Application of gene expression profile in tumor radiotherapy / 国际肿瘤学杂志

Gene expression profile technology is characterized by high automation, high accuracy and large information volume, which provides a new way for the development of individualized therapies and novel therapeutic targets. Some researches have identified sets of discriminating genes by using gene expression profile technology that can be used for the predietion of response to radiotherapy in human cancers. Some studies also have confirmed the therapeutic tagerts of radiation sensitizer.

A study of inductive factors of embryonic stem cells differentiating into cardiac myocytes in vitro / 中国病理生理杂志

AIM: To study cellular and molecular mechanisms of cardiac development associated genes ex- pression and its function during early stage cardiomyogenesis. METHODS: (1 ) Mouse embryonic stem cells (ESC) line D3 culture. (2) Inductive culals of ESC differentiated into cardiac myocytes in vitro.(3) Identification of ESC -derived cardiac myocytes: RNA isolation; synthesis of specific primer and RT - PCR; Label of RT - PCR products with [? - 32P] dATP as probes, purifyed by sephadex G - 50 columns, determined the yield of DNA. RNA dot hy- bridization. RESULTS: 80% of ESC differentiated into cardiomyocytes by improved conditional medium. Cardiomy- ocytes contraCted in a synchronous manner. The results of RT - PCR and RNA blot showed that cardiac genes were expressed abundantly and specifically during the early cardiomyogenesis. CONCLUSIONS: ESC were able to be dif- ferentiate into cardiomyocytes. Different concentrations and components of RA, DMSO and FCS affected ESC car- diomyogenesis in de. The optimal result obtained was from the conditional medium, a mixturce of 2 nmol/L retinoic acid (RA), 0.6% dimethyl sulfoxide (DMSO) and 20% fend calf serum (FCS).

Inhibitory effect of pioglitazone on TGF-?1 gene expression in renal cortex of diabetic rats / 中华内分泌代谢杂志

Diabetic model of SD rats was induced by streptozotocin injected intraperitoneally. Transforming growth factor (TCF)-?1 mRNA level was significantly decreased in renal cortex of diabetic rats by treatment of Pioglitazone. The result suggests that the protection of Pioglitazone against diabetic nephropathy seems to be related to the decrease of TGF-?1 gene expression in renal cortex.