Suppressing Voltage Fading of Li‐Rich Oxide Cathode via Building a Well‐Protected and Partially‐Protonated Surface by Polyacrylic Acid Binder for Cycle‐Stable Li‐Ion Batteries

Li‐rich manganese based oxides (LRMOs) are considered an attractive high‐capacity cathode for advanced Li‐ion batteries; however, their poor cyclability and gradual voltage fading have hindered their practical applications. Herein, an efficient and facile strategy is proposed to stabilize the lattice structure of LRMOs by surface modification of polyacrylic acid (PAA). The PAA‐coated LRMO electrode exhibits only 104 mV of the voltage fading after 100 cycles and 88% capacity retention over 500 cycles. The structural stability is attributed to the carboxyl groups in PAA chains reacting with oxygen species on the surface of LRMO to form a uniform and tightly coated film, which significantly suppresses the dissolution of transition metal elements from the cathode materials into the electrolyte. Importantly, a H⁺/Li⁺ exchange reaction takes place between the LRMO and PAA, generating a proton‐doped surface layer. Density functional theory calculations and experimental evidence demonstrates that the H⁺ ions in the surface lattice efficiently inhibit the migration of transition metal ions, leading to a stabilized lattice structure. This surface modification approach may provide a new route to building a stable Li‐rich oxide cathode with high capacity retention and low voltage fading for practical Li‐ion battery applications.     

阿加曲班对MCAO大鼠不同时间点血小板功能的影响

建立大脑中动脉闭塞(model of middle cerebral artery occlusion,MCAO)大鼠模型,研究阿加曲班对大鼠不同时间脑缺血再灌注损伤血小板功能的影响。将120只健康雄性SD大鼠随机分为假手术组(Sham)、模型组(Model)和阿加曲班给药组(Argatroban),其中Argatroban组分为4组:Argatroban+30 min组、Argatroban+1 h组、Argatroban+3 h组和Argatroban+7 h组,Sham组和Model组40只,其余各组每组10只。线栓法制备大鼠MCAO模型,术中输注Argatroban,剂量为0.3μg·kg^-1·min^-1,完成手术前5 min停止输注。手术完成后,Sham组和Model组分别于术后30 min、1 h、3 h和7 h处死10只取样;Argatroban给药组5个时间点处死取样。检测大鼠血浆血细胞数量,并计数骨髓有核细胞数的变化。采用流式细胞仪检测血小板-白细胞聚集体(platelet-leukocyte aggregates,PLA)表达水平,观察活化部分凝血活酶时间(activated partial thromboplastin time,APTT)、血小板计数变化,ELISA检测血浆D-二聚体和TAT。结果显示,与Sham组相比,Model组大鼠的红细胞(RBC)、白细胞(WBC)、血红蛋白含量(HGB)和中性粒细胞(GR)数都显著升高(p<0.05),且与给药组没有统计学差异。Sham组、Model组和Argatroban给药组的骨髓有核细胞数也没有统计学差异。与Sham组相比,Model组PLA表达水平极显著升高(p<0.01),Argatroban+30 min组PLA表达水平却低于Sham组,但没有统计学差异,Argatroban+1 h组高于Sham组和Argatroban+30 min组(p<0.05),Argatroban+3 h组和Argatroban+7 h组高于Argatroban+1 h组低于Sham组。术后各组的血小板计数均高于Sham组(p<0.05),Argatroban各组的血小板计数要低于Model组(p<0.05),并在30 min时达到最低,30 min以后血小板升高,但是1 h以后血小板不再升高,趋于稳定。Argatroban各组PT和APTT虽略有降低,但是与Sham组和Model组并没有统计学差异。造模后各组TAT、D-二聚体水平显著升高,Argatroban各组TAT水平较模型组明显降低(p<0.05),Argatroban+30 min组水平最低。MCAO模型大鼠血液呈现高凝状态,凝血功能和纤维蛋白溶解功能亢进,血小板活化增强,阿加曲班可对此起到改善作用。     

Could urinary ACE2 protein level help identify individuals susceptible to SARS-CoV-2 infection and complication?

Science China Life Sciences -     

Three proline rotamases involved in calcium homeostasis play differential roles in stress tolerance,virulence and calcineurin regulation of Beauveria bassiana

FK506‐sensitive proline rotamases (FPRs), also known as FK506‐binding proteins (FKBPs), can mediate immunosuppressive drug resistance in budding yeast but their physiological roles in filamentous fungi remain opaque. Here, we report that three FPRs (cytosolic/nuclear 12.15‐kD Fpr1, membrane‐associated 14.78‐kD Fpr2 and nuclear 50.43‐kD Fpr3) are all equally essential for cellular Ca²⁺ homeostasis and contribute significantly to calcineurin activity at different levels in the insect‐pathogenic fungus Beauveria bassiana although the deletion of fpr1 alone conferred resistance to FK506. Radial growth, conidiation, conidial viability and virulence were less compromised in the absence of fpr1 or fpr2 than in the absence of fpr3, which abolished almost all growth on scant media and reduced growth moderately on rich media. The Δfpr3 mutant was more sensitive to Na⁺, K⁺, Mn²⁺, Ca²⁺, Cu²⁺, metal chelate, heat shock and UVB irradiation than was Δfpr2 while both mutants were equally sensitive to Zn²⁺, Mg²⁺, Fe²⁺, H₂O₂ and cell wall‐perturbing agents. In contrast, the Δfpr1 mutant was less sensitive to fewer stress cues. Most of 32 examined genes involved in DNA damage repair, Na⁺/K⁺ detoxification or osmotolerance and Ca²⁺ homeostasis were downregulated sharply in Δfpr2 and Δfpr3 but rarely so affected in Δfpr1, coinciding well with their phenotypic changes. These findings uncover important, but differential, roles of three FPRs in the fungal adaptation to insect host and environment and provide novel insight into their essential roles in calcium signalling pathway.     

Tripartite motif protein 52 (TRIM52) promoted fibrosis in LX‐2 cells through PPM1A‐mediated Smad2/3 pathway

To investigate the roles of tripartite motif containing 52 (TRIM52) in human hepatic fibrosis in vitro, human hepatic stellate cell line LX‐2 cells were transfected with hepatitis B virus (HBV) replicon to establish HBV‐induced fibrosis in LX‐2 cells, and then treated with small interfering RNA‐mediated knockdown of TRIM52 (siTRIM52). LX‐2 cells without HBV replicon transfection were treated with lentiviruses‐mediated overexpression of TRIM52 and phosphatase magnesium dependent 1A (PPM1A). Fibrosis response of LX‐2 cells were assessed by the production of hydroxyproline (Hyp) and collagen I/III, as well as protein levels of α‐smooth muscle actin (α‐SMA). PPM1A and phosphorylated (p)‐Smad2/3 were measured to assess the mechanism. The correlation between TRIM52 and PPM1A was determined using co‐immunoprecipitation, and whether and how TRIM52 regulated the degradation of PPM1A were determined by ubiquitination assay. Our data confirmed HBV‐induced fibrogenesis of LX‐2 cells, as evidenced by significant increase in Hyp and collagen I/III and α‐SMA, which was associated with reduction of PPM1A and elevation of transforming growth factor‐β (TGF‐β), p‐Smad2/3, and p‐Smad3L. However, those changes induced by HBV were significantly attenuated with additional siTRIM52 treatment. Similar to HBV, overexpression of TRIM52 exerted promoted effect in the fibrosis of LX‐2 cells. Interestingly, TRIM52 induced the fibrogenesis of LX‐2 cells and the activation of TGF‐β/Smad pathway were significantly reversed by PPM1A overexpression. Furthermore, our data confirmed TRIM52 as a deubiquitinase that influenced the accumulation of PPM1A protein, and subsequently regulated the fibrogenesis of LX‐2 cells. TRIM52 was a fibrosis promoter in hepatic fibrosis in vitro, likely through PPM1A‐mediated TGF‐β/Smad pathway.     

HIF‐1α forms regulatory loop with YAP to coordinate hypoxia‐induced adriamycin resistance in acute myeloid leukemia cells

Despite the improvement in acute myeloid leukemia (AML) treatments, most patients had a poor prognosis and suffered from chemoresistance and disease relapse. Therefore, there is an urgent need for elucidation of mechanism(s) underlying drug resistance in AML. In the present study, we found that AML cells showed less susceptibility to adriamycin (ADR) in the presence of hypoxia, while inhibition of hypoxia‐inducible factor 1α (HIF‐1α) by CdCl₂ can make AML cells re‐susceptibile to ADR even under hypoxia. Moreover, HIF‐1α is overexpressed and plays an important role in ADR‐resistance maintenance in resistant AML cells. We further found hypoxia or induction of HIF‐1α can significantly upregulate yes‐associated protein (YAP) expression in AML cells, and resistant cells express a high level of YAP. Finally, we found that YAP may not only enhance HIF‐1α stability but also promote HIF‐1α's activity on the target gene pyruvate kinase M2. In conclusion, our data indicate that HIF‐1α or YAP may represent a therapeutic target for overcoming resistance toward adriamycin‐based chemotherapy in AML.     

ADAMTSL6β promotes fibrillin‐1 microfibril assembly,which is possibly mediated via binding through the third thrombospondin type I domain to fibrillin‐1

Fibrillin‐1 is the major component of extracellular matrix microfibrils. Microfibrils dysfunction is responsible for the onset of various connective tissue diseases, including Marfan syndrome. Although ADAMTSL (a disintegrin and metalloproteinase with thrombospondin motifs‐like) 6β is one of the fibrillin‐1 binding proteins, the detailed mechanism underlying the involvement of ADAMTSL6β in microfibril formation remains unclear. In this study, we created deletion mutants of ADAMTSL6β and examined their interactions with fibrillin‐1 assembly. Pull‐down assay of the ADAMTSL6β deletion mutants and fibrillin‐1 protein revealed that ADAMTSL6β binds to fibrillin‐1 through the third thrombospondin type I domain. Furthermore, we observed that formation of fibrillin‐1 matrix assembly was enhanced in MG63 cells, expressing full‐length ADAMTSL6β, when compared with that of wild type MG63 cells. While MG63 cells expressing Δ TSP3‐ADAMTSL6β form showed enhanced assembly formation, Δ TSP2‐ADAMTSL6β form did not enhance that, indicating the difference between Δ TSP2‐Δ TSP3 has a critical role for fibrillin‐1 assembly. As the difference of Δ TSP2‐Δ TSP3 is the third thrombospondin type I domain, we concluded that the third thrombospondin type I domain of ADAMTSL6β influence the microfibril formation. Our data are the functional presentation of the biological role of ADAMTSL6β in the process of microfibril formation.