Does CGG Repeat Length Relate to Psychological Symptoms?

CGGAGGA new study reveals that increasing CGG repeat length in the premutation range (55-200 repeats) doesn’t necessarily put one at increasing risk of psychiatric disorders — the relationship is more complex.

The study by Danuta Z. Loesch, MD, PhD and colleagues represents a collaboration between medical centers and universities in Australia and the U.S. A total of 117 women aged 18-79 in Australia and 182 women aged 19-86 in the U.S. identified through their family trees participated in the study.

These women completed a questionnaire called the Symptom Checklist-90-Revised (SCL-90-R), which is designed to assess a broad range of psychological problems across nine primary domains (for example, depression, anxiety, obsessive-compulsive). The authors summed scores across these domains (“partial scores”) to produce a “global” score as well.

They found that increasing CGG repeat length was associated with lower scores (fewer symptoms), for most of the global and partial scores. Notably, there was not a steady downward trend with increasing CGG repeat length — the relationship was strongest for those with 80-100 CGG repeats.

This suggests that those with
mid-size repeat lengths may
be most at risk for developing
a psychiatric disorder.
This suggests that those with mid-size repeat lengths may be most at risk for developing a psychiatric disorder. This doesn’t mean that women with that repeat size should be particularly alarmed — the effect is only moderate in size, such that only 10 percent of participants had scores high enough to be clinically relevant. Because of this, it’s not likely the case that the premutation allele is the sole cause of psychiatric disorder. Rather, a more plausible interpretation is that the premutation allele may make one more sensitive to major life stressors that can trigger depression, anxiety, or other psychological problems.

So CGG repeat length is non-linearly related to psychology. What about biology? The premutation allele can put women at risk for early menopause, so the authors examined the 110 post-menopausal women in the sample, and noted the age at which menopause began.

They found that there is a non-linear relationship between menopausal age and CGG repeat length, such that women with 60-80 CGG repeats displayed the largest decrease in menopausal age. This by no means indicates that women with this repeat size have the youngest menopausal age. Rather, this indicates that biological symptoms, like psychological symptoms, appear to exhibit complex relationships with CGG repeat length.

This will have practical
implications on how
researchers test for
relationships between CGG
repeat length and function.
This study is significant because it exemplifies a growing collection of research that the effect of the premutation allele on biological and psychological function may be non-linear, and thus more nuanced than we originally thought. This will have practical implications on how researchers test for relationships between CGG repeat length and function. It may also explain some discrepant results across studies — for example, an effect observed in one study but not another may be due to differences in CGG repeat length of the sample of people tested.

A strength of this study was the multi-site design across two countries. After controlling for age and verbal intelligence, the two cohorts did not differ. Interestingly, nearly 15 percent of the U.S. sample had , while zero percent of the Australian sample did, and the authors noted that this discrepancy has been previously observed, yet is currently unexplained.

The U.S. sample did have a higher mean CGG repeat length than the Australian sample (91 vs. 84). This suggests that pooling data across international sites is a promising way of expanding the range of CGG repeats in a sample, which will make it easier to examine the effects of CGG repeat length on function.

In short, this study highlights the complex effects of CGG repeat length, and exemplifies the power of large-scale collaborations.

[expand trigclass=”ew-expand” title=”Source”]Loesch, D. Z., Bui, M. Q., Hammersley, E., Schneider, A., Storey, E., Stimpson, P., Burgess, T., Francis, D., Slater, H., Tassone, F., et al. (2014). Psychological status in female carriers of premutation FMR1 allele showing a complex relationship with the size of CGG expansion. Clinical Genetics [Published online ahead of print]. doi:10.1111/cge.12347.[/expand]

Author

Ling Wong, PhDLing Wong, PhD
is a post-doctoral fellow at the Veterans Affairs Medical Center in Washington, D.C., studying mental health in veterans with post-traumatic stress disorder (PTSD) or schizophrenia. She received a B.S. from Brown University in Human Biology: Brain & Behavior, and her doctorate in Neuroscience from the University of California, Davis. At the MIND Institute, she studied attention, memory, and executive function in children and adults affected by genetic disorders, including Fragile X syndrome and Chromosome 22q11.2 Deletion Syndrome.

Dr. Wong has been conducting biomedical research for ten years. Her research experience includes eye-tracking, structural and functional magnetic resonance imaging (MRI), electroencephalography and event-related potentials (EEG/ERP), cognitive testing, neuropsychological assessment, clinical trials, and behavioral intervention trials, as well as animal models and bacterial genetics. Her goal is to enhance the impact of scientific research on society through her passions for science policy, advocacy, and outreach.