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101.
猫延髓吻侧腹外侧区NPY、SOM和NT免疫反应物质的分布 总被引:1,自引:0,他引:1
生理学研究表明,延髓吻侧腹外侧区(RVL)在维持血压稳定方面起着关键的作用。本文用免疫组化ABC技术,观察了猫RVL神经肽Y(NPY)、生长抑素(SOM)和神经降压肽(NT)免疫反应(IR)细胞和纤维的分布,以便为研究此区血压调节功能的机制提供形态学资料。结果表明:NPY—、SOM—IR细胞和少量NT—IR细胞主要分布于旁巨细胞外侧核、外侧网状核吻侧部以及外侧网状核背侧紧邻的网状结构。这些细胞从RVL尾侧向吻侧逐渐减少。NPY—IR纤维分布于旁巨细胞外侧核以及外侧网状核吻侧部的腹内侧区。NT—IR纤维较多,可见两丛中等密度的NT—IR纤维:一丛位于旁巨细胞外侧核;另一丛位于面后核、疑核以及二核紧邻的区域。此外还可见少量SOM—IR纤维。 相似文献
102.
目的:探讨组织冻结融化造成血管内皮细胞(VEC)损伤的机理。方法:采用密度梯度离心法分离大鼠外周血嗜中性粒细胞(PMN),速率冷冻仪冷冻PMN后水浴复温建立冻融PMN模型。冻融后4、12和24h,测定PMN表面淋巴细胞功能相关抗原-1(LFA-1)的表达;将冻融PMN与正常VEC共同孵育后测定培养液中乳酸脱氢酶活性及冻融PMN与VEC的粘附。结果:冻融后24h内,冻融PMN表面LFA-1的表面呈时间依赖性增强。(2)冻融PMN与VEC相互作用后,PMN-VEC粘附明显增强、VEC受到明显损伤。(3)抗LFA-1单克隆抗体明显抑制冻融PMN与VEC粘附的增强、明显减轻VEC损伤。结论:冻融可诱发PMN表面LFA-1的表达,进而增强PMN-VEC粘附而导致VEC损伤。 相似文献
103.
烟酸转磷酸核糖激酶和丙酮酸羧化酶共表达对大肠杆菌BA002产丁二酸的影响 总被引:1,自引:0,他引:1
大肠杆菌BA002是敲除了乳酸脱氢酶的编码基因 (ldhA) 和丙酮酸-甲酸裂解酶的编码基因 (pflB) 的工程菌。厌氧条件下NADH不能及时再生为NAD+,引起胞内辅酶NAD(H)的不平衡,最终导致厌氧条件下菌株不能利用葡萄糖生长代谢。pncB是烟酸转磷酸核糖激酶 (NAPRTase) 的编码基因,通过过量表达pncB基因能够提高NAD(H)总量与维持合适的NADH/NAD+,从而恢复了厌氧条件下重组菌E. coli BA014 (BA002/pTrc99a-pncB) 的生长和产丁二酸的性能。然而,BA014在厌氧发酵过程中有大量丙酮酸积累,为进一步提高菌株的丁二酸生产能力,减少副产物丙酮酸的生成,共表达NAPRTase和来自于乳酸乳球菌 NZ9000中丙酮酸羧化酶 (PYC) 的编码基因pyc,构建了重组菌E. coli BA016 (BA002/pTrc99a-pncB-pyc)。3 L发酵罐结果表明,BA016发酵112 h后,共消耗了35.00 g/L的葡萄糖。发酵结束时,菌体OD600为4.64,产生了25.09 g/L丁二酸。通过共表达pncB和pyc基因,使BA016的丙酮酸积累进一步降低,丁二酸产量进一步提高。 相似文献
104.
Xiaobo Hu Tingting Duan Yuqing Xiong Zhijie He Wenjie Wei Zhaohui Cao 《Acta biochimica et biophysica Sinica》2021,(8):1109-1111
Cell-cell communication plays a critical role in cell proliferation,dif-ferentiation,morphogenesis,functiogenesis,and tissue homoeostasis in multicellular organ... 相似文献
105.
Shuning Yu Shaoling Li Zhixin Xie Wei Liu Md. Monarul Islam Carl Redshaw Mei Juan Cao Qing Chen Xing Feng 《Luminescence》2024,39(2):e4594
Three new pyrrolo[3,2-b]pyrrole derivatives containing methoxyphenyl, pyrene or tetraphenylethylene (TPE) units (compounds 1 – 3) have been designed, synthesized and fully characterized. The aggregation-induced emission (AIE) properties of compounds 1 – 3 were tested in different water fraction (fw) of tetrahydrofuran (THF). The pyrrolo[3,2-b]pyrrole derivative 3 containing TPE units exhibited typical AIE features with an enhanced emission (∼32-fold) in the solid state versus in solution; compounds 1 and 2 exhibited an aggregation-caused quenching effect. In addition, the steric and electronic effects of the peripheral moieties on the emission behavior, both in solution and in the solid state, have been investigated. Moreover, pyrrolo[3,2-b]pyrrole 1 exhibits high sensitivity and selectivity for dichloromethane and chloroform solvents, with the system displaying a new emission peak and fast response time under ultraviolet irradiation. 相似文献
106.
107.
Xiaowei Wei Wei Ma Hui Gu Dan Liu Wenting Luo Songying Cao Shanshan Jia Tianchu Huang Yiwen He Yuzuo Bai Weilin Wang Zhengwei Yuan 《Cell proliferation》2023,56(2)
ObjectivesSpina bifida aperta (SBA) is one of the most common neural tube defects. Neural injury in SBA occurs in two stages involving failed neural tube closure and progressive degeneration through contact with the amniotic fluid. We previously suggested that intra‐amniotic bone marrow‐derived mesenchymal stem cell (BMSC) therapy for fetal rat SBA could achieve beneficial functional recovery through lesion‐specific differentiation. The aim of this study is to examine whether the amniotic fluid microenvironment can be improved by intra‐amniotic BMSC transplantation.MethodsThe intra‐amniotic BMSC injection was performed using in vivo rat fetal SBA models. The various cytokine expressions in rat amniotic fluid were screened by protein microassays. Intervention experiments were used to study the function of differentially expressed cytokines.ResultsA total of 32 cytokines showed significant upregulated expression in the BMSC‐injected amniotic fluid. We focused on Activin A, NGF, BDNF, CNTF, and CXCR4. Intervention experiments showed that the upregulated Activin A, NGF, BDNF, and CNTF could inhibit apoptosis and promote synaptic development in fetal spinal cords. Inhibiting the activity of these factors weakened the anti‐apoptotic and pro‐differentiation effects of transplanted BMSCs. Inhibition of CXCR4 activity reduced the engraftment rate of BMSCs in SBA fetuses.ConclusionBMSC transplantation can improve the amniotic fluid environment, and this is beneficial for SBA repair.In utero intra‐amniotic BMSC or PBS microinjection in the E15 fetuses was performed in E15 rat fetuses with spina bifida aperta, and amniotic fluid was collected at E21 for protein array detection. Venn diagram shows the relationship of three biological processes (GO: 0030335, 0048699, and 0043524) and the attribution of differentially expressed proteins. Comparative analysis of five proteins with the largest fold changes in the process of generation of neurons. 相似文献
108.
109.
Yuhan Lin Penglin Xia Fangyu Cao Cheng Zhang Yajie Yang Haitao Jiang Haishan Lin Hu Liu Ruling Liu Xiaodong Liu Jianming Cai 《Journal of cellular and molecular medicine》2023,27(2):246
Radiation‐induced intestinal injury (RIII) is a common complication after radiation therapy in patients with pelvic, abdominal, or retroperitoneal tumours. Recently, in the model of DSS (Dextran Sulfate Sodium Salt) ‐induced intestinal inflammatory injury, it has been found in the study that transgenic mice expressing hVDR in IEC (Intestinal Epithelial Cell) manifest highly anti‐injury properties in colitis, suggesting that activated VDR in the epithelial cells of intestine may inhibit colitis by protecting the mucosal epithelial barrier. In this study, we investigated the effect of the expression and regulation of VDR on the protection of RIII, and the radiosensitivity in vitro experiments, and explored the initial mechanism of VDR in regulating radiosensitivity of IEC. As a result, we found that the expression of VDR in intestinal tissues and cells in mice can be induced by ionizing radiation. VDR agonists are able to prolong the average survival time of mice after radiation and reduce the radiation‐induced intestinal injury. For lack of vitamin D, the radiosensitivity of intestinal epithelial cells in mice increased, which can be reduced by VDR activation. Ensuing VDR activation, the radiation‐induced intestinal stem cells damage is decreased, and the regeneration and differentiation of intestinal stem cells is promoted as well. Finally, on the basis of sequencing analysis, we validated and found that VDR may target the HIF/PDK1 pathway to mitigate RIII. We concluded that agonism or upregulation of VDR expression attenuates radiation‐induced intestinal damage in mice and promotes the repair of epithelial damage in intestinal stem cells. 相似文献
110.
Tingting Duan Cifei Tang Zhuan Wu Zhaohui Cao Xiaobo Hu 《Acta biochimica et biophysica Sinica》2021,(1):128-130
Type 2 diabetes(T2D)is a chronic metabolic disease characterized by insulin resistance and hyperglycemia,which is ultimately linked to the loss of pancreaticβ-cells and their function[1].Understanding the pathological mechanisms ofβ-cell dysfunction in T2D may lead to development of new therapeutic approaches.Recently,compelling evidence suggests that members of the nuclear receptor 4A(NR4A)subgroup play a pivotal role inβ-cell loss[2].Nor1,also known as NR4A3,belongs to the NR4A subfamily,which also includes Nur77(NR4A1)and Nurr1(NR4A2),and is defined as a true orphan nuclear receptor with an unknown endogenous ligand or ligand independent[3].As a regulator of gene expression located in the nucleus,Nor1 exhibits tissue-specific expression,which selectively controls diverse biological processes,including cell proliferation,apoptosis,differentiation,immune homeostasis,and fuel utilization[4].Thus far,it was reported that Nor1 is involved in numerous pathologies such as cancer,inflammatory diseases,and Parkinson’s disease[4]. 相似文献