Genetics Meets Environment: Evaluating Gene–Environment Interactions in Neurologic Diseases

Connie Marras; Samuel M. Goldman

doi:10.1055/s-0031-1299793

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Semin Neurol 2011; 31(5): 553-562
DOI: 10.1055/s-0031-1299793

Genetics Meets Environment: Evaluating Gene–Environment Interactions in Neurologic Diseases

Connie Marras¹ , Samuel M. Goldman²

¹Toronto Western Hospital, University of Toronto, Ontario, Canada
²The Parkinson's Institute, Sunnyvale, California

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Publication Date:
21 January 2012 (online)

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ABSTRACT

The vast majority of disease is due to complex relationships between genetic and environmental factors. Single genetic or environmental causes are rare. Unfortunately, this presents major challenges for assessing disease risk in individuals. Further complicating the situation is the fact that there are many ways in which genetic and environmental determinants can combine to cause disease. This review explores the concepts of gene–environment interaction to provide a basic understanding of the principles of interactions and approaches to studying them. Collaborations between genetics and environmental experts will be crucial to understand the complex relationships.

KEYWORDS

Genetics - environment - gene–environment interaction

REFERENCES

1 Lin Y, Sun Z. Current views on type 2 diabetes. J Endocrinol. 2010; 204 (1) 1-11

MissingFormLabel

Search in Google Scholar
2 Nalls M A, Plagnol V, Hernandez D G International Parkinson Disease Genomics Consortium et al. Imputation of sequence variants for identification of genetic risks for Parkinson's disease: a meta-analysis of genome-wide association studies. Lancet. 2011; 377 (9766) 641-649

MissingFormLabel

Search in Google Scholar
3 van Dellen A, Grote H E, Hannan A J. Gene-environment interactions, neuronal dysfunction and pathological plasticity in Huntington's disease. Clin Exp Pharmacol Physiol. 2005; 32 (12) 1007-1019

MissingFormLabel

Search in Google Scholar
4 Wexler N S, Lorimer J, Porter J U.S.-Venezuela Collaborative Research Project et al. Venezuelan kindreds reveal that genetic and environmental factors modulate Huntington's disease age of onset. Proc Natl Acad Sci U S A. 2004; 101 (10) 3498-3503

MissingFormLabel

Search in Google Scholar
5 Collaco J M, Vanscoy L, Bremer L et al.. Interactions between secondhand smoke and genes that affect cystic fibrosis lung disease. JAMA. 2008; 299 (4) 417-424

MissingFormLabel

Search in Google Scholar
6 Rothman K J, Greenland S. Causation and causal inference in epidemiology. Am J Public Health. 2005; 95 (Suppl 1) S144-S150

MissingFormLabel

Search in Google Scholar
7 Ottman R. Gene-environment interaction: definitions and study designs. Prev Med. 1996; 25 (6) 764-770

MissingFormLabel

Search in Google Scholar
8 Pearce N. Analytical implications of epidemiological concepts of interaction. Int J Epidemiol. 1989; 18 (4) 976-980

MissingFormLabel

Search in Google Scholar
9 Hwang S J, Beaty T H, Liang K Y, Coresh J, Khoury M J. Minimum sample size estimation to detect gene-environment interaction in case-control designs. Am J Epidemiol. 1994; 140 (11) 1029-1037

MissingFormLabel

Search in Google Scholar
10 Kauffmann F, Nadif R. Candidate gene-environment interactions. J Epidemiol Community Health. 2010; 64 (3) 188-189

MissingFormLabel

Search in Google Scholar
11 Horowitz M P, Greenamyre J T. Gene-environment interactions in Parkinson's disease: the importance of animal modeling. Clin Pharmacol Ther. 2010; 88 (4) 467-474

MissingFormLabel

Search in Google Scholar
12 Migliore L, Coppedè F. Genetics, environmental factors and the emerging role of epigenetics in neurodegenerative diseases. Mutat Res. 2009; 667 (1-2) 82-97

MissingFormLabel

Search in Google Scholar
13 Petronis A. Epigenetics as a unifying principle in the aetiology of complex traits and diseases. Nature. 2010; 465 (7299) 721-727

MissingFormLabel

Search in Google Scholar
14 Abel J, Haarmann-Stemmann T. An introduction to the molecular basics of aryl hydrocarbon receptor biology. Biol Chem. 2010; 391 (11) 1235-1248

MissingFormLabel

Search in Google Scholar
15 Goldman S M, Kamel F, Ross G W et al.. Head injury, alpha-synuclein Rep1 and Parkinson's disease. Ann Neurol. 2011; In press

MissingFormLabel

Search in Google Scholar
16 Ramagopalan S V, Dobson R, Meier U C, Giovannoni G. Multiple sclerosis: risk factors, prodromes, and potential causal pathways. Lancet Neurol. 2010; 9 (7) 727-739

MissingFormLabel

Search in Google Scholar
17 Holick M F. Vitamin D deficiency. N Engl J Med. 2007; 357 (3) 266-281

MissingFormLabel

Search in Google Scholar
18 Simon K C, Munger K L, Xing Yang , Ascherio A. Polymorphisms in vitamin D metabolism related genes and risk of multiple sclerosis. Mult Scler. 2010; 16 (2) 133-138

MissingFormLabel

Search in Google Scholar
19 Cornelis M C, Agrawal A, Cole J W GENEVA Consortium et al. The Gene, Environment Association Studies consortium (GENEVA): maximizing the knowledge obtained from GWAS by collaboration across studies of multiple conditions. Genet Epidemiol. 2010; 34 (4) 364-372

MissingFormLabel

Search in Google Scholar

Connie MarrasM.D. Ph.D.

Movement Disorders Centre, Toronto Western Hospital

399 Bathurst St.Toronto, ON M5T 2S8

Email: cmarras@uhnresearch.ca