Your search keyword '"Joo, J-HE"' showing total 6 results

1. Transcriptomic Remodelling of Fetal Endothelial Cells During Establishment of Inflammatory Memory

Author

Weiss, E, Vlahos, A, Kim, B, Wijegunasekara, S, Shanmuganathan, D, Aitken, T, Joo, J-HE, Imran, S, Shepherd, R, Craig, JM, Green, M, Hiden, U, Novakovic, B, Saffery, R, Weiss, E, Vlahos, A, Kim, B, Wijegunasekara, S, Shanmuganathan, D, Aitken, T, Joo, J-HE, Imran, S, Shepherd, R, Craig, JM, Green, M, Hiden, U, Novakovic, B, and Saffery, R

Abstract

Inflammatory memory involves the molecular and cellular 'reprogramming' of innate immune cells following exogenous stimuli, leading to non-specific protection against subsequent pathogen exposure. This phenomenon has now also been described in non-hematopoietic cells, such as human fetal and adult endothelial cells. In this study we mapped the cell-specific DNA methylation profile and the transcriptomic remodelling during the establishment of inflammatory memory in two distinct fetal endothelial cell types - a progenitor cell (ECFC) and a differentiated cell (HUVEC) population. We show that both cell types have a core transcriptional response to an initial exposure to a viral-like ligand, Poly(I:C), characterised by interferon responsive genes. There was also an ECFC specific response, marked by the transcription factor ELF1, suggesting a non-canonical viral response pathway in progenitor endothelial cells. Next, we show that both ECFCs and HUVECs establish memory in response to an initial viral exposure, resulting in an altered subsequent response to lipopolysaccharide. While the capacity to train or tolerize the induction of specific sets of genes was similar between the two cell types, the progenitor ECFCs show a higher capacity to establish memory. Among tolerized cellular pathways are those involved in endothelial barrier establishment and leukocyte migration, both important for regulating systemic immune-endothelial cell interactions. These findings suggest that the capacity for inflammatory memory may be a common trait across different endothelial cell types but also indicate that the specific downstream targets may vary by developmental stage.

Published

2021

2. Genome-scale profiling reveals a subset of genes regulated by DNA methylation that program somatic T-cell phenotypes in humans

Author

Martino, D, Maksimovic, J, Joo, J-HE, Prescott, S L, and Saffery, R

Published

2012

3. Dysfunctional epigenetic aging of the normal colon and colorectal cancer risk

Author

Wang, T, Maden, SK, Luebeck, GE, Li, CI, Newcomb, PA, Ulrich, CM, Joo, J-HE, Buchanan, DD, Milne, RL, Southey, MC, Carter, KT, Willbanks, AR, Luo, Y, Yu, M, Grady, WM, Wang, T, Maden, SK, Luebeck, GE, Li, CI, Newcomb, PA, Ulrich, CM, Joo, J-HE, Buchanan, DD, Milne, RL, Southey, MC, Carter, KT, Willbanks, AR, Luo, Y, Yu, M, and Grady, WM

Abstract

BACKGROUND: Chronological age is a prominent risk factor for many types of cancers including colorectal cancer (CRC). Yet, the risk of CRC varies substantially between individuals, even within the same age group, which may reflect heterogeneity in biological tissue aging between people. Epigenetic clocks based on DNA methylation are a useful measure of the biological aging process with the potential to serve as a biomarker of an individual's susceptibility to age-related diseases such as CRC. METHODS: We conducted a genome-wide DNA methylation study on samples of normal colon mucosa (N = 334). Subjects were assigned to three cancer risk groups (low, medium, and high) based on their personal adenoma or cancer history. Using previously established epigenetic clocks (Hannum, Horvath, PhenoAge, and EpiTOC), we estimated the biological age of each sample and assessed for epigenetic age acceleration in the samples by regressing the estimated biological age on the individual's chronological age. We compared the epigenetic age acceleration between different risk groups using a multivariate linear regression model with the adjustment for gender and cell-type fractions for each epigenetic clock. An epigenome-wide association study (EWAS) was performed to identify differential methylation changes associated with CRC risk. RESULTS: Each epigenetic clock was significantly correlated with the chronological age of the subjects, and the Horvath clock exhibited the strongest correlation in all risk groups (r > 0.8, p < 1 × 10-30). The PhenoAge clock (p = 0.0012) revealed epigenetic age deceleration in the high-risk group compared to the low-risk group. CONCLUSIONS: Among the four DNA methylation-based measures of biological age, the Horvath clock is the most accurate for estimating the chronological age of individuals. Individuals with a high risk for CRC have epigenetic age deceleration in their normal colons measured by the PhenoAge clock, which may reflect a dysfunctional epigene

Published

2020

4. Causal effect of smoking on DNA methylation in peripheral blood: a twin and family study

Author

Li, S, Wong, EM, Bui, M, Nguyen, TL, Joo, J-HE, Stone, J, Dite, GS, Giles, GG, Saffery, R, Southey, MC, Hopper, JL, Li, S, Wong, EM, Bui, M, Nguyen, TL, Joo, J-HE, Stone, J, Dite, GS, Giles, GG, Saffery, R, Southey, MC, and Hopper, JL

Abstract

BACKGROUND: Smoking has been reported to be associated with peripheral blood DNA methylation, but the causal aspects of the association have rarely been investigated. We aimed to investigate the association and underlying causation between smoking and blood methylation. METHODS: The methylation profile of DNA from the peripheral blood, collected as dried blood spots stored on Guthrie cards, was measured for 479 Australian women including 66 monozygotic twin pairs, 66 dizygotic twin pairs, and 215 sisters of twins from 130 twin families using the Infinium HumanMethylation450K BeadChip array. Linear regression was used to estimate associations between methylation at ~ 410,000 cytosine-guanine dinucleotides (CpGs) and smoking status. A regression-based methodology for twins, Inference about Causation through Examination of Familial Confounding (ICE FALCON), was used to assess putative causation. RESULTS: At a 5% false discovery rate, 39 CpGs located at 27 loci, including previously reported AHRR, F2RL3, 2q37.1 and 6p21.33, were found to be differentially methylated across never, former and current smokers. For all 39 CpG sites, current smokers had the lowest methylation level. Our study provides the first replication for two previously reported CpG sites, cg06226150 (SLC2A4RG) and cg21733098 (12q24.32). From the ICE FALCON analysis with smoking status as the predictor and methylation score as the outcome, a woman's methylation score was associated with her co-twin's smoking status, and the association attenuated towards the null conditioning on her own smoking status, consistent with smoking status causing changes in methylation. To the contrary, using methylation score as the predictor and smoking status as the outcome, a woman's smoking status was not associated with her co-twin's methylation score, consistent with changes in methylation not causing smoking status. CONCLUSIONS: For middle-aged women, peripheral blood DNA methylation at several genomic locations is as

Published

2018

5. Genome-wide average DNA methylation is determined in utero

Author

Li, S, Wong, EM, Dugue, P-A, McRae, AF, Kim, E, Joo, J-HE, Nguyen, TL, Stone, J, Dite, GS, Armstrong, NJ, Mather, KA, Thalamuthu, A, Wright, MJ, Ames, D, Milne, RL, Craig, JM, Saffery, R, Montgomery, GW, Song, Y-M, Sung, J, Spector, TD, Sachdev, PS, Giles, GG, Southey, MC, Hopper, JL, Li, S, Wong, EM, Dugue, P-A, McRae, AF, Kim, E, Joo, J-HE, Nguyen, TL, Stone, J, Dite, GS, Armstrong, NJ, Mather, KA, Thalamuthu, A, Wright, MJ, Ames, D, Milne, RL, Craig, JM, Saffery, R, Montgomery, GW, Song, Y-M, Sung, J, Spector, TD, Sachdev, PS, Giles, GG, Southey, MC, and Hopper, JL

Abstract

BACKGROUND: Investigating the genetic and environmental causes of variation in genome-wide average DNA methylation (GWAM), a global methylation measure from the HumanMethylation450 array, might give a better understanding of genetic and environmental influences on methylation. METHODS: We measured GWAM for 2299 individuals aged 0 to 90 years from seven twin and/or family studies. We estimated familial correlations, modelled correlations with cohabitation history and fitted variance components models for GWAM. RESULTS: The correlation in GWAM for twin pairs was ∼0.8 at birth, decreased with age during adolescence and was constant at ∼0.4 throughout adulthood, with no evidence that twin pair correlations differed by zygosity. Non-twin first-degree relatives were correlated, from 0.17 [95% confidence interval (CI): 0.05-0.30] to 0.28 (95% CI: 0.08-0.48), except for middle-aged siblings (0.01, 95% CI: -0.10-0.12), and the correlation increased with time living together and decreased with time living apart. Spouse pairs were correlated in all studies, from 0.23 (95% CI: 0.3-0.43) to 0.31 (95% CI: 0.05-0.52), and the correlation increased with time living together. The variance explained by environmental factors shared by twins alone was 90% (95% CI: 74-95%) at birth, decreased in early life and plateaued at 28% (95% CI: 17-39%) in middle age and beyond. There was a cohabitation-related environmental component of variance. CONCLUSIONS: GWAM is determined in utero by prenatal environmental factors, the effects of which persist throughout life. The variation of GWAM is also influenced by environmental factors shared by family members, as well as by individual-specific environmental factors.

Published

2018

6. Twin birth changes DNA methylation of subsequent siblings

Author

Li, S, Kim, E, Wong, EM, Joo, J-HE, Nguyen, TL, Stone, J, Song, Y-M, Flander, LB, Saffery, R, Giles, GG, Southey, MC, Sung, J, Hopper, JL, Li, S, Kim, E, Wong, EM, Joo, J-HE, Nguyen, TL, Stone, J, Song, Y-M, Flander, LB, Saffery, R, Giles, GG, Southey, MC, Sung, J, and Hopper, JL

Abstract

We asked if twin birth influences the DNA methylation of subsequent siblings. We measured whole blood methylation using the HumanMethylation450 array for siblings from two twin and family studies in Australia and Korea. We compared the means and correlations in methylation between pairs of siblings born before a twin birth (BT siblings), born on either side of a twin birth (B/AT pairs) and born after a twin birth (AT siblings). For the genome-wide average DNA methylation, the correlation for AT pairs (rAT) was larger than the correlation for BT pairs (rBT) in both studies, and from the meta-analysis, rAT = 0.46 (95% CI: 0.26, 0.63) and rBT = -0.003 (95% CI: -0.30, 0.29) (P = 0.02). B/AT pairs were not correlated (from the meta-analysis rBAT = 0.08; 95% CI: -0.31, 0.45). Similar results were found for the average methylation of several genomic regions, e.g., CpG shelf and gene body. BT and AT pairs were differentially correlated in methylation for 15 probes (all P < 10-7), and the top 152 differentially correlated probes (at P < 10-4) were enriched in cell signalling and breast cancer regulation pathways. Our observations are consistent with a twin birth changing the intrauterine environment such that siblings both born after a twin birth are correlated in DNA methylation.

Published

2017