Your search keyword '"Yoo, Sarah"' showing total 2 results

1. Sex-Specific Associations of MDM2 and MDM4 Variants with Risk of Multiple Primary Melanomas and Melanoma Survival in Non-Hispanic Whites.

Author

Ward, Sarah V., Autuori, Isidora, Luo, Li, LaPilla, Emily, Yoo, Sarah, Sharma, Ajay, Busam, Klaus J., Olilla, David W., Dwyer, Terence, Anton-Culver, Hoda, Zanetti, Roberto, Sacchetto, Lidia, Cust, Anne E., Gallagher, Richard P., Kanetsky, Peter A., Rosso, Stefano, Begg, Colin B., Berwick, Marianne, Thomas, Nancy E., and Orlow, Irene

Subjects

PROTEINS, CONFIDENCE intervals, MELANOMA, HISPANIC Americans, LI-Fraumeni syndrome, GENETIC polymorphisms, QUANTITATIVE research, SEX distribution, GENE expression, ESTROGEN receptors, TUMOR suppressor genes, RESEARCH funding, PROGRESSION-free survival, WHITE people, ODDS ratio, LOGISTIC regression analysis, LONGITUDINAL method, PROPORTIONAL hazards models, DISEASE risk factors, EVALUATION

Abstract

Simple Summary: Melanoma is the most severe type of skin cancer, and the risk of developing melanoma and of dying of melanoma varies between women and men. This study investigated whether widely studied genetic single nucleotide polymorphisms (SNPs) in two oncogenes known to promote cell proliferation explain these sex differences by testing such variants in a large cohort of 3663 melanoma patients. Formal analyses demonstrated that females, but not males, who carried the variant MDM4-rs4245739*C were more likely to develop a new primary melanoma, and those with the variant MDM2-rs2279744*G were less likely to succumb to the disease. We also identified a number of additional variants, often co-inherited with the tested SNPs, which modify how these and other genes work locally in the skin, as well as in distal organs where melanoma tends to spread or invade during the progression of the disease. MDM2-SNP309 (rs2279744), a common genetic modifier of cancer incidence in Li-Fraumeni syndrome, modifies risk, age of onset, or prognosis in a variety of cancers. Melanoma incidence and outcomes vary by sex, and although SNP309 exerts an effect on the estrogen receptor, no consensus exists on its effect on melanoma. MDM2 and MDM4 restrain p53-mediated tumor suppression, independently or together. We investigated SNP309, an a priori MDM4-rs4245739, and two coinherited variants, in a population-based cohort of 3663 primary incident melanomas. Per-allele and per-haplotype (MDM2_SNP309-SNP285; MDM4_rs4245739-rs1563828) odds ratios (OR) for multiple-melanoma were estimated with logistic regression models. Hazard ratios (HR) for melanoma death were estimated with Cox proportional hazards models. In analyses adjusted for covariates, females carrying MDM4-rs4245739*C were more likely to develop multiple melanomas (ORper-allele = 1.25, 95% CI 1.03–1.51, and Ptrend = 0.03), while MDM2-rs2279744*G was inversely associated with melanoma-death (HRper-allele = 0.63, 95% CI 0.42–0.95, and Ptrend = 0.03). We identified 16 coinherited expression quantitative loci that control the expression of MDM2, MDM4, and other genes in the skin, brain, and lungs. Our results suggest that MDM4/MDM2 variants are associated with the development of subsequent primaries and with the death of melanoma in a sex-dependent manner. Further investigations of the complex MDM2/MDM4 motif, and its contribution to the tumor microenvironment and observed associations, are warranted. [ABSTRACT FROM AUTHOR]

Published

2023

2. Sun Exposure, Vitamin D Receptor Genetic Variants, and Risk of Breast Cancer in the Agricultural Health Study.

Author

Engel, Lawrence S., Satagopan, Jaya, Sima, Camelia S., Orlow, Irene, Mujumdar, Urvi, Coble, Joseph, Roy, Pampa, Yoo, Sarah, Sandler, Dale P., and Alavanja, Michael C.

Subjects

BREAST tumor risk factors, CELL receptors, CONFIDENCE intervals, EPIDEMIOLOGY, GENETICS, PESTICIDES, QUESTIONNAIRES, RESEARCH funding, SUNSHINE, VITAMIN D, LOGISTIC regression analysis, DATA analysis, ENVIRONMENTAL exposure, RELATIVE medical risk, PROPORTIONAL hazards models, CASE-control method, DATA analysis software, DESCRIPTIVE statistics

Abstract

Background: Epidemiologic evidence suggests a negative relation between sunlight exposure and breast cancer risk. The hypothesized mechanism is sunlight-induced cutaneous synthesis of vitamin D. Objectives: Our goal was to examine sun exposure and its interaction with vitamin D receptor (VDR) gene variants on breast cancer risk. Methods: We examined sun exposure and breast cancer incidence among 31,021 private pesticide applicators' wives, including 578 cases, enrolled in the prospective Agricultural Health Study cohort and followed 8.6 years on average. We estimated interactions between sun exposure, VDR variants, and breast cancer in a nested case.control study comprising 293 cases and 586 matched controls. Information on sun exposure was obtained by questionnaire at cohort enrollment. Relative risks were estimated using Cox proportional hazards regression for the cohort data and conditional logistic regression for the nested case.control data. Results: We observed a small decrease in breast cancer risk in association with usual sun exposure of ≥1 hr/day (versus < 1 hr/day) 10 years before the start of follow-up among all participants [hazard ratio (HR) = 0.8; 95% CI: 0.6, 1.0]. The association appeared to be slightly stronger in relation to estrogen receptor.positive tumors (HR = 0.7; 95% CI: 0.5, 0.9) than estrogen receptor.negative tumors (HR = 1.1; 95% CI: 0.6, 2.1). The HR for joint exposure ≥ 1 hr/day of sunlight and one VDR haplotype was less than expected given negative HRs for each individual exposure (interaction p-value = 0.07). Conclusion: Our results suggest that sun exposure may be associated with reduced risk of breast cancer, but we did not find clear evidence of modification by VDR variants. Larger studies are warranted, particularly among populations in whom low levels of usual sun exposure can be more precisely characterized. [ABSTRACT FROM AUTHOR]

Published

2014