Sherry A. Salzman scite author profile

Sherry A. Salzman

5Publications

75Citation Statements Received

62Citation Statements Given

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163

Affiliations

Center for Human Genetics, Marshfield Clinic, Cancer Genetics (United States)

Publications

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Analysis of Candidate Genes for Prostate Cancer

et al. 2004

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Considerable evidence demonstrates that genetic factors are important in the development and aggressiveness of prostate cancer. To identify genetic variants that predispose to prostate cancer we tested candidate SNPs from genomic regions that show linkage to prostate cancer susceptibility and/or aggressiveness, as well as genes that show a significant difference in mRNA expression level between tumor and normal tissue. Cases had histologically verified prostate cancer. Controls were at least 65 years old, never registered a PSA above 2.5 ng/ml, always had digital rectal examinations that were not suspicious for cancer, and have no known family history of prostate cancer. Thirty-nine coding SNPs and nine non-coding SNPs were tested in up to 590 cases and 556 controls resulting in over 40,000 SNP genotypes. Significant differences in allele frequencies between cases and controls were observed for ID3 (inhibitor of DNA binding), p = 0.05, HPN (hepsin), p = 0.009, BCAS1 (breast carcinoma amplified sequence 1), p = 0.007, CAV2 (caveolin 2), p = 0.007, EMP3 (epithelial membrane protein 3), p < 0.0001, and MLH1 (mutL homolog 1), p < 0.0001. SNPs in three of these genes (BCAS1, EMP3 and MLH1) remained significant in an age-matched subsample.

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PCR Analysis of Nasal Polyps, Chronic Sinusitis, and Hypertrophied Turbinates for DNA Encoding Bacterial 16S rRNA

Bucholtz

Salzman

Bersalona

et al. 2002

American Journal of Rhinology

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Expression and Initial Promoter Characterization of PCAN1 in Retinal Tissue and Prostate Cell Lines

Cross

Reding

Salzman

et al. 2004

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Prostate cancer is the most frequently diagnosed neoplasia in men and one of the leading causes of cancer-related deaths in men over 60. In an effort to understand the molecular events leading to prostate cancer, we have identified PCAN1 (prostate cancer gene 1) (also known as GDEP), a gene that is highly expressed in prostate epithelial tissue and frequently mutated in prostate tumors. Here we demonstrate its expression in neural retina, and retinoblastoma cell culture but not retinal pigment epithelial cell culture. We further characterize PCAN1 expression in the prostate cell lines RWPE1, RWPE2, and LnCAP FGC. We demonstrate an increase in expression when the cells are grown in the presence of Matrigel, an artificial extracellular basement membrane. Expression was time dependent, with expression observed on d 6 and little or no expression on d 12. Testosterone was not found to increase PCAN1 expression in this culture system. In addition, normal prostate epithelial cells co-cultured with normal prostate stromal cells did not exhibit PCAN1 expression at any time. To definitively locate the transcription initiation sites, we performed restriction-ligase-mediated 5' RACE, to selectively amplify only mRNA with a 5' cap. An initial characterization of the sequence upstream of the initiation sites determined six possible binding sites for the prostate specific regulatory protein NKX3.1 and four potential binding sites for the PPAR/RXR heterodimer that is involved in the control of cell differentiation and apoptosis.

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Transforming growth factor-β and multidrug resistance in chronic lymphocytic leukemia

et al. 1999

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Patients with chronic lymphocytic leukemia (CLL) frequently respond to initial treatment, but then become resistant to chemotherapy. Studies have shown one important cause of chemotherapeutic resistance to be multidrug resistance (MDR). To investigate the potential role of MDR and transforming growth factor-beta (TFG-beta), a potent growth inhibitor of B lymphocytes, in the development of chemotherapeutic resistance in CLL, we evaluated 22 CLL patients for loss or mutation of TGF-beta receptors (TbetaR), plasma TGF-beta1 levels, and expression of MDR1 mRNA. Receptor crosslinking and immunoprecipitation experiments did not demonstrate loss of TbetaRs in any patients studied. No relationship between plasma TGF-beta1 levels and expression of MDR1 mRNA was seen. Correlation of plasma TGF-beta1 levels to disease stage revealed a consistent decline in plasma TGF-beta1 levels with advancing disease stage (P = 0.031).

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Genetics of Prostate Cancer

Zhang

Salzman²,

Reding³

et al. 2003

Clinical Medicine & Research

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Prostate cancer is the most frequently diagnosed visceral cancer of men, responsible for approximately 40,000 deaths in adult males per year. To identify the genetic causes of prostate cancer, we performed a whole genome scan of affected sib pairs, using DNA markers spaced evenly across the human genome. We demonstrated that regions on chromosomes 1,4,5,7,8,11,16 and 19 might harbor genes that predispose individuals to prostate cancer and may affect tumor growth rate and tumor aggressiveness. Here we present DNA sequence analysis of KIAA 0872 and 17-β hydroxysteroid dehydrogenase that are located on chromosome 16 within the mapped region, and we demonstrate that neither of these genes carries mutations in the protein coding region or their splice junction sites. These results suggest that these genes are less likely to be associated with the cause of familial prostate cancer. INTRODUCTIONProstate cancer is the second leading cause of cancer mortality for men in the U.S. with a rate of 26 deaths per 100,000. 1 Although prostate cancer is potentially curable in its early stages, treatment of advanced hormone-refractory prostate cancer is ineffective, making early detection and treatment of disease a necessity. 2 Unfortunately, approximately 30% of men with prostate cancer have tumor that has spread beyond the prostate gland at the time of diagnosis. Despite the impressive response of metastases to androgen hormone deprivation, the survival rate is dismal, with greater than 90% of these patients dying from their cancer. 3 Screening tests for prostate cancer include digital rectal examination, transrectal ultrasonography, and measurement of prostate-specific antigen. However, these tests often do not detect the tumors before they have spread. The development of additional tests for earlier identification of prostate tumors will be extremely important. 4,5

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Sherry A. Salzman

Analysis of Candidate Genes for Prostate Cancer

PCR Analysis of Nasal Polyps, Chronic Sinusitis, and Hypertrophied Turbinates for DNA Encoding Bacterial 16S rRNA

Expression and Initial Promoter Characterization of PCAN1 in Retinal Tissue and Prostate Cell Lines

Transforming growth factor-β and multidrug resistance in chronic lymphocytic leukemia

Genetics of Prostate Cancer

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