利用RT-PCR技术获得编码GO基因的cDNA片断。通过基因重组将GO基因克隆到载体pA0815中,构建了胞内表达载体pA0815/GO,重组质粒经电转整合至甲醇营养酵母GS115染色体。在混合碳源为10g/L山梨醇和0.5g/L甲醇的培养条件下,细胞的GO酶活达到474IU/g(DCW)。利用该重组毕赤酵母作为催化剂生产乙醛酸,结果表明:在乙醇酸浓度为0.25mol/L,重组酵母湿菌体为10dL,黄素单核苷酸(FMN)浓度为0.01mmol/L,pH8.0,20℃,反应18h后乙醛酸的产率达到51.8%。 相似文献