Genetic Modifiers of Caffeine Consumption and Risk of Myocardial Infarction

Da Costa, Laura Anne

23 August 2011

The variability in caffeine consumption and inconsistencies among studies linking caffeine to heart disease may be explained by genetic variation. Caffeine antagonizes adenosine receptors with downstream effects on dopamine and serotonin. The objectives of this thesis were to determine whether the DRD2 957C>T or HTR2A 102C>T polymorphisms are associated with caffeine consumption or modify the association between coffee consumption and risk of myocardial infarction (MI). DRD2 genotype was associated with caffeine consumption among non-smokers and CYP1A2 -163C allele carriers. HTR2A genotype was associated with caffeine consumption among non-smokers and subjects with the ADORA2A TT genotype. Neither polymorphism modified the association between coffee consumption and risk of MI; however, a significant coffee x HTR2A interaction was seen among subjects with the CYP1A2 -163C allele. The results suggest caffeine’s reinforcing effects may be mediated by the dopamine and serotonin receptors and implicate serotonin in caffeine’s effect on risk of MI.

Caffeine

Gene-Environment Interaction

Myocardial Infarction

Coffee

HTR2A

DRD2

Serotonin Receptor 2A

Dopamine D2 Receptor

Polymorphism

0570

0766

0369

Genetic Modifiers of Caffeine Consumption and Risk of Myocardial Infarction

Da Costa, Laura Anne

23 August 2011

The variability in caffeine consumption and inconsistencies among studies linking caffeine to heart disease may be explained by genetic variation. Caffeine antagonizes adenosine receptors with downstream effects on dopamine and serotonin. The objectives of this thesis were to determine whether the DRD2 957C>T or HTR2A 102C>T polymorphisms are associated with caffeine consumption or modify the association between coffee consumption and risk of myocardial infarction (MI). DRD2 genotype was associated with caffeine consumption among non-smokers and CYP1A2 -163C allele carriers. HTR2A genotype was associated with caffeine consumption among non-smokers and subjects with the ADORA2A TT genotype. Neither polymorphism modified the association between coffee consumption and risk of MI; however, a significant coffee x HTR2A interaction was seen among subjects with the CYP1A2 -163C allele. The results suggest caffeine’s reinforcing effects may be mediated by the dopamine and serotonin receptors and implicate serotonin in caffeine’s effect on risk of MI.

Caffeine

Gene-Environment Interaction

Myocardial Infarction

Coffee

HTR2A

DRD2

Serotonin Receptor 2A

Dopamine D2 Receptor

Polymorphism

0570

0766

0369

The neural correlates of perinatal OCD: An exploratory investigation into serotonin risk genes and cortical morphology

Mattina, Gabriella

January 2020

Introduction: Obsessive-compulsive disorder (OCD) is a complex disorder that is associated with significantly impaired functioning. The current prevailing model of OCD implicates dysfunction of the serotonergic neurotransmitter system and fronto-striatal neural networks, but challenges in replicating findings within OCD samples are often attributed to clinical heterogeneity. OCD symptoms that develop or worsen within the perinatal period appears to reflect a distinct subtype of the disorder, but the genetic and neurobiological factors that contributes to its presentation in women is poorly understood. In this dissertation, we aimed to review the literature on the genetic architecture of OCD, identify potential gene candidates for perinatal OCD and analyze one serotonin system gene according to OCD and possible subtypes using meta-analytic techniques. Based on these findings, we then tested the association of serotonergic candidate gene polymorphisms with the presence of infant-related obsessive-compulsive symptoms (OCS). Lastly, we investigated the cortical morphological features associated with perinatal OCD and OCS symptom severity in postpartum mothers. Results: From prior reports in the literature and our own meta-analytic investigation, polymorphic variants in genes coding for the serotonergic transporter and serotonin 2A receptor subtype (SLC6A4 and HTR2A, respectively) appear to be candidates for perinatal OCD due to their association in female samples. However, upon investigation in our perinatal sample (n=107), we found no evidence to support the association of the 5-HTTLPR polymorphism of SLC6A4 with perinatal-related OCS, but larger samples are needed to confirm this finding. Due to technical challenges, the HTR2A polymorphism remains to be tested. Our novel whole-brain explorations revealed distinct cortical morphology associated with symptom worsening across the perinatal period, irrespective of diagnosis. Cortical parameters were not able to differentiate mothers with and without OCD; however, OCD mothers displayed positive correlations between cortical surface area and symptom severity in widespread regions, including the frontal, parietal, temporal and occipital cortex. Conclusions: Overall, this body of work aimed to fill the gap in the literature by exploring the possible genetic and cortical correlates of perinatal-related OCS and OCD. While 5-HTTLPR or HTR2A are candidates for perinatal OCD, it is not yet clear whether they increase susceptibility for the development of infant-related OCS in the perinatal period. Distinct cortical alterations in surface area appeared alongside OCS exacerbation in the postpartum period in regions that extend beyond the frontoparietal network. This suggests that additional neural networks may be contributing to symptom severity and that the cortical plasticity that occurs across the perinatal period may predispose women for risk of OCD. Future studies should continue to use a multiple perspective approach, that utilizes genetic and neurobiological techniques, in order to provide greater insight into the etiology of perinatal OCD. / Dissertation / Doctor of Philosophy (PhD) / Women are at greater risk for the development of mental illness in the time surrounding pregnancy and postpartum, known as the perinatal period. In the case of perinatal obsessive-compulsive disorder (OCD), mothers may experience unique worries in regard to their parenting or fears that their baby may be harmed. While these worries are common, they can become disruptive when persistent and impact the mother’s mood and ability to bond with the infant. Our current understanding of OCD includes the influence of genetic factors and brain changes, but little is understood about what factors may increase risk for OCD in the perinatal period. In this thesis, we aimed to review whether certain alterations within DNA segments, known as gene variants, may be linked to the development of OCD in females and if these gene changes, as well as differences in brain structures in postpartum mothers, are associated with OCD symptoms during the perinatal period. The genes we examined are important for regulating a chemical signaling substance in the brain known as serotonin. Based on our results, we did not find a relationship between serotonin gene variants and OCD symptoms in perinatal women. We also found no differences when comparing the cortical brain structures between mothers with OCD and healthy mothers; however, we observed that measures of surface area across several cortical brain regions were related to symptom worsening from pregnancy to postpartum, and also with symptom severity in postpartum mothers with OCD. These results suggest that there are widespread brain changes during the postpartum period that may increase a mother’s risk for developing OCD. Overall, the work in this thesis provides the first glimpse into potential risk factors for perinatal OCD.

obsessive-compulsive disorder

perinatal period

sex differences

genetic association

serotonin transporter

serotonin receptor 2A

structural imaging

cortical morphology