Although it is known that, in the uterus, estrogen receptor alpha (ERalpha) is involved in proliferation and progesterone receptor in differentiation, the role of the two other gonadal-hormone receptors expressed in the uterus, androgen receptor (AR) and estrogen receptor beta (ERbeta), remains undefined. In this study, the involvement of AR in 17beta-estradiol (E(2))-induced cellular proliferation in the immature rat uterus was investigated. AR levels were low in the untreated immature uterus, but 24 h after treatment of rats with E(2), there was an increase in the levels of AR and of two androgen-regulated genes, IGF-I and Crisp (cysteine-rich secretory protein). As expected, E(2) induced proliferation of luminal epithelial cells. These actions of E(2) were all blocked by both the antiestrogen tamoxifen and the antiandrogen flutamide. The E(2)-induced AR was found by immunohistochemistry to be localized exclusively in the stroma, mainly in the myometrium, where it colocalized with ERalpha but not with ERbeta. ERbeta, detected with two different ERbeta-specific antibodies, was expressed in both stromal and epithelial cells either alone or together with ERalpha. Treatment with E(2) caused down-regulation of ERalpha and ERbeta in the epithelium. The data suggest that, in E(2)-induced epithelial cell proliferation, ERalpha induces stromal AR and AR amplifies the ERalpha signal by induction of IGF-I. Because AR is never expressed in cells with ERbeta, it is unlikely that ERbeta signaling is involved in this pathway. These results indicate an important role for AR in proliferation of the uterus, where estrogen and androgen do not represent separate pathways but are sequential steps in one pathway.
Frontotemporal dementia and Parkinsonism linked to chromosome 17 (FTDP-17) is an autosomal dominant condition clinically characterized by behavioral, cognitive and motor disturbances. It was recently discovered that the majority of the FTDP-17 families carry missense or 5' splice mutations in the exons coding for the microtubule-binding domains of the tau protein. However, in at least five FTDP-17 families, no such mutations could be identified. In the present study, we aimed at further investigate abnormalities in the tau gene in a Swedish FTDP-17 family, where no mutations in the tau gene previously have been identified. Initially, we searched for larger deletions by Southern blot hybridization. Furthermore, possible abnormal splicing events was investigated by RT-PCR from brain tissue of affected individuals. In addition, we investigated the presence of mutations in other genes in the FTDP-17 candidate region on chromosome 17q21; Gamma-tubulin, Glial Fibrillary Acid Protein (GFAP), Human dual specificity phosphatase tyrosine/serine (VHR), Rap-interacting protein 8 (RPIP8), P35, and the recently identified FTDCG1. In conclusion, no pathological changes in the tau gene were observed, neither was any mutations segregating with the disease detected in the investigated candidate genes. Further investigation of extended intron sequences or promoter regions of the tau gene and additional candidate genes on chromosome 17q21, therefore seems to be necessary in order to identify the additional causes of FTDP-17.
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