Fearful Great Danes provide new insights to genetic causes of fear
by University of HelsinkiThe identified genomic region includes several candidate genes associated with brain development and function as well as anxiety, whose further analysis may reveal new neural mechanisms related to fear.
For the purposes of the study, carried out by Professor Hannes Lohi's research group and published in the Translational Psychiatry journal, data from a total of 120 Great Danes was collected. The Great Dane breed is among the largest dog breeds in the world.
The project was launched after a number of Great Dane owners approached the research group to tell them about their dogs' disturbing fearfulness towards unfamiliar human beings in particular.
"Fear in itself produces a natural and vital reaction, but excessive fear can be disturbing and results in behavioural disorders. Especially in the case of large dogs, strongly expressed fearfulness is often problematic, as it makes it more difficult to handle and control the dog," says Riika Sarviaho, PhD from the University of Helsinki.
In dogs, behavioural disorders associated with anxiety and fearfulness include generalised anxiety disorder and a range of phobias. Fear can be evidenced, for example, as the dog's attempt to flee from situations they experience as frightening. At its worst, fear can manifest as aggression, which may result in attacks against other dogs or humans.
"Previous studies have suggested that canine anxiety and fearfulness could correspond with anxiety disorder in humans. In fact, investigating fearfulness in dogs may also shed more light on human anxiety disorders and help understand their genetic background," Professor Lohi explains the broader goal of the study.
A new genomic region underlying fearfulness
The study utilised a citizen science approach as the dog owners contributed by completing a behavioural survey concerning their dogs, in which the dogs received scores according to the intensity of fear. Through genetic research, a genomic region associated with fearfulness was identified in chromosome 11. The analysis was repeated by taking into consideration the socialisation carried out in puppyhood, or the familiarisation of the dogs with new people, dogs and situations. The re-analysis reinforced the original finding.
"In the case of behavioural studies, it's important to keep in mind that, in addition to genes, the environment has a significant impact on the occurrence of specific traits. For dogs, the socialisation of puppies has been found to be an important environmental factor that strongly impacts fearfulness. In this study, the aim was to exclude the effect of puppyhood socialisation and, thus, observe solely the genetic predisposition to fearfulness," says Sarviaho.
The genomic region was studied in more detail also with the help of whole genome sequencing, but, so far, the researchers have not succeeded in identifying in it a specific gene variant that predisposes to fearfulness.
"Although no actual risk variant was identified, the genomic region itself is interesting, as it contains a number of genes previously associated in various study models with neural development and function, as well as anxiety. For example, the MAPK9 gene has been linked with brain development and synaptic plasticity as well as anxiety, while RACK1 has been associated with neural development and N4BP3 with neurological diseases," says Professor Lohi.
Link between accelerated puppyhood growth and timidity?
A genomic region in humans corresponding with the one now associated with canine fearfulness is linked to a rare syndrome, which causes both neurological symptoms and, among other things, accelerated growth in childhood.
"Research on the topic is only at the early stages and findings have to be carefully interpreted, but it's interesting to note, when focusing on a particularly large dog breed, that the genomic region associated with fearfulness appears to have a neurological role as well as one related to growth," Sarviaho adds.
So far, gene discoveries in canine behavioural research have remained fairly rare, and the genomic region now identified has not previously been linked with fearfulness. Lohi's research group has previously described two genomic regions associated with canine generalised fear and sensitivity to sound. The genetic research findings support the hypothesis that fearfulness and anxiety are inherited traits. To be able to identify more detailed risk factors and confirm the relevance of the findings, the study should be repeated with a more extensive dataset.
The research group headed by Hannes Lohi conducts research at the Faculties of Veterinary Medicine and Medicine, University of Helsinki, as well as the Folkhälsan Research Center. Among others, this study was supported by the European Research Council (260997 DOGPSYCH), the Academy of Finland (268019), the ERA-NET Neuron Mental Disorders programme, the Jane and Aatos Erkko Foundation, the Doctoral Programme in Integrative Life Sciences and the Doctoral Programme in Veterinary Medicine at the University of Helsinki, the Finnish Cultural Foundation, the Jenny and Antti Wihuri Foundation, the Ella and Georg Ehrnrooth Foundation, the Alfred Kordelin Foundation, the Folkhälsan Research Center and the University of Oulu.
Reference: Sarviaho R, Hakosalo O, Tiira K, Sulkama S, Niskanen JE, Hytönen MK, Sillanpää MJ, Lohi H. A novel genomic region on chromosome 11 associated with fearfulness in dogs. Translational Psychiatry, in press, 2020.
Contact details:
Professori Hannes Lohi, Helsingin yliopisto, hannes.lohi@helsinki.fi , 2941 25085
https://researchportal.helsinki.fi/fi/persons/hannes-lohi
Canine genetic studies -research group https://www.koirangeenit.fi/english/