Hepatitis B virus ( HBV) is an important pathogen threatening to human health. Up to date, various of cell infection models and animal models for HBV and the host are widely used in the exploring research of infection mechanism, new drug development and effective therapeutic method for HBV. However, these models have some defects, such as low infection rate, rather short infective stage, and comparatively large species differences with human, and so on. Among them, the biggest problem is that these models cannot completely simulate HBV infection process and pathological changes naturally occurred in human. Herein, the major HBV infection models developed in the past fifteen years, as well as the latest research progress, are presented as a brief review, to provide a reference for constructing novel HBV infection models in the future.

Objective To investigate the effect of a newly developed photosensitizer—chlorophyll derivative combined with irradiation of 650 nm laser for PC3, an androgen independent cell line in vitro. Methods PC3 was cultured and designed to 4 groups,including blank control,laser irradiation,medication of photosensitizer and medication of photosensitizer with laser irradiation (treated).The medicated concentration of chlorophyll was 0.1 g/L and irradation fluence of 650 nm semiconductor laser was 6 J/cm2.Intracellular distribution of photosensitizer and cellular morphological alterations were studied through light microscopy, electron microscopy and laser confocal microscopy. Results It showed the shrinkage, round-up and membrane integrity of treated PC3 under light microscopy.Sable deposits were observed in cytoplasm of cells in both photosensitizer and treated groups.Transmission electron microscopy showed the fragmentation of DNA and condensation of chromatin beneath the karyolemma in treated cells.In cytoplasm,the endoplasmic reticulum and mitochondria swell to form vesicles and vacuoles.It showed the strong red fluorescence in the cytoplasm of treat cells compared with the red fluorescence indifferent to the background through laser confocal microscopy. Conclusions Chlorophyll derivative based photodynamic therapy is able to induce apoptosis of PC3 in vitro.Mitochondria is presumed to be the primary target of photodynamic therapy and trigger the apoptotic pathway.

To investigate the relationship between glucocorticoid receptor (GRα, GRβ) expression and hormone sensitivity in kaposiform hemangioendothelioma (KHE) patients complicated by Kasabach-Merritt phenomenon (KMP).Methods: In this study, 25 cases of KHE with KMP (mean age 2.4±1.5 months), including 9 males and 16 females at Henan Provincial People′s Hospital between May 2013 and May 2016 were included. All patients underwent surgical resection after being treated with hormone for one week, and were divided into sensitive group (10 cases) and resistance group (15 cases) according to the efficacy evaluation criteria. Normal tissues collected from 15 patients received surgical excision of lipoma was performed as a control group.Immunohistrochemical SP method was adopted in detecting GRα and GRβ expression in all groups. The expression intensity and positive rate were analyzed. Statistical significance was determined using the Wilcoxon rank sum test for the group samples and the Kruskal-Wallis test for multiple samples. Values of P<0.05 were considered statistically significant. Results: ①There was no significant difference among the control group, the resistance group and the sensitive group in expression intensity of GRα (control group 4.20±1.01, resistance group 4.10±0.99, sensitive group 3.53±0.52, P=0.632). The number of GRα positive cells in the sensitive group(46.20±2.57)was higher than that in the resistance group (40.93±5.18, P=0.032). ②The expression intensity of GRβ in the resistance group(5.40±0.51)was significantly higher than that in the sensitive group(2.60±0.52)and the control group(2.87±0.64, P=0.000, 0.002); there was significant difference among the sensitive group(29.70±2.50), the control group(36.07±3.47)and the resistance group (47.27±5.59)in the number of GRβ positive cells (P=0.000). ③The ratio of GRα/Grβ expression intensity was significantly lower in the resistance group than in the sensitive group and the control group; The ratio of GRα/GRβ positive cells was gradually decreased in the sensitive group, control group and resistance group, and the difference was statistically significant (P=0.000). Conclusions In the tumor tissue of KHE children with KMP, the increase of GRβ expression negatively regulats GRα, leading to imbalance of the expression ratio of the two, which may be an important cause for GC resistance.

Objective : To analyze the epidemiological characteristics and pathogen spectrum of hand，foot mouth disease (HFMD) in Anhui province from 2015 to 2022，and to provide scientific evidence for prevention and control measures of HFMD． Methods : The surveillance data of hand，foot and mouth disease in Anhui province from 2015 to 2022 were analyzed by descriptive epidemiology. Real-time PCR was used to detect and classify HFMD samples. Results : A total of 650 590 HFMD cases were reported in Anhui province from 2015 to 2022，including 1 406 se- vere cases and 17 deaths．The annual reported incidence was 131. 45 /100 000．The epidemic features of“low incidence in odd years and high incidence in even years”were presented from 2015 to 2019．The incidence showed a continuous decline from 2020 to 2022．The monthly distribution showed the characteristics of bimodal epidemic，and the main peak was not obvious in 2020．Hefei，Fuyang，Bozhou，Chuzhou and Suzhou ranked the top five cities in terms of cumulative incidence．The age of onset was mainly distributed in children aged 5 years and below，accounting for 89. 26% of the total cases．The male to female ratio was 1. 48 ∶ 1．A total of 28 657 laboratory-confirmed cases had been reported from 2015 to 2022．EV71 cases accounted for 10. 57% ，Cox A16 cases accounted for 24. 90% ，and other enterovirus cases accounted for 64. 53%．The dominant pathogens showed dynamic changes in different years．Since 2018，the proportion of EV71 decreased significantly，and the proportion of other enteroviruses gradually increased to become the dominant pathogens．Among other enteroviruses，Cox A6 strain was dominant (80. 48% ) ． Conclusion This study suggests that the prevention and control of HFMD in Anhui province should be paid more attention from April to July and from October to December．The focus areas are the cities in northern Anhui and Hefei where the floating population is large．The focus of prevention and control is on children aged 5 years and below．Other enteroviruses have become the dominant pathogens of hand-foot-mouth disease in Anhui province，Cox A6 strain is dominant.

The aim of this study was to screen the active regions and transcription factor binding sites in the promoter of the CBD103 gene related to Arctic fox coat color, and to provide a basis for revealing the molecular genetic mechanism of CBD103 gene regulating the coat color formation. The 5'-flanking region fragment 2 123 bp of Arctic fox CBD103 gene was cloned, and 4 truncated promoter reporter vectors of different lengths were constructed. The promoter activity was detected by the dual-luciferase reporter assay system. Point mutations were performed on the 3 predicted specificity protein 1 (Sp1) transcription factor binding sites in the highest promoter active region, and 3 mutant vectors were constructed. The activity was then detected by the dual-luciferase reporter assay system. The results showed that the region 1 656 (-1 604/+51) had the highest activity in the 4 truncated promoters of different lengths, and the promoter activity of the three mutant vectors constructed in this region were significantly lower than that of the wild type (fragment 1 656). The region of -1 604 /+51 was the core promoter region of CBD103 gene in Arctic fox and -1 552/-1 564, -1 439/-1 454 and -329/-339 regions were positive regulatory regions. This study successfully obtained the core promoter region and positive regulation regions of the Arctic fox CBD103 gene, which laid a foundation for further study on the molecular genetic mechanism of this gene regulating Arctic fox coat color.
Animals ; Binding Sites ; Foxes ; Luciferases ; Promoter Regions, Genetic ; Sp1 Transcription Factor ; beta-Defensins