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402. Targeting slow-proliferating ovarian cancer cells

Author

Kondoh, Eiji, primary, Mori, Seiichi, additional, Yamaguchi, Ken, additional, Baba, Tsukasa, additional, Matsumura, Noriomi, additional, Cory Barnett, J., additional, Whitaker, Regina S., additional, Konishi, Ikuo, additional, Fujii, Shingo, additional, Berchuck, Andrew, additional, and Murphy, Susan K., additional

Published
2009
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406. Global Expression Analysis of Cancer/Testis Genes in Uterine Cancers Reveals a High Incidence of BORIS Expression

Author

Risinger, John Ian, primary, Chandramouli, Gadisetti V.R., additional, Maxwell, G. Larry, additional, Custer, Mary, additional, Pack, Svetlana, additional, Loukinov, Dmitri, additional, Aprelikova, Olga, additional, Litzi, Tracy, additional, Schrump, David S., additional, Murphy, Susan K., additional, Berchuck, Andrew, additional, Lobanenkov, Victor, additional, and Barrett, J. Carl, additional

Published
2007
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409. Genotype-Epigenotype Interaction at the IGF2 DMR.

Author

Murphy, Susan K., Erginer, Erin, Zhiqing Huang, Visco, Zachary, and Cathrine Hoyo

Subjects
*SOMATOMEDIN A, *INSULIN-like growth factor receptors, *MITOGEN-activated protein kinases, *METHYLATION kinetics, *GENOTYPE-environment interaction
Abstract

Paternally expressed Insulin-like Growth Factor II (IGF2) encodes a gene whose protein product functions as a potent growth mitogen. Overexpression of IGF2 has been implicated in a wide number of disorders and diseases. IGF2 is regulated in part by differential methylation of the two parentally derived alleles. The differentially methylated region (DMR) located upstream of the imprinted promoters of IGF2 exhibits plasticity under environmental stress and is hypomethylated in several types of cancer. Through bisulfite pyrosequencing and confirmation by nucleotide sequencing, we discovered a CpG to CpC transversion that results in hypomethylation of one of the three CpGs comprising this DMR. The presence of the polymorphism introduces a genetic rather than an environmentally-driven epigenetic source of hypomethylation that is additive to non-genetic sources. [ABSTRACT FROM AUTHOR]

Published
2015
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416. Imprinted Genes and the Environment: Links to the Toxic Metals Arsenic, Cadmium and Lead.

Author

Smeester, Lisa, Yosim, Andrew E., Nye, Monica D., Hoyo, Cathrine, Murphy, Susan K., and Fry, Rebecca C.

Subjects
GENOMIC imprinting, PHYSIOLOGICAL effects of heavy metals, ARSENIC, MENDEL'S law, FETAL growth disorders, ZINC-finger proteins
Abstract

Imprinted genes defy rules of Mendelian genetics with their expression tied to the parent from whom each allele was inherited. They are known to play a role in various diseases/disorders including fetal growth disruption, lower birth weight, obesity, and cancer. There is increasing interest in understanding their influence on environmentally-induced disease. The environment can be thought of broadly as including chemicals present in air, water and soil, as well as food. According to the Agency for Toxic Substances and Disease Registry (ATSDR), some of the highest ranking environmental chemicals of concern include metals/metalloids such as arsenic, cadmium, and lead. The complex relationships between toxic metal exposure, imprinted gene regulation/expression and health outcomes are understudied. Herein we examine trends in imprinted gene biology, including an assessment of the imprinted genes and their known functional roles in the cell, particularly as they relate to toxic metals exposure and disease. The data highlight that many of the imprinted genes have known associations to developmental diseases and are enriched for their role in the TP53 and AhR pathways. Assessment of the promoter regions of the imprinted genes resulted in the identification of an enrichment of binding sites for two transcription factor families, namely the zinc finger family II and PLAG transcription factors. Taken together these data contribute insight into the complex relationships between toxic metals in the environment and imprinted gene biology. [ABSTRACT FROM AUTHOR]

Published
2014
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419. Association of maternal prenatal copper concentration with gestational duration and preterm birth: a multicountry meta-analysis

Author

Monangi, Nagendra K., Xu, Huan, Fan, Yue-Mei, Khanam, Rasheeda, Khan, Waqasuddin, Deb, Saikat, Pervin, Jesmin, Price, Joan T., Kaur, Lovejeet, Villar, Jose, McGready, Rose, Barros, Fernando C., Victora, Cesar G., Munim, Shama, Papageorgh, Aris T., Ochieng, Roseline, Craik, Rachel, Barososio, Hellen C., Berkley, James A., Carvalho, Maria, Ismail, Leila Cheikh, Lambert, Ann, Norris, Shane A., Tshivuila-Matela, Chrystelle OO., Nosten, Francois, Uauy, Ricardo, Bhutta, Zulfiqar A., Kennedy, Stephen, Al Mahmud, Abdullah, Thanh, Le Quang, Care, Angharad, Landero, Julio A., Combs, Gerald F., Belling, Elizabeth, Chappell, Joanne, Chen, Jing, Kong, Fansheng, Lacher, Craig, Ahmed, Salahuddin, Chowdhury, Nabidul Haque, Rahman, Sayedur, Kabir, Furqan, Nisar, Imran, Hotwani, Aneeta, Mehmood, Usma, Nizar, Ambreen, Khalid, Javairia, Dhingra, Usha, Dutta, Arup, Ali, Said Mohamed, Aftab, Fahad, Juma, Mohammed Hamad, Rahman, Monjur, Ahmed, Tahmeed, Islam, M Munirul, Vwalika, Bellington, Musonda, Patrick, Ashorn, Ulla, Maleta, Kenneth, Hallman, Mikko, Goodfellow, Laura, Gupta, Juhi K., Alfirevic, Ana, Murphy, Susan K., Rand, Larry, Ryckman, Kelli K., Murray, Jeffrey C., Bahl, Rajiv, Litch, James A., Baruch-Gravett, Courtney, Sopory, Shailaja, Chandra Mouli Natchu, Uma, Kumar, Pavitra V., Kumari, Neha, Thiruvengadam, Ramachandran, Singh, Atul Kumar, Kumar, Pankaj, Alfirevic, Zarko, Baqui, Abdullah H., Bhatnagar, Shinjini, Hirst, Jane E., Hoyo, Cathrine, Jehan, Fyezah, Jelliffe-Pawlowski, Laura, Rahman, Anisur, Roth, Daniel E., Sazawal, Sunil, Stringer, Jeffrey S.A., Ashorn, Per, Zhang, Ge, and Muglia, Louis J.

Abstract

Copper (Cu), an essential trace mineral regulating multiple actions of inflammation and oxidative stress, has been implicated in risk for preterm birth (PTB).

Published
2023
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421. Maternal BMI at the start of pregnancy and offspring epigenome-wide DNA methylation: findings from the pregnancy and childhood epigenetics (PACE) consortium

Author

Sharp, Gemma C., Salas, Lucas A., Monnereau, Claire, Allard, Catherine, Yousefi, Paul, Everson, Todd M., Bohlin, Jon, Xu, Zongli, Huang, Rae-Chi, Reese, Sarah E., Xu, Cheng-Jian, Baïz, Nour, Hoyo, Cathrine, Agha, Golareh, Roy, Ritu, Holloway, John W., Ghantous, Akram, Merid, Simon K., Bakulski, Kelly M., Küpers, Leanne K., Zhang, Hongmei, Richmond, Rebecca C., Page, Christian M., Duijts, Liesbeth, Lie, Rolv T., Melton, Phillip E., Vonk, Judith M., Nohr, Ellen A., Williams-DeVane, ClarLynda, Huen, Karen, Rifas-Shiman, Sheryl L., Ruiz-Arenas, Carlos, Gonseth, Semira, Rezwan, Faisal I., Herceg, Zdenko, Ekström, Sandra, Croen, Lisa, Falahi, Fahimeh, Perron, Patrice, Karagas, Margaret R., Quraishi, Bilal M., Suderman, Matthew, Magnus, Maria C., Jaddoe, Vincent W.V., Taylor, Jack A., Anderson, Denise, Zhao, Shanshan, Smit, Henriette A., Josey, Michele J., Bradman, Asa, Baccarelli, Andrea A., Bustamante, Mariona, Håberg, Siri E., Pershagen, Göran, Hertz-Picciotto, Irva, Newschaffer, Craig, Corpeleijn, Eva, Bouchard, Luigi, Lawlor, Debbie A., Maguire, Rachel L., Barcellos, Lisa F., Smith, George Davey, Eskenazi, Brenda, Karmaus, Wilfried, Marsit, Carmen J., Hivert, Marie-France, Snieder, Harold, Fallin, M. Daniele, Melén, Erik, Munthe-Kaas, Monica C., Arshad, Hasan, Wiemels, Joseph L., Annesi-Maesano, Isabella, Vrijheid, Martine, Oken, Emily, Holland, Nina, Murphy, Susan K., Sørensen, Thorkild I.A., Koppelman, Gerard H., Newnham, John P., Wilcox, Allen J., Nystad, Wenche, London, Stephanie J., Felix, Janine F., and Relton, Caroline L.

Abstract

Pre-pregnancy maternal obesity is associated with adverse offspring outcomes at birth and later in life. Individual studies have shown that epigenetic modifications such as DNA methylation could contribute. Within the Pregnancy and Childhood Epigenetics (PACE) Consortium, we meta-analysed the association between pre-pregnancy maternal BMI and methylation at over 450,000 sites in newborn blood DNA, across 19 cohorts (9,340 mother-newborn pairs). We attempted to infer causality by comparing the effects of maternal versus paternal BMI and incorporating genetic variation. In four additional cohorts (1,817 mother-child pairs), we meta-analysed the association between maternal BMI at the start of pregnancy and blood methylation in adolescents. In newborns, maternal BMI was associated with small (<0.2% per BMI unit (1 kg/m2), P < 1.06 × 10−7) methylation variation at 9,044 sites throughout the genome. Adjustment for estimated cell proportions greatly attenuated the number of significant CpGs to 104, including 86 sites common to the unadjusted model. At 72/86 sites, the direction of the association was the same in newborns and adolescents, suggesting persistence of signals. However, we found evidence for a6causal intrauterine effect of maternal BMI on newborn methylation at just 8/86 sites. In conclusion, this well-powered analysis identified robust associations between maternal adiposity and variations in newborn blood DNA methylation, but these small effects may be better explained by genetic or lifestyle factors than a causal intrauterine mechanism. This highlights the need for large-scale collaborative approaches and the application of causal inference techniques in epigenetic epidemiology.

Published
2017
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422. Cohort Profile: Pregnancy And Childhood Epigenetics (PACE) Consortium

Author

Felix, Janine F, Joubert, Bonnie R, Baccarelli, Andrea A, Sharp, Gemma C, Almqvist, Catarina, Annesi-Maesano, Isabella, Arshad, Hasan, Baïz, Nour, Bakermans-Kranenburg, Marian J, Bakulski, Kelly M, Binder, Elisabeth B, Bouchard, Luigi, Breton, Carrie V, Brunekreef, Bert, Brunst, Kelly J, Burchard, Esteban G, Bustamante, Mariona, Chatzi, Leda, Cheng Munthe-Kaas, Monica, Corpeleijn, Eva, Czamara, Darina, Dabelea, Dana, Davey Smith, George, De Boever, Patrick, Duijts, Liesbeth, Dwyer, Terence, Eng, Celeste, Eskenazi, Brenda, Everson, Todd M, Falahi, Fahimeh, Fallin, M Daniele, Farchi, Sara, Fernandez, Mariana F, Gao, Lu, Gaunt, Tom R, Ghantous, Akram, Gillman, Matthew W, Gonseth, Semira, Grote, Veit, Gruzieva, Olena, Håberg, Siri E, Herceg, Zdenko, Hivert, Marie-France, Holland, Nina, Holloway, John W, Hoyo, Cathrine, Hu, Donglei, Huang, Rae-Chi, Huen, Karen, Järvelin, Marjo-Riitta, Jima, Dereje D, Just, Allan C, Karagas, Margaret R, Karlsson, Robert, Karmaus, Wilfried, Kechris, Katerina J, Kere, Juha, Kogevinas, Manolis, Koletzko, Berthold, Koppelman, Gerard H, Küpers, Leanne K, Ladd-Acosta, Christine, Lahti, Jari, Lambrechts, Nathalie, Langie, Sabine AS, Lie, Rolv T, Liu, Andrew H, Magnus, Maria C, Magnus, Per, Maguire, Rachel L, Marsit, Carmen J, McArdle, Wendy, Melén, Erik, Melton, Phillip, Murphy, Susan K, Nawrot, Tim S, Nisticò, Lorenza, Nohr, Ellen A, Nordlund, Björn, Nystad, Wenche, Oh, Sam S, Oken, Emily, Page, Christian M, Perron, Patrice, Pershagen, Göran, Pizzi, Costanza, Plusquin, Michelle, Raikkonen, Katri, Reese, Sarah E, Reischl, Eva, Richiardi, Lorenzo, Ring, Susan, Roy, Ritu P, Rzehak, Peter, Schoeters, Greet, Schwartz, David A, Sebert, Sylvain, Snieder, Harold, Sørensen, Thorkild IA, Starling, Anne P, Sunyer, Jordi, Taylor, Jack A, Tiemeier, Henning, Ullemar, Vilhelmina, Vafeiadi, Marina, Van Ijzendoorn, Marinus H, Vonk, Judith M, Vriens, Annette, Vrijheid, Martine, Wang, Pei, Wiemels, Joseph L, Wilcox, Allen J, Wright, Rosalind J, Xu, Cheng-Jian, Xu, Zongli, Yang, Ivana V, Yousefi, Paul, Zhang, Hongmei, Zhang, Weiming, Zhao, Shanshan, Agha, Golareh, Relton, Caroline L, Jaddoe, Vincent WV, and London, Stephanie J

Published
2017
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424. Relationship Between Methylome and Transcriptome in Patients With Nonalcoholic Fatty Liver Disease.

Author

Murphy, Susan K., Yang, Hyuna, Moylan, Cynthia A., Pang, Herbert, Dellinger, Andrew, Abdelmalek, Manal F., Garrett, Melanie E., Ashley–Koch, Allison, Suzuki, Ayako, Tillmann, Hans L., Hauser, Michael A., and Diehl, Anna Mae

Abstract

Background & Aims: Cirrhosis and liver cancer are potential outcomes of advanced nonalcoholic fatty liver disease (NAFLD). It is not clear what factors determine whether patients will develop advanced or mild NAFLD, limiting noninvasive diagnosis and treatment before clinical sequelae emerge. We investigated whether DNA methylation profiles can distinguish patients with mild disease from those with advanced NAFLD, and how these patterns are functionally related to hepatic gene expression. Methods: We collected frozen liver biopsies and clinical data from patients with biopsy-proven NAFLD (56 in the discovery cohort and 34 in the replication cohort). Samples were divided into groups based on histologic severity of fibrosis: F0−1 (mild) and F3−4 (advanced). DNA methylation profiles were determined and coupled with gene expression data from the same biopsies; differential methylation was validated in subsets of the discovery and replication cohorts. We then analyzed interactions between the methylome and transcriptome. Results: Clinical features did not differ between patients known to have mild or advanced fibrosis based on biopsy analysis. There were 69,247 differentially methylated CpG sites (76% hypomethylated, 24% hypermethylated) in patients with advanced vs mild NAFLD (P < .05). Methylation at fibroblast growth factor receptor 2, methionine adenosyl methyltransferase 1A, and caspase 1 was validated by bisulfite pyrosequencing and the findings were reproduced in the replication cohort. Methylation correlated with gene transcript levels for 7% of differentially methylated CpG sites, indicating that differential methylation contributes to differences in expression. In samples with advanced NAFLD, many tissue repair genes were hypomethylated and overexpressed, and genes in certain metabolic pathways, including 1-carbon metabolism, were hypermethylated and underexpressed. Conclusions: Functionally relevant differences in methylation can distinguish patients with advanced vs mild NAFLD. Altered methylation of genes that regulate processes such as steatohepatitis, fibrosis, and carcinogenesis indicate the role of DNA methylation in progression of NAFLD. [Copyright &y& Elsevier]

Published
2013
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425. Utilization of genomic signatures to identify high-efficacy candidate drugs for chemorefractory endometrial cancers.

Author

Kharma, Budiman, Baba, Tsukasa, Mandai, Masaki, Matsumura, Noriomi, Murphy, Susan K., Kang, Hyun Sook, Yamanoi, Koji, Hamanishi, Junzo, Yamaguchi, Ken, Yoshioka, Yumiko, and Konishi, Ikuo

Abstract

Endometrial cancer, one of the most common gynecologic malignancies, is increasing in Japan, nearly doubling over the last decade. High-grade disease patients are often resistant to conventional chemotherapy with platinum agents; therefore, discovery of efficacious new drugs in this setting is required to benefit chemorefractory cases. The 50% growth-inhibitory (GI50) concentration of 27 clinically relevant drugs was measured in the NCI60 panel of cell lines. Gene expression data were analyzed using Bayesian binary regression, to first generate a response signature for each drug and then to calculate individual susceptibility scores using in vivo endometrial cancer data (GSE2109; http://www.ncbi.nlm.nih.gov/geo) and in vitro data (GSE25458), as well as to identify candidate drugs for chemorefractory cases. Using these candidates, cell proliferation, apoptosis and caspase assays were performed in vitro. The tumor growth-inhibitory effect of the candidate was also assessed in vivo using nude mice. Through microarray analysis, fludarabine and temsirolimus showed higher susceptibility scores in high-grade cases compared to cisplatin, doxorubicin and paclitaxel. Fludarabine significantly inhibited cell proliferation and increased apoptosis in the cisplatin-resistant endometrial cancer cell line, HEC1A, relative to HEC50B ( p < 0.001). Fludarabine treatment also enhanced caspase-3/7 activity in HEC1A relative to HEC50B cells ( p < 0.001), and inhibited the growth of HEC1A xenograft tumors relative to cisplatin ( p < 0.05). These results support that identification and use of genomic signatures can lead to identification of new therapeutic candidates that may prove beneficial to chemoresistant cases. Fludarabine may be useful in targeting high-grade, chemorefractory endometrial cancer. [ABSTRACT FROM AUTHOR]

Published
2013
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426. TP53 Status Is Associated With Thrombospondin1 Expression In Vitro.

Author

Secord, Angeles Alvarez, Bernardini, Marcus Q., Broadwater, Gloria, Grace, Lisa A., Zhiqing Huang, Tsukasa Baba, Eiji Kondoh, Sfakianos, Gregory, Havrilesky, Laura J., and Murphy, Susan K.

Subjects
OVARIAN cancer, P53 protein, CANCER cells, METHYLATION, GENE expression, MESSENGER RNA, RADIATION exposure
Abstract

Objectives: To elucidate the association between thrombospondin1 (THBS1) expression and TP53 status and THBS1 promoter methylation in epithelial ovarian cancer (EOC). Methods: EOC cell lines with known TP53 status were analyzed for THBS1 gene expression using Affymetrix U133 microarrays and promoter methylation by pyrosequencing. THBS1 mRNA expression was obtained pre- and post-exposure to radiation and hypoxia treatment in A2780 parent wild-type (wt) and mutant (m)TP53 cells. THBS1 expression was compared to tumor growth properties. Results: THBS1 gene expression was higher in cells containing a wtTP53 gene or null TP53 mutation (p = 0.005) and low or absent p53 protein expression (p = 0.008) compared to those harboring a missense TP53 gene mutation and exhibiting high p53 protein expression. Following exposure to radiation, there was a 3.4 fold increase in THBS1 mRNA levels in the mTP53 versus wtTP53 A2780 cells. After exposure to hypoxia, THBS1 mRNA levels increased approximately 4-fold in both wtTP53 and mTP53 A2780 cells. Promoter methylation levels were low (median=8.6%; range=3.5-88.8%). There was a non-significant inverse correlation between THBS1 methylation and transcript levels. There was no association between THBS1 expression and population doubling time, invasive capacity, or anchorage-independent growth. Conclusion: THBS1 expression may be regulated via the TP53 pathway, and induced by hypoxic tumor microenvironment conditions. Overall low levels of THBS1 promoter methylation imply that methylation is not the primary driver of THBS1 expression in EOC. [ABSTRACT FROM AUTHOR]

Published
2013
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427. Paternal obesity is associated with IGF2 hypomethylation in newborns: results from a Newborn Epigenetics Study (NEST) cohort.

Author

Soubry, Adelheid, Schildkraut, Joellen M., Murtha, Amy, Wang, Frances, Huang, Zhiqing, Bernal, Autumn, Kurtzberg, Joanne, Jirtle, Randy L., Murphy, Susan K., and Hoyo, Cathrine

Subjects
OBESITY, METHYLATION, NUTRITION in pregnancy, GENOMIC imprinting, EPIGENETICS, EPIDEMIOLOGY, ENVIRONMENTAL exposure, COHORT analysis
Abstract

Background: Data from epidemiological and animal model studies suggest that nutrition during pregnancy may affect the health status of subsequent generations. These transgenerational effects are now being explained by disruptions at the level of the epigenetic machinery. Besides in vitro environmental exposures, the possible impact on the reprogramming of methylation profiles at imprinted genes at a much earlier time point, such as during spermatogenesis or oogenesis, has not previously been considered. In this study, our aim was to determine associations between preconceptional obesity and DNA methylation profiles in the offspring, particularly at the differentially methylated regions (DMRs) of the imprinted Insulin-like Growth Factor 2 (IGF2) gene. Methods: We examined DNA from umbilical cord blood leukocytes from 79 newborns, born between July 2005 and November 2006 at Duke University Hospital, Durham, NC. Their mothers participated in the Newborn Epigenetics Study (NEST) during pregnancy. Parental characteristics were obtained via standardized questionnaires and medical records. DNA methylation patterns at two DMRs were analyzed by bisulfite pyrosequencing; one DMR upstream of IGF2 (IGF2 DMR), and one DMR upstream of the neighboring H19 gene (H19 DMR). Multiple regression models were used to determine potential associations between the offspring's DNA methylation patterns and parental obesity before conception. Obesity was defined as body mass index (BMI) =30 kg/m². Results: Hypomethylation at the IGF2 DMR was associated with paternal obesity. Even after adjusting for several maternal and newborn characteristics, we observed a persistent inverse association between DNA methylation in the offspring and paternal obesity (b-coefficient was -5.28, P = 0.003). At the H19 DMR, no significant associations were detected between methylation patterns and paternal obesity. Our data suggest an increase in DNA methylation at the IGF2 and H19 DMRs among newborns from obese mothers, but a larger study is warranted to further explore the potential effects of maternal obesity or lifestyle on the offspring's epigenome. Conclusions: While our small sample size is limited, our data indicate a preconceptional impact of paternal obesity on the reprogramming of imprint marks during spermatogenesis. Given the biological importance of imprinting fidelity, our study provides evidence for transgenerational effects of paternal obesity that may influence the offspring's future health status. [ABSTRACT FROM AUTHOR]

Published
2013
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429. Associations between Methylation of Paternally Expressed Gene 3 (PEG3), Cervical Intraepithelial Neoplasia and Invasive Cervical Cancer.

Author

Nye, Monica D., Hoyo, Cathrine, Huang, Zhiqing, Vidal, Adriana C., Wang, Frances, Overcash, Francine, Smith, Jennifer S., Vasquez, Brandi, Hernandez, Brenda, Swai, Britta, Oneko, Olola, Mlay, Pendo, Obure, Joseph, Gammon, Marilie D., Bartlett, John A., and Murphy, Susan K.

Subjects
CERVICAL cancer, CERVICAL intraepithelial neoplasia, GENE expression, CANCER invasiveness, DNA methylation, LOGISTIC regression analysis, EPIDEMIOLOGY of cancer, HIV infections
Abstract

Cytology-based screening for invasive cervical cancer (ICC) lacks sensitivity and specificity to discriminate between cervical intraepithelial neoplasia (CIN) likely to persist or progress from cases likely to resolve. Genome-wide approaches have been used to identify DNA methylation marks associated with CIN persistence or progression. However, associations between DNA methylation marks and CIN or ICC remain weak and inconsistent. Between 2008–2009, we conducted a hospital-based, case-control study among 213 Tanzania women with CIN 1/2/3 or ICC. We collected questionnaire data, biopsies, peripheral blood, cervical scrapes, Human papillomavirus (HPV) and HIV-1 infection status. We assessed PEG3 methylation status by bisulfite pyrosequencing. Multinomial logistic regression was used to estimate odds ratios (OR) and confidence intervals (CI 95%) for associations between PEG3 methylation status and CIN or ICC. After adjusting for age, gravidity, hormonal contraceptive use and HPV infection, a 5% increase in PEG3 DNA methylation was associated with increased risk for ICC (OR = 1.6; 95% CI 1.2–2.1). HPV infection was associated with a higher risk of CIN1-3 (OR = 15.7; 95% CI 5.7–48.6) and ICC (OR = 29.5, 95% CI 6.3–38.4). Infection with high risk HPV was correlated with mean PEG3 differentially methylated regions (DMRs) methylation (r = 0.34 p<0.0001), while the correlation with low risk HPV infection was weaker (r = 0.16 p = 0.047). Although small sample size limits inference, these data support that PEG3 methylation status has potential as a molecular target for inclusion in CIN screening to improve prediction of progression. Impact statement: We present the first evidence that aberrant methylation of the PEG3 DMR is an important co-factor in the development of Invasive cervical carcinoma (ICC), especially among women infected with high risk HPV. Our results show that a five percent increase in DNA methylation of PEG3 is associated with a 1.6-fold increase ICC risk. Suggesting PEG3 methylation status may be useful as a molecular marker for CIN screening to improve prediction of cases likely to progress. [ABSTRACT FROM AUTHOR]

Published
2013
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430. 450K Epigenome-Wide Scan Identifies Differential DNA Methylation in Newborns Related to Maternal Smoking during Pregnancy.

Author

Joubert, Bonnie R., Håberg, Siri E., Nilsen, Roy M., Wang, Xuting, Vollset, Stein E., Murphy, Susan K., Huang, Zhiqing, Hoyo, Cathrine, Midttun, Øivind, Cupul-Uicab, Lea A., Ueland, Per M., Wu, Michael C., Nystad, Wenche, Bell, Douglas A., Peddada, Shyamal D., and London, Stephanie J.

Subjects
DNA analysis, CORD blood, METHYLATION, REGRESSION analysis, RESEARCH funding, SMOKING, STATISTICS, T-test (Statistics), DATA analysis, COTININE, DATA analysis software, DESCRIPTIVE statistics, PREGNANCY
Abstract

Background: Epigenetic modifications, such as DNA methylation,due to in utero exposures may play a critical role in early programming for childhood and adult illness. Maternal smoking is a major risk factor for multiple adverse health outcomes in children, but the underlying mechanisms are unclear.Objective: We investigated epigenome-wide methylationin cord blood of newborns in relation to maternal smoking during pregnancy.Methods: We examined maternal plasma cotinine (an objective biomarker of smoking) measured during pregnancy in relation to DNA methylation at 473,844 CpG sites (CpGs) in 1,062 newborn cord blood samples from the Norwegian Mother and Child Cohort Study (MoBa) using the Infinium Human Methylation450Bead Chip (450K).Results: We found differential DNA methylation at epigenome-wide statistical significance(p-value < 1.06 × 10-7) for 26 CpGs mapped to 10 genes. We replicated findings for CpGs in AHRR, CYP1A1, and GFI1 at strict Bonferroni-corrected statistical significance in a U.S. birth cohort. AHRR and CYP1A1 play a key role in the aryl hydrocarbon receptor signaling pathway,which mediates the detoxification of the components of tobacco smoke. GFI1 is involved in diverse developmental processes but has not previously been implicated in responses to tobacco smoke.Conclusions: We identified a set of genes with methylation changes present at birth in children whose mothers smoked during pregnancy. This is the first study of differential methylation across the genome in relation to maternal smoking during pregnancy using the 450K platform. Our findings implicate epigenetic mechanisms in the pathogenesis of the adverse health outcomes associated with this important in utero exposure. [ABSTRACT FROM AUTHOR]

Published
2012
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432. Insulin-Like Growth Factor 2/H19 Methylation at Birth and Risk of Overweight and Obesity in Children.

Author

Perkins, Ellen, Murphy, Susan K., Murtha, Amy P., Schildkraut, Joellen, Jirtle, Randy L., Demark-Wahnefried, Wendy, Forman, Michele R., Kurtzberg, Joanne, Overcash, Francine, Huang, Zhiqing, and Hoyo, Cathrine

Abstract

Objective: To determine whether aberrant DNA methylation at differentially methylated regions (DMRs) regulating insulin-like growth factor 2 (IGF2) expression in umbilical cord blood is associated with overweight or obesity in a multiethnic cohort. Study design: Umbilical cord blood leukocytes of 204 infants born between 2005 and 2009 in Durham, North Carolina, were analyzed for DNA methylation at two IGF2 DMRs by using pyrosequencing. Anthropometric and feeding data were collected at age 1 year. Methylation differences were compared between children >85th percentile of the Centers for Disease Control and Prevention growth charts weight-for-age (WFA) and children ≤85th percentile of WFA at 1 year by using generalized linear models, adjusting for post-natal caloric intake, maternal cigarette smoking, and race/ethnicity. Results: The methylation percentages at the H19 imprint center DMR was higher in infants with WFA >85th percentile (62.7%; 95% CI, 59.9%-65.5%) than in infants with WFA ≤85th percentile (59.3%; 95% CI, 58.2%-60.3%; P = .02). At the intragenic IGF2 DMR, methylation levels were comparable between infants with WFA ≤85th percentile and infants with WFA >85th percentile. Conclusions: Our findings suggest that IGF2 plasticity may be mechanistically important in early childhood overweight or obese status. If confirmed in larger studies, these findings suggest aberrant DNA methylation at sequences regulating imprinted genes may be useful identifiers of children at risk for the development of early obesity. [ABSTRACT FROM AUTHOR]

Published
2012
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433. The activated transforming growth factor-beta signaling pathway in peritoneal metastases is a potential therapeutic target in ovarian cancer.

Author

Yamamura, Shogo, Matsumura, Noriomi, Mandai, Masaki, Huang, Zhiqing, Oura, Tomonori, Baba, Tsukasa, Hamanishi, Junzo, Yamaguchi, Ken, Kang, Hyun Sook, Okamoto, Takako, Abiko, Kaoru, Mori, Seiichi, Murphy, Susan K., and Konishi, Ikuo

Abstract

Peritoneal dissemination including omental metastasis is the most frequent route of metastasis and an important prognostic factor in advanced ovarian cancer. We analyzed the publicly available microarray dataset (GSE2109) using binary regression and found that the transforming growth factor (TGF)-beta signaling pathway was activated in omental metastases as compared to primary sites of disease. Immunohistochemical analysis of TGF-beta receptor type 2 and phosphorylated SMAD2 indicated that both were upregulated in omental metastases as compared to primary disease sites. Treatment of the mouse ovarian cancer cell line HM-1 with recombinant TGF-β1 promoted invasiveness, cell motility and cell attachment while these were suppressed by treatment with A-83-01, an inhibitor of the TGF-β signaling pathway. Microarray analysis of HM-1 cells treated with TGF-β1 and/or A-83-01 revealed that A-83-01 efficiently inhibited transcriptional changes that are induced by TGF-β1. Using gene set enrichment analysis, we found that genes upregulated by TGF-β1 in HM-1 cells were also significantly upregulated in omental metastases compared to primary sites in the human ovarian cancer dataset, GSE2109 (false discovery rate (FDR) q = 0.086). Therapeutic effects of A-83-01 in a mouse model of peritoneal dissemination were examined. Intraperitoneal injection of A-83-01 (150 µg given three times weekly) significantly improved survival (p = 0.015). In summary, these results show that the activated TGF-β signaling pathway in peritoneal metastases is a potential therapeutic target in ovarian cancer. [ABSTRACT FROM AUTHOR]

Published
2012
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436. Sorafenib efficacy in ovarian clear cell carcinoma revealed by transcriptome profiling Matsumura et al.

Author

Matsumura, Noriomi, Mandai, Masaki, Okamoto, Takako, Yamaguchi, Ken, Yamamura, Shogo, Oura, Tomonori, Baba, Tsukasa, Hamanishi, Junzo, Kang, Hyun S., Matsui, Shigeyuki, Mori, Seiichi, Murphy, Susan K., and Konishi, Ikuo

Abstract

The purpose of this study was to investigate a new modality of therapy against ovarian clear cell carcinoma (OCCC), a chemoresistant subtype of ovarian cancer. Microarray datasets of ovarian cancer cell lines and cancer tissues were analyzed using bioinformatic tools. The gene expression profile of OCCC was similar to that of renal cell carcinoma (RCC). This similarity was at least partially due to hepatocyte nuclear factor 1 pathway activation common to both malignancies. In addition, oncogenic pathway alterations were characteristic of OCCC including hypoxia inducible factor 1 alpha subunit and relatively high Ras activities. Therefore, we predicted that the multi-kinase inhibitor sorafenib, which is approved for RCC and suppresses Ras activity, would also be effective against OCCC. Orally administered sorafenib (40 mg/kg per day) significantly inhibited tumor growth in nude mice when it was given after inoculation with the OCCC cell line RMG-2 ( P = 0.002). Furthermore, sorafenib significantly reduced tumor size when it was administered to established RMG-2 tumors ( P = 0.0002), while intraperitoneal injection of cisplatin (5 mg/kg per week) did not. In conclusion, the prominent anti-tumor effect of sorafenib against OCCC indicates that sorafenib is a promising candidate drug and supports the need for clinical trials using sorafenib against OCCC. This report demonstrates a method to utilize genome-wide information to facilitate translational research for treatments against less common subtypes of cancers. ( Cancer Sci 2010; 101: 2658-2663) [ABSTRACT FROM AUTHOR]

Published
2010
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439. Expression signatures of TP53 mutations in serousovarian cancers.

Author

Bernardini, Marcus Q., Baba, Tsukasa, Lee, Paula S., Barnett, Jason C., Sfakianos, Gregory P., Secord, Angeles Alvarez, Murphy, Susan K., Iversen, Edwin, Marks, Jeffrey R., and Berchuck, Andrew

Subjects
BREAST cancer, GENE expression, GENETIC regulation, CANCER genetics, OVARIAN cancer
Abstract

Background: Mutations in the TP53 gene are extremely common and occur very early in the progression of serous ovarian cancers. Gene expression patterns that relate to mutational status may provide insight into the etiology and biology of the disease. Methods: The TP53 coding region was sequenced in 89 frozen serous ovarian cancers, 40 early stage (I/II) and 49 advanced stage (III/IV). Affymetrix U133A expression data was used to define gene expression patterns by mutation, type of mutation, and cancer stage. Results: Missense or chain terminating (null) mutations in TP53 were found in 59/89 (66%) ovarian cancers. Early stage cancers had a significantly higher rate of null mutations than late stage disease (38% vs. 8%, p < 0.03). In advanced stage cases, mutations were more prevalent in short term survivors than long term survivors (81% vs. 30%, p = 0.0004). Gene expression patterns had a robust ability to predict TP53 status within training data. By using early versus late stage disease for out of sample predictions, the signature derived from early stage cancers could accurately (86%) predict mutation status of late stage cancers. Conclusions: This represents the first attempt to define a genomic signature of TP53 mutation in ovarian cancer. Patterns of gene expression characteristic of TP53 mutation could be discerned and included several genes that are known p53 targets or have been described in the context of expression signatures of TP53 mutation in breast cancer. [ABSTRACT FROM AUTHOR]

Published
2010
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441. Callipyge mutation affects gene expression in cis: A potential role for chromatin structure.

Author

Murphy, Susan K., Nolan, Catherine M., Zhiqing Huang, Kucera, Katerina S., Freking, Brad A., Smith, Timothy P. L., Leymaster, Kreg A., Weidman, Jennifer R., and Jirtle, Randy L.

Subjects
*DROSOPHILA genetics, *CHROMATIN, *SHEEP, *GENETIC regulation, *ANIMAL genetics, *GENETIC mutation, *METHYLATION
Abstract

Muscular hypertrophy in callipyge sheep results from a single nucleotide substitution located in the genonlic interval between the imprinted Delta, Drosophila, Homolog-like 1 (DLK1) and Maternally Expressed Gene 3 (MEG3). The mechanism linking the mutation to muscle hypertrophy is unclear but involves DLK1 overexpression. The mutation is contained within CLPG1 transcripts produced from this region. Herein we show that CLPG1 is expressed prenatally in the hypertrophy-responsive longissimus dorsi muscle by all four possible genotypes, but postnatal expression is restricted to sheep carrying the mutation. Surprisingly, the mutation results in nonimprinted monoallelic transcription of CLPG1 from only the mutated allele in adult sheep, whereas it is expressed biallelically during prenatal development. We further demonstrate that local CpG methylation is altered by the presence of the mutation in longissimus dorsi of postnatal sheep. For 10 CpG sites flanking the mutation, methylation is similar prenatally across genotypes, but doubles postnatally in normal sheep. This normal postnatal increase in methylation is significantly repressed in sheep carrying one copy of the mutation, and repressed even further in sheep with two mutant alleles. The attenuation in methylation status in the callipyge sheep correlates with the onset of the phenotype, continued CLPG1 transcription, and high-level expression of DLK1. In contrast, normal sheep exhibit hypermethylation of this locus after birth and CLPG1 silencing, which coincides with DLK1 transcriptional repression. These data are consistent with the notion that the callipyge mutation inhibits perinatal nucleation of regional chromatin condensation resulting in continued elevated transcription of prenatal DLK1 levels in adult callipyge sheep. We propose a model incorporating these results that can also account for the enigmatic normal phenotype of homozygous mutant sheep. [ABSTRACT FROM AUTHOR]

Published
2006
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443. Analysis of methylation-sensitive transcriptome identifies GADD45a as a frequently methylated gene in breast cancer.

Author

Wang, Wei, Huper, Gudrun, Guo, Yueqi, Murphy, Susan K, Olson, John A, and Marks, Jeffrey R

Subjects
BREAST cancer, DNA, GENE expression, CELL lines, GENES, DEOXYRIBOSE
Abstract

Treatment of the breast cancer cell line, MDAMB468 with the DNA methylation inhibitor, 5-azacytidine (5-AzaC) results in growth arrest, whereas the growth of the normal breast epithelial line DU99 (telomerase immortalized) is relatively unaffected. Comparing gene expression profiles of these two lines after 5-AzaC treatment, we identified 36 genes that had relatively low basal levels in MDAMB468 cells compared to the DU99 line and were induced in the cancer cell line but not in the normal breast epithelial line. Of these genes, 33 have associated CpG islands greater than 300?bp in length but only three have been previously described as targets for aberrant methylation in human cancer. Northern blotting for five of these genes (a-Catenin, DTR, FYN, GADD45a, and Zyxin) verified the array results. Further analysis of one of these genes, GADD45a, showed that 5-AzaC induced expression in five additional breast cancer cell lines with little or no induction in three additional lines derived from normal breast epithelial cells. The CpG island associated with GADD45a was analysed by bisulfite sequencing, sampling over 100 CpG dinucleotides. We found that four CpG's, located approximately 700?bp upstream of the transcriptional start site are methylated in the majority of breast cancer cell lines and primary tumors but not in DNA from normal breast epithelia or matched lymphocytes from cancer patients. Therefore, this simple method of dynamic transcriptional profiling yielded a series of novel methylation-sensitive genes in breast cancer including the BRCA1 and p53 responsive gene, GADD45a.Oncogene (2005) 24, 2705-2714. doi:10.1038/sj.onc.1208464 Published online 14 February 2005 [ABSTRACT FROM AUTHOR]

Published
2005
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444. Abnormal postnatal maintenance of elevated DLK1 transcript levels in callipyge sheep.

Author

Murphy, Susan K., Freking, Brad A., Smith, Timothy P. L., Leymaster, Kreg, Nolan, Catherine M., Wylie, Andrew A., Evans, Heather K., and Jirtle, Randy L.

Subjects
*SHEEP breeds, *HYPERTROPHY, *PHENOTYPES, *CHROMOSOMES, *DROSOPHILIDAE, *GENE expression
Abstract

The underlying mechanism of the callipyge muscular hypertrophy phenotype in sheep ( Ovis aries) is not presently understood. This phenotype, characterized by increased glycolytic type II muscle proportion and cell size accompanied by decreased adiposity, is not visibly detectable until approximately three to eight weeks after birth. The muscular hypertrophy results from a single nucleotide change located at the telomeric end of ovine Chromosome 18, in the region between the imprinted MATERNALLY EXPRESSED GENE 3 ( MEG3) and DELTA, DROSOPHILA, HOMOLOG-LIKE 1 ( DLK1) genes. The callipyge phenotype is evident only when the mutation is paternally inherited by a heterozygous individual. We have examined the pre- and postnatal expression of MEG3 and DLK1 in sheep of all four possible genotypes in affected and unaffected muscles as well as in liver. Here we show that the callipyge phenotype correlates with abnormally high DLK1 expression during the postnatal period in the affected sheep and that this elevation is specific to the hypertrophy-responsive fast-twitch muscles. These results are the first to show anomalous gene expression that coincides with both the temporal and spatial distribution of the callipyge phenotype. They suggest that the effect of the callipyge mutation is to interfere with the normal postnatal downregulation of DLK1 expression. [ABSTRACT FROM AUTHOR]

Published
2005
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445. Phylogenetic Footprint Analysis of IGF2 in Extant Mammals.

Author

Weidman, Jennifer R., Murphy, Susan K., Nolan, Catherine M., Dietrich, Fred S., and Jirtle, Randy L.

Subjects
*PHYLOGENY, *INSULIN-like growth factor-binding proteins, *GENOMIC imprinting, *GENE expression, *GENETIC transcription, *BIOLOGY, *GENOMICS
Abstract

Genomic imprinting results in monoallelic gene transcription that is directed by cis-acting regulatory elements epigenetically marked in a parent-of-origin-dependent manner. We performed phylogenetic sequence and epigenetic comparisons of IGF2 between the nonimprinted platypus (Ornithorhynchus anatinus) and imprinted opossum (Didelphis virginiana), mouse (Plus musculus), and human (Homo sapiens) to determine if their divergent imprint status would reflect differences in the conservation of genomic elements important in the regulation of imprinting. We report herein that IGF2 imprinting does not correlate evolutionarily with differential intragenic methylation, nor is it associated with motif 13, a reported IGF2-specific ‘imprint signature’ located in the coding region. Instead, IGF2 imprinting is strongly associated with both the lack of short interspersed transposable elements (SINEs) and an intragenic conserved inverted repeat that contains candidate CTCF-binding sites, a role not previously ascribed to this particular sequence element. Our results are the first to demonstrate that comparative footprint analysis of species from evolutionarily distant mammalian clades, and exhibiting divergent imprint status is a powerful bioinformatics-based approach for identifying cis-acting elements potentially involved not only in the origins of genomic imprinting, but also in its maintenance in humans. [ABSTRACT FROM AUTHOR]

Published
2004
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446. Imprinting evolution and the price of silence.

Author

Murphy, Susan K. and Jirtle, Randy L.

Subjects
*GENE expression, *GENOMIC imprinting
Abstract

In contrast to the biallelic expression of most genes, expression of genes subject to genomic imprinting is monoallelic and based on the sex of the transmitting parent. Possession of only a single active allele can lead to deleterious health consequences in humans. Aberrant expression of imprinted genes, through either genetic or epigenetic alterations, can result in developmental failures, neurodevelopmental and neurobehavioral disorders and cancer. The evolutionary emergence of imprinting occurred in a common ancestor to viviparous mammals after divergence from the egg-laying monotremes. Current evidence indicates that imprinting regulation in metatherian mammals differs from that in eutherian mammals. This suggests that imprinting mechanisms are evolving from those that were established 150 million years ago. Therefore, comparing genomic sequence of imprinted domains from marsupials and eutherians with those of orthologous regions in monotremes offers a potentially powerful bioinformatics approach for identifying novel imprinted genes and their regulatory elements. Such comparative studies will also further our understanding of the molecular evolution and phylogenetic distribution of imprinted genes. [ABSTRACT FROM AUTHOR]

Published
2003
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447. Contributors

Author

Abematsu, Masahiko, Anderson, David W., Andronikos, Roberta H., Arita, Adriana, Avramova, Zoya, Bernal, Autumn J., Campión, Javier, Castranova, Vince, A. Champagne, Frances, Chao, Wendy, Chen, Fei, Chen, Xiaowei Sylvia, Cheng, Xiaodong, Collins, Lesley, Costa, Max, Curley, James P., Doerfler, Walter, Dvash, Tamar, Eggermann, Thomas, Fan, Guoping, Franklin, Tamara B., Gay, Steffen, Gilson, Eric, Gräff, Johannes, Hashimoto, Hideharu, Hattori, Naoko, Herceg, Zdenko, Hochstein, Norbert, Horton, John R., House, Simon H., Janitz, Karolina, Janitz, Michal, L. Jirtle, Randy, Joo, Ji-Hoon E., Juliandi, Berry, Jungel, Astrid, Kan, Hong, Kim, Tae Hoon, Kim, Yoon Jung, Lalucque, Hervé, Lima, Sheila C.S., Litherland, Sally A., C. Lucchesi, John, Maciejewska-Rodrigues, Hanna, Magdinier, Frédérique, Malagnac, Fabienne, Mansuy, Isabelle M., Martinez, J. Alfredo, Mashoodh, Rahia, Milagro, Fermin I., Miller, Ashleigh, Munster, Pamela, Murphy, Susan K., Murr, Rabih, Nakashima, Kinichi, Naumann, Anja, Ottaviani, Alexandre, Peedicayil, Jacob, P. Pfeifer, Gerd, Ribeiro Pinto, Luis Felipe, Pirrotta, Vincenzo, Puri, Pier Lorenzo, Rauch, Tibor A., Riley, Lee B., Roth, Eric D., Roth, Tania L., Saffery, Richard, Sartorelli, Vittorio, Schluth-Bolard, Caroline, Schönfeld, Barbara, Schumacher, Axel, Silar, Philippe, Søreide, Kjetil, Sweatt, J. David, Thomas, Scott, Thurn, Kenneth T., Tollefsbol, Trygve O., Ushijima, Toshikazu, Wacker, David A., Weber, Stefanie, and Zhang, Xing

Published
2011
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448. Regulation of Age-Related Lipid Metabolism in Ovarian Cancer.

Author

Feng, Jihua, Rouse, Clay Douglas, Taylor, Lila, Garcia, Santiago, Nguyen, Ethan, Coogan, Isabella, Byrd, Olivia, Berchuck, Andrew, Murphy, Susan K., and Huang, Zhiqing

Subjects
*RNA sequencing, *FREE fatty acids, *MYELOID cells, *ADIPOSE tissues, *GENE expression profiling
Abstract

The mortality rate of ovarian cancer (OC) remains the highest among female gynecological malignancies. Advanced age is the highest risk factor for OC development and progression, yet little is known about the role of the aged tumor microenvironment (TME). We conducted RNA sequencing and lipidomic analysis of young and aged gonadal adipose tissue from rat xenografts before and after OC formation. The rates of tumor formation (p = 0.047) and tumor volume (p = 0.002) were significantly higher in the aged rats than in their young counterparts. RNA sequencing data showed significant differences in gene expression profiles between the groups of young and aged rat adipose tissues (p < 0.05), including S100a8, S100a9, Il1rl1, Lcn2, C3, Hba-a1, Fcna, and Pnpla3. At the time of tumor generation, there were also changes in the lipid components within the gonadal adipose tissues of young and aged rats, with higher levels of free fatty acids (FFAs) and triglycerides (TGs) in aged rats. Furthermore, the aged TME showed changes in immune cell composition, especially inflammation-related cells, including neutrophils, myeloid dendritic cells, CD4+ T cells (non-regulatory), and mast cell activation (p < 0.05). The correlation between S100a8, S100a9, neutrophil, and omega-5, FFA 18:3 levels was also determined. Additionally, omega-5, which is downregulated in aged rats, inhibited OC cell proliferation in vitro (p < 0.001). Our study suggests that the aged TME promotes OC proliferation resulting from age-related changes in gene/pathway expression, lipid metabolism, and immune cell distribution. Targeting the aging adipose microenvironment, particularly lipid metabolism, is a promising therapeutic strategy for OC and warrants further investigation. Significance: The aging microenvironment contributes to OC development and progression because of changes in the immune response regulatory genes S100a8 and S100a9, secreted by adipocytes, preadipocytes, or neutrophils, and by altering omega-5 metabolism. [ABSTRACT FROM AUTHOR]

Published
2025
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