The Nrf-2/ARE signaling pathway is not only affected by itself but also influenced by multiple tumor-related signals. To expand our understanding about the Nrf-2/ARE signaling pathway and lay a theoretical foundation for further research, we reviewed the effects of multiple tumor-related signals on the Nrf-2/ARE signaling pathway and studied the possible underlying mechanisms.

Objective To investigate the method to prevent the displacement of tissue expander implanted between the panniculus carnosus and deep fasia in rabbits .Method 40 rabbits were divided into two groups randomly: the experimental group and the control group .Through an incision on the back , a pocket was made by dissecting between the rabbit panniculus carnosus and deep fasia .The panniculus carnosus at the pocket boundary were sutured with the deep fascia inside the pocket by interrupted 3-0 sutures.A 50 mL kidney-shaped tissue expander was implanted .The expander was inflated with 10 mL saline after the wound was sutured .7 days after implantation , black tattoos were made on the skin around the expander to mark the site of expander .Two months after implantation , the expanders in the experimental group were inflated with 10 mL saline weekly to a total of 140 mL.7 days after implantation the expanders of control group were inflated with 10 mL saline weekly to a total of 140 mL.The incidence of expander displacement , dehiscence of incision , reversal of injection pot and death were recorded .Results There was no expander displacement in the 19 rabbits of experimental group .All the expanders were located within the tattoo area .There was no expander displacement in 11 rabbits of the control group .4 expanders of the control group moved from the back to belly .The difference between them was statistically significant ( P <0.05 ) .The incidence of dehiscence of incision in the experimental group was not significantly lower than that in the control group ( P >0.05 ) .Meanwhile there was no significant difference in the incidences of reversal of injection pot , infections and deaths ( P >0.05 for all ) .Conclusions Sutures between the panniculus carnosus and the deep fascia at the pocket boundary asisted by delayed inflating can prevent the displacement of tissue expander implanted between the panniculus carnosus and deep fasia in rabbits , thus to obtain effective expansion .

Acupuncture Therapy ; Adult ; Aged ; Aged, 80 and over ; Combined Modality Therapy ; Exercise Therapy ; Female ; Humans ; Male ; Middle Aged ; Osteoarthritis, Knee ; therapy ; Treatment Outcome

Osteoblasts are the most important mechanoreceptive and osteogenic cells.The loss of bone in microgravity is mainly due to the dysfunction of osteoblasts.Research on osteoblast cytology under simulated weightlessness has made great progress in recent years.Current experiments are focusing on the changes in the cellular proliferation,differentiation,apoptosis, function and signal transduction in osteoblasts.This paper reviews the progress of the studies in this field.

BACKGROUND: One of the basic functions of bone is its adaptation to mechanical loading environment. Bone cells are the mechanosensitive cells in bone tissue. However, the mechanisms by which mechanical signals are transduced to chemical signals that influence bone growth and metabolism remain unidentified.OBJECTIVE: To understand the mechanotransduction pathways in osteoblasts and osteocytes, and to provide a theoretical basis for further study. METHODS: PubMed database was retrieved by computer with key words of osteoblast, osteocyte, bone cells, mechanical stress. According to inclusion criteria, 69 articles were included to summarize the transduction of mechanical signals of bone cells. RESULTS AND CONCLUSION: One of the basic functions of bone is its adaptation to mechanical loading environment. Bone cells are mechanosensitive cells. However, how the transduction of mechanical signals of cells realizes and how regulates skeleton remain poorly understood. Studies confirmed that due to the construction features and cell location of skeleton, osteoblasts and osteocytes are the most important mechanosensitive cells in bone tissue. The process of mechanotransduction can be divided into four distinct steps: ① mechanocoupling; ② biochemical coupling; ③ signal transmission; ④ effector response of bone cells. Through these four steps, the loads acting on the bones are transduced into biochemical signals, and then change the function of bone cells, finally induce the changes of bone structures to adapt the mechanical environment. The regulatory mechanisms of mechanical signals in bone marrow mesenchymal stem cells require further investigation.

Objective:To develop nano-TiO_2 ceramic-coated orthodontic brackets, and to study the surface characters of ceramic film. Methods:TiO_2 nanoparticles were synthesized by the Gel-Sol method. Electron beam physical vapor deposition(e-beam PVD)technology was used to deposit the nano-TiO_2 ceramic film on the surface of the orthodontic brackets, which were manufactured by the Xinya factory, Hangzhou.The surface properties of the nano-TiO_2 ceramic film were observed with scanning electron microscopy(SEM),transmission electron microscopy(TEM) and X ray power diffraction(XRD).Results:The synthesized TiO_2 particles were uniform with the diameter of (6?2) nm. The TiO_2 ceramic film on the orthodontic brackets was 5~8 ?m in thickness, with smooth surface and anatase stratiform structure.Conclusions:The nano- TiO_2 ceramic film has good surface properties and actinochemistry characters without any influence on the slot size.

Adenoma ; Diagnosis, Differential ; Hamartoma ; Humans ; Nasal Cavity ; surgery ; Paranasal Sinuses ; Respiratory Mucosa

Animals ; Diestrus ; drug effects ; Female ; Hyperprolactinemia ; physiopathology ; Panax ; Prolactin ; blood ; Rats ; Rats, Wistar ; Saponins ; pharmacology

p53 gene is a 16-20 kb of cellular DNA located on the short arm of human chromosome 17 at position 17pl3.1. This gene encodes a 393-amino acid nuclear phosphoprotein which involves in the regulation of cell proliferation. Loss of normal p53 function is associated with the cell transformation in vitro and the development of neoplasms in vivo. More than one-half of human malignancies were shown to contain an altered p53 gene. Most p53 gene alterations are the missense mutations, giving rise to an altered protein. The inactivation of wild-type p53 is currently regarded as an important genetic pathway for haman carcinogenesis generated by endogenous factors and exogenous carcinogens, as well as several tumor viruses. To gain more insight into the functional role of wild-type p53 in human colo-rectal carcinoma, a 2. 1 kilobase human wild-type p53 cDNA with 5' and 3' untranslated sequences was cloned into the BamHI site of pREP9 (episomal mammalian expression vector) in sense orientation. We performed experiments to transfer wild-type p53 into human colon adenocarcinoma cell line (SW1116) harboring mutant p53 genes with electroporation method. We assessed G4I8-resistant clonal growth, cell growth properties and cell cycle pattern by flow cytometry. The results demonstrated that human wild type p53 gene can suppress the phenotype of SW1116 cell line. So gene therapy based on restoration of the defective or mutant p53 function plays an important role in colo-rectal cancer treatment.

HSU17714 gene is a novel human colorectal carcinoma related gene isolated by subtractive hybridization method. The recombinant antisense expressive plasmid of HSU17714 gene was constructed by inserting the partial sequence (2612 bp) of this gene into the multiple cloning site of the vector pREP9 inversely. Then, it was transferred into human colon adenocarcinoma cells (SW1116) through liposome mediation. Obtained from the two-layer soft agarose culture test, flowcytometry test and cell growth rate detection, the data indicated that the antisense HSU17714 could inhibit the growth of SW1116 cells at different degrees. So, a conclusion could be drawn that the antisense HSU17714 gene expressive vector plays a role in the inhibition of SW1116 cell growth.