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Nick Martin and the Genetics of Depression: Sample Size, Sample Size, Sample Size

Published online by Cambridge University Press:  08 May 2020

Enda M. Byrne ,
Anjali K. Henders ,
Ian B. Hickie ,
Christel M. Middeldorp  and
Naomi R. Wray
Enda M. Byrne
Affiliation:
Institute for Molecular Bioscience, University of Queensland, Brisbane, Australia
Anjali K. Henders
Affiliation:
Institute for Molecular Bioscience, University of Queensland, Brisbane, Australia
Ian B. Hickie
Affiliation:
Brain and Mind Centre, Faculty of Medicine and Health, University of Sydney Central Clinical School, Sydney, Australia
Christel M. Middeldorp
Affiliation:
Child Health Research Centre, University of Queensland, Brisbane, Australia Child and Youth Mental Health Service, Children’s Health Queensland Hospital and Health Service, Brisbane, Australia Vrije Universiteit, Amsterdam, The Netherlands
Naomi R. Wray*
Affiliation:
Institute for Molecular Bioscience, University of Queensland, Brisbane, Australia Queensland Brain Institute, University of Queensland, Brisbane, Australia
*
Author for correspondence: Naomi Wray, Email: naomi.wray@uq.edu.au

Abstract

Nick Martin is a pioneer in recognizing the need for large sample size to study the complex, heterogeneous and polygenic disorders of common mental disorders. In the predigital era, questionnaires were mailed to thousands of twin pairs around Australia. Always quick to adopt new technology, Nick’s studies progressed to phone interviews and then online. Moreover, Nick was early to recognize the value of collecting DNA samples. As genotyping technologies improved over the years, these twin and family cohorts were used for linkage, candidate gene and genome-wide association studies. These cohorts have underpinned many analyses to disentangle the complex web of genetic and lifestyle factors associated with mental health. With characteristic foresight, Nick is chief investigator of our Australian Genetics of Depression Study, which has recruited 16,000 people with self-reported depression (plus DNA samples) over a time frame of a few months — analyses are currently ongoing. The mantra of sample size, sample size, sample size has guided Nick’s research over the last 30 years and continues to do so.

Keywords

Major depressive disordergenome-wide association studytwin study
Type
Articles
Information
Twin Research and Human Genetics , Volume 23 , Special Issue 2: Festschrift for Nick Martin on the occasion of his 70th birthday , April 2020 , pp. 109 - 111
Copyright
© The Author(s) 2020

Major depressive disorder is common, affecting 10% of men and 20% of women in their lifetime. Its etiology is heterogeneous, with both genetic and nongenetic risk factors. With this level of complexity, most studies of the genetics of depression call for collection of larger sample size. Nick Martin was early to recognize this, and more to the point, to do something about it. As early as 1984, he published on 3810 twin pairs (Jardine et al., Reference Jardine, Martin and Henderson1984), when prior to this, the largest published sample size for these traits was 587 twin pairs (Jardine et al., Reference Jardine, Martin and Henderson1984). This sample size was a massive feat in the predigital era. Nick implemented standardized interviews (the famous 1981 white, 1989 green, 1991 yellow booklets), and his success might be attributed to his attention to detail and the personal touch — hand-written birthday cards, prints of flowers by his mother Beryl Martin, an acclaimed water color artist, and always posted with a proper stamp not a postmark! In designing these questionnaires, he recognized the value of recording quantitative measures of depression-related traits, such as anxiety and depression symptoms and neuroticism. Quick to adopt study designs that give best bang for buck, one study for depression and anxiety used a clinical phone interview of 2470 twins selected for their extreme scores for neuroticism in order to increase statistical power for a linkage study (Kirk et al., Reference Kirk, Birley, Statham, Haddon, Lake, Andrews and Martin2000). Given the need for an even larger sample, these data were combined with similar measures obtained in Dutch twins. Nick generously provided me (CMM) with the opportunity to come to Brisbane and analyze those data (Middeldorp et al., Reference Middeldorp, Birley, Cath, Gillespie, Willemsen, Statham and Boomsma2005; Middeldorp et al., Reference Middeldorp, Sullivan, Wray, Hottenga, de Geus, van den Berg and Martin2009; Middeldorp et al., Reference Middeldorp, Wray, Andrews, Martin and Boomsma2006). By the time I (NRW) joined the group at the Queensland Institute of Medical Research (QIMR) in 2005, there were 12,772 twin pairs from 5000 families, with up to four longitudinal measures of neuroticism (Lake et al., Reference Lake, Eaves, Maes, Heath and Martin2000; Wray et al., Reference Wray, Birley, Sullivan, Visscher and Martin2007; Wray, Middeldorp et al., Reference Wray, Middeldorp, Birley, Gordon, Sullivan, Visscher and Boomsma2008). These data provided many important research contributions beyond the traditional variance component modelling: (1) genetic contribution to variation between people in neuroticism and depression symptoms was far more important than the shared environmental factors (Lake et al., Reference Lake, Eaves, Maes, Heath and Martin2000; Middeldorp et al., Reference Middeldorp, Birley, Cath, Gillespie, Willemsen, Statham and Boomsma2005); (2) despite differences between the sexes in prevalence of depression, the genetic factors are mostly shared (Middeldorp et al., Reference Middeldorp, Wray, Andrews, Martin and Boomsma2006); (3) that the association between childhood sexual abuse and psychopathology arises at least in part through the influence of shared familial factors on both risk of victimization and risk of psychopathology (Dinwiddie et al., Reference Dinwiddie, Heath, Dunne, Bucholz, Madden, Slutske and Martin2000); (4) the relationship between postpartum and lifetime depression (Treloar et al., Reference Treloar, Martin, Bucholz, Madden and Heath1999). Nick was never one to steer away from difficult or thorny problems, such as the complex relationship between marital problems and depressive symptoms (Beam et al., Reference Beam, Horn, Hunt, Emery, Turkheimer and Martin2011), nicely put in this way:

The study of marital relationships and depression is not unlike a game of cat’s cradle: an interactive two-person game that can produce multiple outcomes, many tied up in a frustrating knot. However, behavior genetic studies disentangle one substantial knot — the realistic possibility that genetic and environmental selection account for part of the association between marital problems and depressive symptoms…. This is because twin analyses control for measured and unmeasured genetic selection into having an unhappy marriage or feeling depressed. (p. 342)

They showed that poor marital support is associated with depressive symptoms after accounting for the genetic factors that contribute to the cat’s cradle. Nick’s foresight in collection of endophenotypes and subtypes of depression such as postpartum depression (Byrne, Carrillo-Roa et al., Reference Byrne, Carrillo-Roa, Penninx, Sallis, Viktorin, Chapman and Wray2014), seasonal affective disorder (Byrne et al., Reference Byrne, Raheja, Stephens, Heath, Madden and Postolache2015) and insomnia (Byrne et al., Reference Byrne, Gehrman, Medland, Nyholt, Heath, Madden and Chronogen2013; Byrne, Heath et al., Reference Byrne, Heath, Madden, Pergadia, Hickie, Montgomery and Wray2014) which has proven fertile ground for me (EMB) to dissect the heterogeneity of depression.

Not surprisingly, these bold and evidence-based well-powered studies earned Nick a well-deserved international reputation and a high citation index. It was a realization that the most highly cited researcher in psychiatry was a geneticist (and very generous and inquisitive colleague) led me (IBH) to establish a now 20-year collaboration through the Brisbane Adolescent and Twin Study (Wright & Martin, Reference Wright and Martin2004). Our shared passion for the importance of longitudinal data over this critical developmental period is a healthy population. Adolescents aged 12–14 years were recruited over the period 1992–2016 (N~3800 with personality data), with up to five waves of data collection (Couvy-Duchesne et al., Reference Couvy-Duchesne, O’Callaghan, Parker, Mills, Kirk, Scott and Gillespie2018), with our report on the 25Up (25 years and older) study just published (Mitchell et al., Reference Mitchell, Campos, Renteria, Parker, Sullivan, McAloney and Hickie2019).

Nick has always been ahead of the times, first in data collection in twin studies and then in establishing a wet lab in collaboration with Grant Montgomery for generating the genotype data for linkage studies (Middeldorp et al., Reference Middeldorp, Sullivan, Wray, Hottenga, de Geus, van den Berg and Martin2009; Wray, Middeldorp et al., Reference Wray, Middeldorp, Birley, Gordon, Sullivan, Visscher and Boomsma2008) and candidate gene studies (Wray, James et al., Reference Wray, James, Dumenil, Handoko, Lind, Montgomery and Martin2008; Wray, James et al., Reference Wray, James, Mah, Nelson, Andrews, Sullivan and Martin2007). Of course, with the benefit of hindsight, we now understand why these studies failed (the traits are highly polygenic), but still an important stepping stone to where we are today. Next, came the genome-wide association studies (GWAS) and Nick’s QIMR samples contributed to one of the first consortium studies, the MDD2000+ study, so named because of the goal to achieve a sample of 2000 cases (Wray et al., Reference Wray, Pergadia, Blackwood, Penninx, Gordon, Nyholt and Sullivan2012), still massive in 2010. Our (NRW and EB) careers were boosted significantly by our entry card into international consortia provided by the QIMR depression samples. In 10 short years from the MDD2000+, the international Psychiatric Genomics Consortium (PGC) has accumulated genomic data on >175 K depression cases (Howard et al., Reference Howard, Adams, Clarke, Hafferty, Gibson, Shirali and McIntosh2019). Recognizing the need for large single cohort data sets recorded not only for case–control status but with measures of a wide range of symptom, lifestyle, comorbid disorder and drug response data, Nick applied for and was awarded one of the largest NHMRC Project grants to date, AU$2.5 for the Australian Genetics of Depression Study (AGDS; NRW, IBH and EMB are all coinvestigators). Nick used the skills well-learned in recruitment of twin cohorts to generate a new approach of direct-to-consumer case cohort collection, with the strong belief that individuals are well capable of self-reporting and indeed can report over a longer period of time than can be achievable in clinical cohorts. After small pilot trials (do not run before you can walk), over 15,000 people completed the online surveys and provided a DNA sample in a 6-month campaign that heavily used radio and TV interviews and social media (yes NGM is a very presentable media tart). The resulting data are rich, and the first publications (Byrne et al., Reference Byrne, Kirk, Medland, McGrath, Parker, Cross and Martin2019) are starting to come out. The UK GLAD (Genetics Links to Anxiety and Depression) study was modeled on AGDS and recruited 40,000 cases of anxiety/depression (Davies et al., Reference Davies, Kalsi, Armour, Jones, McIntosh, Smith and Breen2019), providing useful reciprocal replication data.

Nick is well known for the welcome provided to new recruits and visitors, both scientifically and socially. It is because of him that many working in the field of quantitative and psychiatric genetics are proud to call Brisbane, Australia, home (NRW, EB and CM all moved countries to work here). In the month before his 70th birthday, Nick Martin started his NHMRC Leadership 3 Fellowship, and he is fired up for 5 more years of data collection and new research results. Over his career, Nick has had an uncanny talent for collecting world-recognized data sets that seem to have grown exponentially over time and are able to answer increasingly complex problems. In recognizing sample, sample, sample size, particularly when it comes to genetic studies of depression, we wait with anticipation what this new funding will bring.

References

Beam, C. R., Horn, E. E., Hunt, S. K., Emery, R. E., Turkheimer, E., & Martin, N. (2011). Revisiting the effect of marital support on depressive symptoms in mothers and fathers: A genetically informed study. Journal of Family Psychology, 25, 336344.10.1037/a0023758CrossRefGoogle ScholarPubMed
Byrne, E. M., Carrillo-Roa, T., Penninx, B. W., Sallis, H. M., Viktorin, A., Chapman, B., … Wray, N. R. (2014). Applying polygenic risk scores to postpartum depression. Archives of Women Mental Health, 17, 519528.10.1007/s00737-014-0428-5CrossRefGoogle ScholarPubMed
Byrne, E. M., Gehrman, P. R., Medland, S. E., Nyholt, D. R., Heath, A. C., Madden, P. A., … Chronogen, C. (2013). A genome-wide association study of sleep habits and insomnia. American Journal of Medical Genetics, 162B, 439451.Google ScholarPubMed
Byrne, E. M., Heath, A. C., Madden, P. A., Pergadia, M. L., Hickie, I. B., Montgomery, G. W., … Wray, N. R. (2014). Testing the role of circadian genes in conferring risk for psychiatric disorders. American Journal of Medical Genetics, 165B, 254260.Google ScholarPubMed
Byrne, E. M., Kirk, K. M., Medland, S. E., McGrath, J. J., Parker, R., Cross, S., … Martin, N. G. (2019). The Australian Genetics of Depression Study: Study Description and Sample Characteristics. bioRxiv.Google Scholar
Byrne, E. M., Psychiatric Genetics Consortium Major Depressive Disorder Working Group, Raheja, U. K., Stephens, S. H., Heath, A. C., Madden, P. A., … Postolache, T. T. (2015). Seasonality shows evidence for polygenic architecture and genetic correlation with schizophrenia and bipolar disorder. Journal of Clinical Psychiatry, 76, 128134.10.4088/JCP.14m08981CrossRefGoogle ScholarPubMed
Couvy-Duchesne, B., O’Callaghan, V., Parker, R., Mills, N., Kirk, K. M., Scott, J., … Gillespie, N. A. (2018). Nineteen and Up study (19Up): Understanding pathways to mental health disorders in young Australian twins. BMJ Open, 8, e018959.10.1136/bmjopen-2017-018959CrossRefGoogle ScholarPubMed
Davies, M. R., Kalsi, G., Armour, C., Jones, I. R., McIntosh, A. M., Smith, D. J., … Breen, G. (2019). The Genetic Links to Anxiety and Depression (GLAD) Study: Online recruitment into the largest recontactable study of depression and anxiety. Behaviour Research and Therapy, 123, 103503.10.1016/j.brat.2019.103503CrossRefGoogle ScholarPubMed
Dinwiddie, S., Heath, A. C., Dunne, M. P., Bucholz, K. K., Madden, P. A., Slutske, W. S., … Martin, N. G. (2000). Early sexual abuse and lifetime psychopathology: A co-twin-control study. Psychological Medicine, 30, 4152.10.1017/S0033291799001373CrossRefGoogle ScholarPubMed
Howard, D. M., Adams, M. J., Clarke, T. K., Hafferty, J. D., Gibson, J., Shirali, M., … McIntosh, A. M. (2019). Genome-wide meta-analysis of depression identifies 102 independent variants and highlights the importance of the prefrontal brain regions. Nature Neuroscience, 22, 343352.10.1038/s41593-018-0326-7CrossRefGoogle ScholarPubMed
Jardine, R., Martin, N. G., & Henderson, A. S. (1984). Genetic covariation between neuroticism and symptoms of anxiety and depression. Genetic Epidemiology, 1, 89107.10.1002/gepi.1370010202CrossRefGoogle ScholarPubMed
Kirk, K. M., Birley, A. J., Statham, D. J., Haddon, B., Lake, R. I., Andrews, J. G., & Martin, N. G. (2000). Anxiety and depression in twin and sib pairs extremely discordant and concordant for neuroticism: Prodromus to a linkage study. Twin Research, 3, 299309.10.1375/136905200320565274CrossRefGoogle ScholarPubMed
Lake, R. I., Eaves, L. J., Maes, H. H., Heath, A. C., & Martin, N. G. (2000). Further evidence against the environmental transmission of individual differences in neuroticism from a collaborative study of 45,850 twins and relatives on two continents. Behavior Genetics, 30, 223233.10.1023/A:1001918408984CrossRefGoogle ScholarPubMed
Middeldorp, C. M., Birley, A. J., Cath, D. C., Gillespie, N. A., Willemsen, G., Statham, D. J., … Boomsma, D. I. (2005). Familial clustering of major depression and anxiety disorders in Australian and Dutch twins and siblings. Twin Research and Human Genetics, 8, 609615.CrossRefGoogle ScholarPubMed
Middeldorp, C. M., Sullivan, P. F., Wray, N. R., Hottenga, J. J., de Geus, E. J., van den Berg, M., … Martin, N. G. (2009). Suggestive linkage on chromosome 2, 8, and 17 for lifetime major depression. American Journal of Medical Genetics, 150B, 352358.Google ScholarPubMed
Middeldorp, C. M., Wray, N. R., Andrews, G., Martin, N. G., & Boomsma, D. I. (2006). Sex differences in symptoms of depression in unrelated individuals and opposite-sex twin and sibling pairs. Twin Research and Human Genetics, 9, 632636.10.1375/twin.9.5.632CrossRefGoogle ScholarPubMed
Mitchell, B. L., Campos, A. I., Renteria, M. E., Parker, R., Sullivan, L., McAloney, K., … Hickie, I. B. (2019). Twenty-Five and Up (25Up) Study: A new wave of the Brisbane Longitudinal Twin Study. Twin Research and Human Genetics, 22, 154163.10.1017/thg.2019.27CrossRefGoogle ScholarPubMed
Treloar, S. A., Martin, N. G., Bucholz, K. K., Madden, P. A., & Heath, A. C. (1999). Genetic influences on post-natal depressive symptoms: Findings from an Australian twin sample. Psychological Medicine, 29, 645654.CrossRefGoogle ScholarPubMed
Wray, N. R., Birley, A. J., Sullivan, P. F., Visscher, P. M., & Martin, N. G. (2007). Genetic and phenotypic stability of measures of neuroticism over 22 years. Twin Research and Human Genetics, 10, 695702.CrossRefGoogle ScholarPubMed
Wray, N. R., James, M. R., Dumenil, T., Handoko, H. Y., Lind, P. A., Montgomery, G. W., & Martin, N. G. (2008). Association study of candidate variants of COMT with neuroticism, anxiety and depression. American Journal of Medical Genetics, 147B, 13141318.Google ScholarPubMed
Wray, N. R., James, M. R., Mah, S. P., Nelson, M., Andrews, G., Sullivan, P. F., … Martin, N. G. (2007). Anxiety and comorbid measures associated with PLXNA2. Archives of General Psychiatry, 64, 318326.CrossRefGoogle ScholarPubMed
Wray, N. R., Middeldorp, C. M., Birley, A. J., Gordon, S. D., Sullivan, P. F., Visscher, P. M., … Boomsma, D. I. (2008). Genome-wide linkage analysis of multiple measures of neuroticism of 2 large cohorts from Australia and the Netherlands. Archives of General Psychiatry, 65, 649658.10.1001/archpsyc.65.6.649CrossRefGoogle ScholarPubMed
Wray, N. R., Pergadia, M. L., Blackwood, D. H., Penninx, B. W., Gordon, S. D., Nyholt, D. R., … Sullivan, P. F. (2012). Genome-wide association study of major depressive disorder: New results, meta-analysis, and lessons learned. Molecular Psychiatry, 17, 3648.10.1038/mp.2010.109CrossRefGoogle ScholarPubMed
Wright, M. J., & Martin, N. G. (2004). Brisbane adolescent twin study: Outline of study methods and research projects. Australian Journal of Psychology, 56, 6578.CrossRefGoogle Scholar