A case of stage Ⅲ pneumoconiosis with large shadow by burr-like changes misdiagnosed as lung cancer / 中华劳动卫生职业病杂志

Pneumoconiosis is characterized by chronic lung inflammation and fibrosis, and inflammation can promote pulmonary fibrosis, which in turn leads to pneumoconiosis. When a large shadow with a long diameter of not less than 2 cm and a short diameter of not less than 1 cm appears in the lung, it can be classified as stage Ⅲ pneumoconiosis. This paper reports a case of stage Ⅲ pneumoconiosis with a large shadow in the upper right lung accompanied by burr-like changes misdiagnosed as lung cancer by CT examination.When the large shadow lesions in patients with pneumoconiosis and lung cancer are difficult to distinguish on CT, an additional MRI examination, particularly T(2)W imaging sequence is useful sequence for identifying the two.

Research Progress of FAM60A in the Regulation of Cellular Function / 中国医学科学院学报

FAM60A,a cell cycle protein,is a subunit of the SIN3 transcription regulator family member A/histone deacetylase(SIN3-HDAC)complex and plays an important role in cell cycle regulation,cell morphology change,cell proliferation,differentiation and migration,early embryogenesis and so on.Studies in recent years have shown that FAM60A plays a role in the occurrence and development of tumors including human osteosarcoma,esophageal cancer,gastric cancer,lung cancer and liver cancer,providing a new research direction for tumor diagnosis and treatment.Based on the research results in recent years at home and abroad,this paper discussed the effects of FAM60A on cellular functions.

Toxicology and bioactivities of CO-releasing molecules based on cobalt complexes / 药学学报

Complexes containing cobalt and carbon monoxide ligands, CO releasing molecules (CORMs), have the potential of anti-tumor and anti-inflammatory. In this paper, three hybrid CORMs 1-3 were synthesized and tested for their toxicology in vivo and bioactivities. The results suggest that the complexes have a long half-life in the range of 43-53 min; their oral LD50 to mouse are between 1 500 mg·kg-1 and 5 000 mg·kg-1. After the successive administration, complex 1 exhibited a toxic activity in rats' liver, and induced an injury to liver cells. Complex 1 had a strong growth inhibition activity (IC50 36.20 μmol·L-1 and 39.25 μmol·L-1) in both HeLa cells and HepG2 cells, complex 2 displayed a lower activity in the inhibition of HeLa cells proliferation than the control 5-FU (IC50 114.19 μmol·L-1), but had a higher activity in the inhibition of HepG2 cells than the control 5-FU (IC50 171.34 μmol·L-1). The anti-inflammatory study suggests that all of them reduce intracellular nitrite level, complexes 1 and 2 have a stronger activity than complex 3. Their anti-inflammatory activity attributes to the CO molecules of the CORMs, which was confirmed by comparison with the corresponding ligand.

Toxicology and tissue distribution of Ruthenium (II) CO-releasing molecules and its interaction with endogenous substances / 药学学报

Carbon monoxide has been proved to be an important signal molecule in body. Transition metal carbonyl compounds are solidified form of carbon monoxide. Numerous studies have shown that Ruthenium carbonyl carbon monoxide releasing molecules have a strong pharmacological activity. In this paper, five Ruthenium (II) carbonyl CORMs 1-5 were synthesized and their toxicology, tissue distribution and interaction with blood endogenous substances were investigated. The results showed CORMs' IC50 to fibroblasts are ranged from 212.9 to 2089.2 micromol x L(-1). Their oral LD50 to mouse is between 800 to 1600 mg x kg(-1). After repeated administration, CORMs 1 and CORMs 5 haven't shown an obvious influence to rats' liver and kidney function, but caused the injury to liver and kidney cells. The in vivo distribution result revealed the majority of CORMs were distributed in blood, liver and kidney, only a small part of CORMs distributed in lung, heart and spleen. They could scarcely cross the blood-brain barrier and distribute to brain. The non-CO ligands in structure have an obvious relevance to their in vivo absorption and distribution. Interestingly, CORMs could enhance the fluorescence of bovine serum albumin, and this enhancement was in direct proportion with the concentration of CORMs. Under different conditions, interaction of CORMs with glutathione got different type of products, one is Ruthenium (II) tricarbonyl complexes, and Ruthenium (II) dicarbonyl complexes.