Angie Lau

DECREASED TRABECULAR SMOOTH MUSCLE AND CAVEOLIN-1 EXPRESSION IN THE PENILE TISSUE OF AGED RATS

PURPOSE Because decreased trabecular smooth muscle content is reportedly associated with vasculogenic impotence in men, we performed a rodent study to investigate the effect of aging on trabecular smooth muscle content and caveolin-1 protein expression in penile smooth muscle cells. MATERIALS AND METHODS In 6 young (age 3 months) and 6 old (age 24 months) rats erectile function was evaluated by cavernous nerve stimulation. At sacrifice penile tissue samples were collected for Western blot analysis, Massons trichrome staining, caveolin-1 immunostaining and electron microscopy. The percent of smooth muscle in the trabecular tissue was assessed by computer assisted image analysis. RESULTS In the aged rats mean intracavernous pressure plus or minus standard deviation was decreased (70 +/- 8.8 versus 107 +/- 12.3 cm. water) and the latency period was increased (7.8 +/- 1.2 versus 4.5 +/- 0.5 seconds) significantly compared to values in the young rats (p <0.001). The mean ratio of trabecular smooth muscle-to-connective tissue was also significantly altered in old versus young rats (27% +/- 2.9% versus 42.1% +/- 5.1%, p <0.001). Immunostaining for caveolin-1 was noted in each group in the sarcolemma of smooth muscle cells and endothelium of trabecular sinusoids but the staining pattern was less intense and the percent of smooth muscle positive for caveolin-1 was decreased in aged versus young rats (17.9% +/- 2.5% versus 27.5% +/- 3.6%, p <0.001). Moreover, young trabecular smooth muscle cells had more caveolae in the sarcolemma on electron microscopy and a higher expression of caveolin-1 protein on Western blot analysis. In contrast, higher endothelial nitric oxide synthase protein expression was noted in the penile tissue of old rats. CONCLUSIONS In these aged rats the decreased ratio of trabecular smooth muscle-to-collagen and the reduced expression of caveolin-1 may contribute to erectile dysfunction.

The effect of pregnancy and delivery on the function and ultrastructure of the rat bladder and urethra

Objective To examine the effect of pregnancy and delivery on the function and ultrastructure of the bladder and urethra in rats.

Upregulation of L-Plastin Gene by Testosterone in Breast and Prostate Cancer Cells: Identification of Three Cooperative Androgen Receptor-Binding Sequences

L-Plastin is normally a leukocyte-specific actin-binding protein; it is also expressed in the majority of human cancer cell lines that are derived from many types of solid tumors. We have previously reported the isolation of the L-plastin gene promoter, in which we identified several potential steroid receptor-binding sequences. We now obtained evidence that L-plastin gene expression was positively regulated by testosterone in androgen receptor (AR)-positive prostate and breast cancer cells. DNase I footprint analysis identified three AR-binding elements (ARE) located in a 545-bp region approximately 1.1 kb upstream from the transcription initiation site. However, each of these three AREs exhibited very little testosterone/AR-responsive enhancer activities toward a test promoter (of the thymidine kinase gene) when tested in MCF-7 breast cancer cells. Their testosterone/AR responsiveness became evident only when two or three of them were combined. In PC-3 prostate cancer cells, cooperation among L-plastin AREs was still evident although individually they had moderate levels of testosterone/AR responsiveness. Thus, the three L-plastin AREs, despite their imperfect sequences compared with the consensus ARE, could cooperate with each other to become a potent testosterone/AR-responsive unit, which was likely responsible for the inducibility of the L-plastin gene by testosterone.

Differential regulation of human T-plastin gene in leukocytes and non-leukocytes: identification of the promoter, enhancer, and CpG island.

Plastins (fimbrins) are a family of actin-bundling proteins conserved from yeast to humans. In humans, three tissue-specific plastin isoforms have been identified. The T isoform (T-plastin) is unique in that it is expressed in all tissues except leukocytes. To investigate how the T-plastin gene is differentially regulated in leukocytes and non-leukocytes, we isolated a genomic clone that included 9 kb of the upstream flanking region, 0.1 kb of the first exon, and 5.9 kb of the first intron. From this clone, we obtained a continuous sequence of 5535 bp, including 3138 bp of the upstream flanking region, the first exon, and 2286 bp of the first intron. A cluster of four transcription initiation sites was located by S1 mapping. A region spanning these sites and extending 1.4 kb into the first intron had the characteristics of a CpG island. Three CG-containing restriction sites within this island were analyzed and found all or variably methylated in four T-plastin-negative leukemia cell lines. In contrast, the same sites were not methylated in three T-plastin-expressing cell lines or in a sample of normal blood lymphocytes. A basal promoter was located 250 bp upstream from the transciption initiation sites. It comprised a CCAAT box, an Sp1 motif, and four AP2 motifs. No TATA or Inr sequence was found. The basal promoter exhibited weak activity when assayed in fibrosarcoma cells. Stronger promoter activities were found in the presence of the SV40 enhancer or a T-plastin enhancer located some 500 bp from the basal promoter. In T-plastin-negative leukemia cells, the T-plastin basal promoter could be activated by the SV40 enhancer but not by the T-plastin enhancer. DNA footprinting identified the T-plastin enhancer as two inverted symmetric octamers (AGATAACCTC and GAGGTCAGCT) separated by 17 nucleotides.