Human papillomavirus type 16(HPV16) has been known to the major factor for the development of uterine cervical carcinomas. We have extended these studies to investigate the in vivo activities of HPV-16 E6/E7 when expressed in squamous epithelia of transgenic mice. Grossly, hK14HPV16E6/E7 transgenic mice had multiple phenotypes, including wrinkled skin that was apparent prior to the appearance of hair on neonates, thickened ears, and loss of hair in adults. In the transgenic mice, the wrinkled skin phenotype on the body and legs died at the age of 3-4 weeks. Histological analysis of demonstrated that E6/E7 causes epidermal hyperplasia in multiple transgenic lineages with high penetrance. This epithelial hyperplasia was characterized by an expansion of the proliferating compartment and an expansion of the keratinocyte and was associated with hyperkeratosis. These transgenic mice expressed E6/E7 transgene mainly in skin, heart, pancreas and kidney. Hyperplasia was found at the skin. The enzyme activities of GR, GPx and CuZnSOD were measured from the transgene cause keratinocyte at the skin. The specific enzyme activities were significantly higher in transgenic mice skin compared to the normal mice skin. Thus these transgenic mice may be useful for the develpment of antioxidant enzymes or other therapies for HPV-associated hyperkeratosis.
In previous reports, pVPSV.IGR2.1 transgenic mouse were described that brain tumor and lymphoma by reason of Vasopressin-SV40 T antigen. In this study, we produced pVPSV.IGR3.6 transgenic mouse that used pVPSV.IGR3.6 vector. Expression of transgene was vary different in transgenic mouse. We obtained 6 transgenic mouse line, moreover they had died at the age of 2-6 weeks without transmitting the transgene to their offspring, and had tumorigenesis on same location with pVPSV.IGR2.1 transgenic mouse. Only a founder mouse was investigated for expression of fusion gene. Here we extended this transgenic approach to the study of tumor progression. From the mouse, we confirmed brain tumor cell, after then cultured for investigate characterization. In this report, we demonstrate that reduction of survival rate in transgenic mouse fused vasopressin gene length, acquisition of brain tumor cell, composition with astrocyte cells and neuronal cells. Finally, cells had no change with increase of passage.
As an effort to direct differentiation of human embryonic stem (hES, MB03) cells to dopamine-producing neuronal cells, Nurr1 was transfected using conventional transfection protocol into MB03 and examined the expression of tyrosine hydroylase (TH) after differentiation induced by retinoic acid (RA) and ascorbic acid (AA). Experimentally, cells were transfected with linearized Nurr1 cDNA in pcDNA3.1 (+)-hygovernight followed by selection in medium containing hygromycin-B (150 /ml). Expression of Nurr1 mRNA was confirmed by RT-PCR and protein by immunocytochemistry in the drug resistant clones. In order to study the effect of Nurr1 protein on the differentiation pattern of ES cells, one of the positive clones (MBNr24) was allowed to form embryoid body (EB) for 2 days and were induced to differentiate for another 4 days using RA (1 ) and AA (50 mM) (2-/4+ protocol) followed by selection in N2 medium for 10 or 20 days. After 10 days in N2 medium, cells immunoreactive to anti-GFAP, anti-TH, or anti-NF200 antibodies were 38.8%, 11%, and 20.5%, respectively. After 20 days in N2 medium, cells expressing GFAP, TH, or NF200 were 28%, 15% and 44.8%, respectively but approximately 9% of MB03 expressed TH protein when the cells were induced to differentiate using a similar prorocol, These results suggest that ectopic expression of Nurr1 enhances generation of TH+ cells as well as neuronal cells when hES cells were differentiated by 2-/4+ protocol.