Avian infectious bronchitis(IB),a rapidly spreading and acute disease in chickens,is caused by the infectious bronchitis virus(IBV).IB is characterized by its remarkable genetic varia-bility.IBV has a high degree of mutation,and the existing means of immunization often fail to a-chieve good results,seriously affecting the development of the domestic poultry industry.This ar-ticle offers a comprehensive review of the current understanding of the immune response to IBV,focusing on three key areas:non-specific immunity,mucosal immunity,and specific immunity.By dissecting these aspects,the aim is to provide a theoretical reference for the study of the immune mechanism of IBV.

Avian infectious bronchitis(IB),a rapidly spreading and acute disease in chickens,is caused by the infectious bronchitis virus(IBV).IB is characterized by its remarkable genetic varia-bility.IBV has a high degree of mutation,and the existing means of immunization often fail to a-chieve good results,seriously affecting the development of the domestic poultry industry.This ar-ticle offers a comprehensive review of the current understanding of the immune response to IBV,focusing on three key areas:non-specific immunity,mucosal immunity,and specific immunity.By dissecting these aspects,the aim is to provide a theoretical reference for the study of the immune mechanism of IBV.

OBJECTIVETo study synthesis of baicalin-copper and baicalin-aluminium complex and its antimicrobial, anti-tumor activity and anti-tumor effect against macrophages.

METHODBaicalin was reacted with metallic salt under a weak base condition to produce baicalin-copper and baicalin-aluminium complex. Baicalin and its synthesized complex were detected for antimicrobial activity against Staphylococcus aureus, Hay bacillus, Escherichia coli, Salmonella and Candida albicans by twofold broth dilution technique. Their anti-tumor activity against A549 and IC50 of HepG2 cells and anti-tumor effect against macrophages were detected by the MTT. And their phagocytic effect on macrophages was determined by the neutral red assay.

RESULTThe yields of baicalin-copper and baicalin-aluminium complex were 73.93% and 91.08%, respectively. The minimum inhibitory concentration (MIC) value against Staphylococcus aureus, Hay bacillus, Escherichia coli, Salmonella and Candida albicans was 0.0004, 0.0009, 0.0004, 0.0009, 0.000 4 mol x L(-1) for baicalin-copper complex and 0.0011, 0.0011, 0.0011, 0.0011, 0.0005 mol x L(-1) for baicalin-aluminium complex. The IC50 values against A549 and HepG2 cells were 89.6, 22.6 micromol x L(-1) for baicalin-copper complex, and 138.8, 97.2 micromol x L(-1) for baicalin-aluminium complex. The inhibitory ratio of macrophage on A549 cell was 43.52%, 80.89%, 52.66%, respectively, after the macrophages were stimulated by baicalin, baicalin-copper and baicalin-aluminium complex at a concentration of 160 micromol x L(-1).

CONCLUSIONThe acute toxicity test in mice showed that the complex was nontoxic to mice. Baicalin-copper complex showed the highest antimicrobial, anti-tumor activity, and the strongest effect on the anti-tumor activity of macrophage, while baicalin showed the lowest activities compared with baicalin-copper and baicalin-aluminium complex.

Aluminum ; Animals ; Anti-Bacterial Agents ; chemical synthesis ; chemistry ; pharmacology ; Antineoplastic Agents ; chemical synthesis ; chemistry ; pharmacology ; Cell Line, Tumor ; Cell Proliferation ; drug effects ; Copper ; Drugs, Chinese Herbal ; chemical synthesis ; chemistry ; pharmacology ; Flavonoids ; Humans ; Mice ; Microbial Sensitivity Tests