Nucleic Acid-Scavenging Hydrogels Accelerate Diabetic Wound Healing

Chronic inflammation is a typical feature and a major impediment in refractory diabetic foot ulcer (DFU). High levels of extracellular cell-free nucleic acid (cfDNA) have recently been known to play a critical role in the cause of inflammation. Herein, we fabricated polyacrylamide-based cationic hydrogels and topically applied them to the ulcer of a diabetic rat model. The cfDNA level in the wound area was significantly reduced after hydrogel adsorption, and the level of inflammation was eliminated. In turn, the wound closure was significantly promoted without introducing systemic toxicity. Cationic hydrogels represent an effective material to combat uncontrolled inflammation in DFU

Nanoparticulate Cationic Poly(amino acid)s Block Cancer Metastases by Destructing Neutrophil Extracellular Traps

Cancer metastasis that is resistant to conventional therapies has become a major cause of patient death. Recent reports indicate that the neutrophil extracellular trap (NET) is closely associated with cancer distant metastases, and the cell-free DNA of NETs has been identified as the ligand of the transmembrane protein CCDC25 of cancer cells, acting as a chemokine to induce cancer cell migration to distant organs. In this work, we present the poly(aspartic acid) based-cationic materials to interfere with the interaction between NET-DNA and CCDC25, and furthermore to inhibit NET-DNA-mediated cancer cell chemotaxis and migration. Because of a stronger binding affinity to DNA and favorable retention in the liver, nanoparticulate poly(aspartic acid) derivatives (cANP) efficiently reduce the level of hepatic NET-DNA infiltration, leading to a significant suppression of cancer metastases in mice and several human metastatic models. Moreover, the cANP exhibits no toxicity to organs of animals during the entire treatment. Thus, this work suggests a strategy for controlling cancer metastases, which will benefit patients in clinics

Nanoparticulate Cationic Poly(amino acid)s Block Cancer Metastases by Destructing Neutrophil Extracellular Traps

Cancer metastasis that is resistant to conventional therapies has become a major cause of patient death. Recent reports indicate that the neutrophil extracellular trap (NET) is closely associated with cancer distant metastases, and the cell-free DNA of NETs has been identified as the ligand of the transmembrane protein CCDC25 of cancer cells, acting as a chemokine to induce cancer cell migration to distant organs. In this work, we present the poly(aspartic acid) based-cationic materials to interfere with the interaction between NET-DNA and CCDC25, and furthermore to inhibit NET-DNA-mediated cancer cell chemotaxis and migration. Because of a stronger binding affinity to DNA and favorable retention in the liver, nanoparticulate poly(aspartic acid) derivatives (cANP) efficiently reduce the level of hepatic NET-DNA infiltration, leading to a significant suppression of cancer metastases in mice and several human metastatic models. Moreover, the cANP exhibits no toxicity to organs of animals during the entire treatment. Thus, this work suggests a strategy for controlling cancer metastases, which will benefit patients in clinics

Nanoparticulate Cationic Poly(amino acid)s Block Cancer Metastases by Destructing Neutrophil Extracellular Traps

Cancer metastasis that is resistant to conventional therapies has become a major cause of patient death. Recent reports indicate that the neutrophil extracellular trap (NET) is closely associated with cancer distant metastases, and the cell-free DNA of NETs has been identified as the ligand of the transmembrane protein CCDC25 of cancer cells, acting as a chemokine to induce cancer cell migration to distant organs. In this work, we present the poly(aspartic acid) based-cationic materials to interfere with the interaction between NET-DNA and CCDC25, and furthermore to inhibit NET-DNA-mediated cancer cell chemotaxis and migration. Because of a stronger binding affinity to DNA and favorable retention in the liver, nanoparticulate poly(aspartic acid) derivatives (cANP) efficiently reduce the level of hepatic NET-DNA infiltration, leading to a significant suppression of cancer metastases in mice and several human metastatic models. Moreover, the cANP exhibits no toxicity to organs of animals during the entire treatment. Thus, this work suggests a strategy for controlling cancer metastases, which will benefit patients in clinics

Nanoparticulate Cationic Poly(amino acid)s Block Cancer Metastases by Destructing Neutrophil Extracellular Traps

Cancer metastasis that is resistant to conventional therapies has become a major cause of patient death. Recent reports indicate that the neutrophil extracellular trap (NET) is closely associated with cancer distant metastases, and the cell-free DNA of NETs has been identified as the ligand of the transmembrane protein CCDC25 of cancer cells, acting as a chemokine to induce cancer cell migration to distant organs. In this work, we present the poly(aspartic acid) based-cationic materials to interfere with the interaction between NET-DNA and CCDC25, and furthermore to inhibit NET-DNA-mediated cancer cell chemotaxis and migration. Because of a stronger binding affinity to DNA and favorable retention in the liver, nanoparticulate poly(aspartic acid) derivatives (cANP) efficiently reduce the level of hepatic NET-DNA infiltration, leading to a significant suppression of cancer metastases in mice and several human metastatic models. Moreover, the cANP exhibits no toxicity to organs of animals during the entire treatment. Thus, this work suggests a strategy for controlling cancer metastases, which will benefit patients in clinics

Nanoparticulate Cationic Poly(amino acid)s Block Cancer Metastases by Destructing Neutrophil Extracellular Traps

Cancer metastasis that is resistant to conventional therapies has become a major cause of patient death. Recent reports indicate that the neutrophil extracellular trap (NET) is closely associated with cancer distant metastases, and the cell-free DNA of NETs has been identified as the ligand of the transmembrane protein CCDC25 of cancer cells, acting as a chemokine to induce cancer cell migration to distant organs. In this work, we present the poly(aspartic acid) based-cationic materials to interfere with the interaction between NET-DNA and CCDC25, and furthermore to inhibit NET-DNA-mediated cancer cell chemotaxis and migration. Because of a stronger binding affinity to DNA and favorable retention in the liver, nanoparticulate poly(aspartic acid) derivatives (cANP) efficiently reduce the level of hepatic NET-DNA infiltration, leading to a significant suppression of cancer metastases in mice and several human metastatic models. Moreover, the cANP exhibits no toxicity to organs of animals during the entire treatment. Thus, this work suggests a strategy for controlling cancer metastases, which will benefit patients in clinics

Data_Sheet_1_Lawn or spontaneous groundcover? Residents’ perceptions of and preferences for alternative lawns in Xianyang, China.docx

Within urban green spaces, spontaneous groundcovers, as potential alternatives for traditional lawns, have garnered attention due to their ecological adaptability. However, little attention has been paid to whether spontaneous groundcovers can serve as suitable replacements for lawns in terms of the aesthetic values and human preferences for each. Based on questionnaires accompanied by photo elicitation, this study explored the perceptions of and preferences for seven kinds of lawns and six kinds of spontaneous groundcovers in China. The effects of social backgrounds on people’s perceptions of and preferences for ground covers were also analyzed. The results indicated a general equivalence in preferences for the lawn and spontaneous groundcover. The Taraxacum mongolicum – Cynodon dactylon – Conyza canadensis community was significantly preferred most among all of the selected ground covers. Spontaneous groundcovers were regarded as more natural, wild, variable, and species-richer compared to lawns, while lawns were perceived as better kept than spontaneous groundcovers. Ground covers were preferred which were perceived to have high ecological aesthetic value and low wildness. Industry and attention to herbaceous plants mostly affected human perceptions and preferences among the social background factors, and gender, age, education level, and occupation also had significant effects. The results thus provide the support for the application of spontaneous groundcovers in moderately developed cities, but such application should consider the comprehensive development of ecological aesthetic value and the applicability of different groups of residents.</p

Image1_Downregulation of hsa_circRNA_0001400 Helps to Promote Cell Apoptosis Through Disruption of the circRNA_0001400–miR-326 Sponge in Cervical Cancer Cells.TIF

Background: In recent years, circular RNAs (circRNAs) have been reported to serve as essential regulators in several human cancers. Nevertheless, the function and mechanism of circRNAs in cervical cancer remain elusive.Methods: Flow cytometry assays were performed to measure cell apoptosis and cell cycle. Colony Formation and transwell chamber were performed to measure cell migration and invasion. Double luciferase reporter for gene analysis was used to detect the interaction between hsa-circRNA_0001400, miR-326, and Akt. Relative protein levels were determined by immunoblotting and relative gene levels were determined by quantitative real-time PCR. Tumor Xenograft Modeling was used to evaluate the effect of hsa_circRNA_0001400_siRNA in vivo.Results: In the present study, we showed that hsa_circRNA_0001400 was highly expressed in cervical cancer tissues relative to in matched normal tissue. We found that hsa_circRNA_0001400_siRNA significantly promoted the apoptosis of cervical cancer cells and arrested the cell cycle and migration of cervical cancer cells. We showed that hsa_circRNA_0001400_siRNA can inhibit the protein expression of Akt and that the inhibition of miR-326 could rescue the inhibition of Akt in cervical cancer cells. We found that has-miR-326 was downregulated in cervical cancer tissues and hsa_circRNA_0001400_siRNA could increase the gene expression of has-miR-326. We also observed that hsa_circRNA_0001400_siRNA inhibited the growth and angiogenesis of SiHa xenografts in nude mice.Conclusion: In conclusion, this study provides evidence that the hsa_circRNA_0001400–miR-326–Akt network promotes cervical cancer progression. Notably, our findings demonstrate the novel antitumor effects of hsa_circRNA_0001400_siRNA in cervical cancer.</p

Enantioselective Synthesis of Axially Chiral Biaryl Monophosphine Oxides via Direct Asymmetric Suzuki Coupling and DFT Investigations of the Enantioselectivity

Direct asymmetric Suzuki coupling between arylboronic acids and 2-diarylphosphinyl-1-naphthyl bromides was successfully developed for the first time with the use of Pd–<b>L1</b> or Pd–(Cy-MOP) as the catalyst. A variety of axially chiral 2-functionalized-2′-diarylphosphinyl-1,1′-biaryls were afforded in 34–99% yields with up to 94% ee. This methodology provides a highly efficient and practical strategy for the synthesis of novel axially chiral biaryl monophosphine oxides and the corresponding phosphines. The existence of an ortho formyl group in arylboronic acids greatly improves the coupling efficiency and permits further versatile transformations in organic synthesis. Density functional calculations were used to determine the origin of stereoselectivity during the reductive elimination step of the closely related coupling of 2-formylphenylboronic acid with naphthylphosphonate bromide. These studies indicate that both the significant transition metal hydrogen bond between the H atom of the formyl group and palladium­(II) and the weak interaction between the Pd center and the phosphoryl oxygen atom in the transition state are crucial for high enantioselectivity of the coupling products