全球慢性肾病防治药物研究进展

 慢性肾病（chronic kidney disease，CKD）具有病因复杂、治疗难度大等特点，已成为全球性的公共卫生问题，其影响了全球约10%的人群，并可导致更高的心血管疾病和死亡的发生风险等。CKD防治的关键环节之一是阻止或延缓CKD进展。总结了CKD的流行病学、风险因素、研发投入和防治药物，以详细了解CKD的现状和防治新进展。     

圆形均匀带电薄板电场的数值积分和可视化

利用均匀带电圆环在直角坐标系中的电势和电场强度的2个分量的公式,推导了均匀带电圆形薄板的电势和电场强度的2个分量的积分公式.将积分公式无量纲化,采用数值积分法计算电势和场强的值,绘制曲面、二维等势线和电场线.     

ICP-MS法测定钼矿石中伴生锂、镓和稀土元素

通过比较氢氟酸-硝酸高压罐密闭消解法、 氢氟酸-硝酸-高氯酸-盐酸低压密闭消解法和氢氟酸-硝酸-高氯酸-盐酸敞口消解法对钼矿样品的分解效果， 选用低压密闭消解法制备样品， 用电感耦合等离子体质谱（ICP-MS)法测定伴生稀有元素Li，Ga和15种稀土元素的质量比. 通过对干扰元素的分析， 选择合适同位素， 并确定¹⁵¹Eu，¹⁵⁷Gd，¹⁵⁹Tb质谱干扰的校正系数. 结果表明，  20 μg/L的铑（Rh）标准溶液作为内标可有效抑制溶液中的基体效应和信号动态漂移， 方法检出限为0.001~0.113 μg/g， 相对标准偏差（RSD， n=7）为0.30%~3.92%.  经标准物质和实际样品验证， 该方法可靠， 适合钼矿中伴生Li，Ga和稀土元素的测定.     

不同光照条件下氮浓度对衣藻生长及油脂积累的影响

为探究莱茵衣藻(Chlamydomonas reinhardtii)油脂含量的最佳条件,在不同的光照条件下检测了氮浓度对莱茵衣藻生物量及油脂含量的影响.结果表明:在氮添加和光照强度增加的梯度上,衣藻的油脂含量逐渐降低;光照强度和氮添加量对衣藻的油脂含量都有显著影响;控制光照强度和氮添加量后发现,当光照强度为30μE·m~(-2)·s~(-1),氮质量浓度为100 mg·mL~(-1)时,衣藻油脂含量的质量分数为39.79%,叶绿素质量浓度为17.08 mg·mL~(-1),最适宜衣藻油脂积累.     

Protein kinase D inhibitor CRT0066101 suppresses bladder cancer growth in vitro and xenografts via blockade of the cell cycle at G2/M

The protein kinase D (PKD) family of proteins are important regulators of tumor growth, development, and progression. CRT0066101, an inhibitor of PKD, has antitumor activity in multiple types of carcinomas. However, the effect and mechanism of CRT0066101 in bladder cancer are not understood. In the present study, we show that CRT0066101 suppressed the proliferation and migration of four bladder cancer cell lines in vitro. We also demonstrate that CRT0066101 blocked tumor growth in a mouse flank xenograft model of bladder cancer. To further assess the role of PKD in bladder carcinoma, we examined the three PKD isoforms and found that PKD2 was highly expressed in eight bladder cancer cell lines and in urothelial carcinoma tissues from the TCGA database, and that short hairpin RNA (shRNA)-mediated knockdown of PKD2 dramatically reduced bladder cancer growth and invasion in vitro and in vivo, suggesting that the effect of the compound in bladder cancer is mediated through inhibition of PKD2. This notion was corroborated by demonstrating that the levels of phospho-PKD2 were markedly decreased in CRT0066101-treated bladder tumor explants. Furthermore, our cell cycle analysis by flow cytometry revealed that CRT0066101 treatment or PKD2 silencing arrested bladder cancer cells at the G2/M phase, the arrest being accompanied by decreases in the levels of cyclin B1, CDK1 and phospho-CDK1 (Thr161) and increases in the levels of p27^Kip1 and phospho-CDK1 (Thr14/Tyr15). Moreover, CRT0066101 downregulated the expression of Cdc25C, which dephosphorylates/activates CDK1, but enhanced the activity of the checkpoint kinase Chk1, which inhibits CDK1 by phosphorylating/inactivating Cdc25C. Finally, CRT0066101 was found to elevate the levels of Myt1, Wee1, phospho-Cdc25C (Ser216), Gadd45α, and 14-3-3 proteins, all of which reduce the CDK1-cyclin B1 complex activity. These novel findings suggest that CRT0066101 suppresses bladder cancer growth by inhibiting PKD2 through induction of G2/M cell cycle arrest, leading to the blockade of cell cycle progression.     

Degradation of the mitochondrial complex I assembly factor TMEM126B under chronic hypoxia

Cell stress such as hypoxia elicits adaptive responses, also on the level of mitochondria, and in part is mediated by the hypoxia-inducible factor (HIF) 1α. Adaptation of mitochondria towards acute hypoxic conditions is reasonably well understood, while regulatory mechanisms, especially of respiratory chain assembly factors, under chronic hypoxia remains elusive. One of these assembly factors is transmembrane protein 126B (TMEM126B). This protein is part of the mitochondrial complex I assembly machinery. We identified changes in complex I abundance under chronic hypoxia, in association with impaired substrate-specific mitochondrial respiration. Complexome profiling of isolated mitochondria of the human leukemia monocytic cell line THP-1 revealed HIF-1α-dependent deficits in complex I assembly and mitochondrial complex I assembly complex (MCIA) abundance. Of all mitochondrial MCIA members, we proved a selective HIF-1-dependent decrease of TMEM126B under chronic hypoxia. Mechanistically, HIF-1α induces the E3-ubiquitin ligase F-box/WD repeat-containing protein 1A (β-TrCP1), which in turn facilitates the proteolytic degradation of TMEM126B. Attenuating a functional complex I assembly appears critical for cellular adaptation towards chronic hypoxia and is linked to destruction of the mitochondrial assembly factor TMEM126B.     

Prion protein cleavage fragments regulate adult neural stem cell quiescence through redox modulation of mitochondrial fission and SOD2 expression

Neurogenesis continues in the post-developmental brain throughout life. The ability to stimulate the production of new neurones requires both quiescent and actively proliferating pools of neural stem cells (NSCs). Actively proliferating NSCs ensure that neurogenic demand can be met, whilst the quiescent pool makes certain NSC reserves do not become depleted. The processes preserving the NSC quiescent pool are only just beginning to be defined. Herein, we identify a switch between NSC proliferation and quiescence through changing intracellular redox signalling. We show that N-terminal post-translational cleavage products of the prion protein (PrP) induce a quiescent state, halting NSC cellular growth, migration, and neurite outgrowth. Quiescence is initiated by the PrP cleavage products through reducing intracellular levels of reactive oxygen species. First, inhibition of redox signalling results in increased mitochondrial fission, which rapidly signals quiescence. Thereafter, quiescence is maintained through downstream increases in the expression and activity of superoxide dismutase-2 that reduces mitochondrial superoxide. We further observe that PrP is predominantly cleaved in quiescent NSCs indicating a homeostatic role for this cascade. Our findings provide new insight into the regulation of NSC quiescence, which potentially could influence brain health throughout adult life.     

Synthesis and Largely Enhanced Nonlinear Refraction of Au@Cu_2O Core-Shell Nanorods

Au@Cu_2O core-shell nanorods with tunable thickness of Cu_2O shell were synthesized and their linear and nonlinear optical responses were investigated. Two transverse plasmon resonance peaks were observed when the Au nanorods were coated with Cu_2O shells, which were adjusted by the Cu_2O shell thickness. The nonlinear absorption of the Au@Cu_2O nanorods is enhanced by 5 times at the longitudinal plasmon resonance wavelength compared with that of bare Au nanorods. More intriguingly, largely enhanced nonlinear refraction and suppressed nonlinear absorption at the transverse plasmon resonance wavelength were observed in the Au@Cu_2O nanorods. Our findings indicate the existence of strong local field enhancement at the interface between the Au core and the Cu_2O shell, which would provide a promising strategy in designing plasmonic nonlinear nanodevices with good nonlinear figures of merit.