Expression in Chinese hamster transformant TK+-cells of the bacterial gene for beta-lactamase

Using monospecific immune antiserum the expression of beta-lactamase bacterial gene (from the plasmid pBR322) in transformed TK+ Chinese hamster cells was studied. It is shown that in some TK+-clones the beta-lactamase gene is expressed and this expression is stimulated by an inhibitor of DNA methylation-5-azacytidine. Two physically linked genes (the Herpes simplex thymidine kinase gene, and the beta-lactamase gene) introduced into the Chinese hamster cells on the same plasmid are found to be expressed independently.     

Gene expression profile of lymphatic endothelial cells

The lymphatic system was first described at around the same time as the blood circulation centuries ago, but the biological function elucidation of LECs (lymphatic endothelial cells) is far less than that of BVECs (blood vascular endothelial cells). Since the discovery of molecular markers for LECs and exploration of lymphatic role in tumour metastasis, more attention has been given to basic lymphatic research. Approx. 150 known genes were found to be expressed at the mRNA and protein levels by LECs. These molecules play an important role in lymphangiogenesis, signalling, tumour metastasis, immune function and fluid transport. This review provides a brief outline of gene expression profile of LECs and the molecular biological function, which will give the reader a better understanding about the mechanics of lymphatic function and some pathologies related to the lymphatic system such as lymphoedema, and facilitate advanced scientific research into lymphatic biology.     

Epigenetic impact of long-term shiftwork: pilot evidence from circadian genes and whole-genome methylation analysis

Epigenetic association studies have demonstrated differential promoter methylation in the core circadian genes in breast cancer cases relative to cancer-free controls. The current pilot study aims to investigate whether epigenetic changes affecting breast cancer risk could be caused by circadian disruption through exposure to light at night. Archived DNA samples extracted from whole blood of 117 female subjects from a prospective cohort conducted in Denmark were included in this study. A polymerase chain reaction (PCR)-based method was used for detection of gene-promoter methylation, whereas genome-wide methylation analysis was performed using the Illumina Infinium Methylation Chip. Long-term shiftwork resulted in the same promoter hypomethylation of CLOCK and hypermethylation of CRY2, as was previously observed in breast cancer case-control studies. Genome-wide methylation analysis further discovered widespread methylation alterations in shiftworkers, including changes in many methylation- and cancer-relevant genes. Pathway analysis of the genes with altered methylation patterns revealed several cancer-related pathways. One of the top three networks generated was designated as "DNA replication, recombination, and repair, gene expression, behavior" with ESR1 (estrogen receptor α) featured most prominently in the network, underscoring the potential breast cancer relevance of the genes differentially methylated in long-term shiftworkers. These results, although exploratory, demonstrate the first evidence of the cancer-relevant epigenetic effects of night shiftwork, which warrant further investigation. Considering there are millions of shiftworkers worldwide, understanding the effects of this exposure may lead to novel strategies for cancer prevention and new policies regulating shiftwork.