Department of Obstetrics and Gynaecology
Epigenetics is an exciting and rapidly moving field that impacts basic biomedical research and clinical medicine. Epigenetic mechanisms such as DNA methylation, histone modifications and non-coding RNAs provide dynamic, heritable and reversible ways of modulating genome function. They affect a number of processes such as chromosome architecture, chromatin function and gene expression.
We are interested in understanding how epigenetic mechanisms regulate gene activity and how they respond to environmental cues (e.g. nutrition), with a focus on imprinted genes and developmental pathways that link growth with metabolic function.
The work in the lab is divided into two related areas:
1- Genomic imprinting and fetal growth.
2- Epigenetics and gene-environment interactions
Our work is funded by the BBSRC and MRC.
Mikaelsson MK, Constância M, Dent C, Wilkinson LS & Humby T. (2013). Placental programming of anxiety in adulthood revealed by Igf2-null models. Nat Commun, 4:2311. PMID: 23921428.
Sferruzzi-Perri AN, Vaughan OR, Haro M, Cooper WN, Musial B, Charalambous M, Pestana D, Ayyar S, Ferguson-Smith AC, Burton GJ, Constância M & Fowden AL. (2013). An obesogenic diet during mouse pregnancy modifies maternal nutrient portioning and the fetal growth trajectory. FASEB J, 27:3928. PMID: 23825226.
Sandovici I, Hammerle CM, Ozanne SE & Constância M. (2013). Developmental and environmental epigenetic programming of the endocrine pancreas: consequences for type 2 diabetes. Cell Mol Life Sci, 70:1575-95. PMID: 23463236.
Sandovici I, Hoelle K, Angiolini E & Constância M. (2012). Placental adaptations to the maternal-fetal environment: implications for fetal growth and developmental programming. Reprod Biomed Online, 25(1):68-89. PMID: 22560117.
Haley VL, Barnes DJ, Sandovici I, Constância M, Graham CF, Pezzella F, Buhnemann C, Carter EJ & Hassan AB (2012). Igf2 pathway dependency of the Trp53 developmental and tumor phenotypes. EMBO Mol Med, 4(8):705-18. PMID: 22674894. PMCID: PMC3494071.
Khulan B, Cooper WN, Skinner B, Bauer J, Owens S, Prentice AM, Belteki G, Constância M, Dunger D & Affara NA. (2012). Periconceptional maternal micronutrient supplementation is associated with widespread gender related changes in the epigenome: a study of a unique resource in the Gambia. Hum Mol Genet, 21(9):2086-101. PMID: 22307237.
Cooper WN, Khulan B, Owens S, Elks CE, Seidel V, Prentice AM, Belteki G, Ong KK, Affara NA, Constância M, & Dunger DB. (2012). DNA methylation profiling at imprinted loci after periconceptional micronutrient supplementation in humans: results of a pilot randomized controlled trial. FASEB J, 26(5):1782-90. PMID: 22267336.
Ozanne S, Sandovici I & Constância M. (2011). Maternal diet, aging and diabetes meet at a chromatin loop. Aging (Albany NY), 3(5):548-54. PMID: 21623004. PMCID: PMC3156605.
Sandovici I*, Smith NH*, Dekker-Nitert M, Ackers-Johnson M, Uribe-Lewis S, Ito Y, Jones RH, Marquez VE, Cairns WJ, Tadayyon M, O’Neill LP, Murrell A, Ling C, Constância M* & Ozanne S*. (2011). Maternal diet and aging alter the epigenetic control of a promoter-enhancer interaction at Hnf4a gene in rat pancreatic islets. Proc Natl. Acad Sci USA, 108(13):5449-54. PMID: 21385945. PMCID: PMC3069181.
Sferruzzi-Perri AN, Vaughan OR, Coan PM, Suciu MC, Darbyshire R, Constância M, Burton GJ & Fowden AL. (2011). Placental-specific Igf2 deficiency alters developmental adaptations to undernutrition in mice. Endocrinology, 152(8):3202-12. PMID: 21673101.
Angiolini E, Coan P, Sandovici I, Iwajomo OH, Peck G, Burton GJ, Sibley CP, Reik W, Fowden AL & Constância M. (2011). Developmental adaptations to increased fetal nutrient demand in mouse genetic models of Igf2-mediated overgrowth. FASEB J, 25(5):1737-45. PMID: 21282203.
Petry CJ, Evans ML, Wingate DL, Ong KK, Reik, W, Constância M & Dunger BD. (2010). Raised late pregnancy glucose concentrations in mice carrying pups with targeted disruption of H19 delta 13. Diabetes, 59(1):282-6. PMID: 19794064. PMCID: PMC2797934.
Dilworth M, Kusinski L, Cowley E, Ward S, Husain S, Constância M, Sibley C & Glazier J (2010). Placental-specific Igf2 knockout mice exhibit hypocalcemia and adaptive changes in placental calcium transport. Proc Natl, Proc Natl Acad Sci USA, 107(8):3894-9. PMID: 20133672. PMCID: PMC2840526.
Ozanne S & Constância M. (2007). Mechanisms of Disease: The developmental origins of disease and the role of the epigenotype. Nat Clin Pract Endo & Met, 3(7):539-546. PMID: 17581623.
Constância M, Angiolini E, Sandovici I, Smith P, Smith R, Kelsey G, Dean W, Ferguson-Smith A, Sibley CP, Reik W & Fowden A. (2005). Adaptation of nutrient supply to fetal demand in the mouse involves interaction between the Igf2 gene and placental transporter systems. Proc Natl Acad Sci USA, 102(52):19219-24. PMID: 16365304. PMCID: PMC1316882.
Constância M, Kelsey G & Reik W. (2004). Resourceful Imprinting. Nature, 432(7013):53-7. PMID: 15525980.
Sibley CP, Coan PM, Ferguson-Smith AC, Dean W, Hughes J, Smith P, Reik W, Burton GJ, Fowden AL & Constância M (2004) Placental-specific Insulin-like growth factor 2 (Igf2) regulates the diffusional exchange characteristics of the mouse placenta. Proc Natl Acad Sci USA, 101(21):8204-8. PMID: 15150410. PMCID: PMC419581
Constância M, Hemberger M, Hughes J, Dean W, Ferguson-Smith A, Fundele R, Stewart F, Kelsey G, Fowden A, Sibley C & Reik W. (2002). Placental Igf2 is a major modulator of fetal growth. Nature, 417(6892):945-948. PMID: 12087403.