Single gene controls fish brain size and intelligence
News Jun 24, 2015
A single gene called Angiopoietin-1 (Ang-1) drives brain size and intelligence in fish according to a new study by researchers at University College London (UCL), Stockholm University and University of Helsinki.
Fish with larger brains and higher intelligence had higher expression of Ang-1, and when expression levels of Ang-1 were experimentally reduced, brains shrunk. These trends were seen in two unrelated species of fish – guppies (Poecilia reticulata) and zebrafish (Danio rerio) – indicating expression of Ang-1 is important for brain growth and development in fish generally.
The study, published June 24 in Proceedings of the Royal Society B, identified the underlying genetics of natural variation in brain size and cognitive abilities in fish. Ang-1 could play an important role in the brain development of other vertebrates, including humans, but future research is required to establish this say the scientists involved.
Populations of guppies selected for either large or small brains, with associated differences in intelligence, were used for the first step in the study which was a complete genome analysis of differently expressed genes. There was a 10% difference in brain size between the large and small-brain guppies and from the genetic analysis, Ang-1 was identified as the only gene expressed at different levels in each replicate population. Further experiments in zebrafish by collaborator Professor Pertti Panula at Helsinki University confirmed that Ang-1 is a driver for brain size.
Professor Judith Mank, UCL Biosciences, said: “We were surprised to see that only a single gene was up-regulated in the large-brained guppies. Given the complexity of the brain, we expected that the genetics would be very intricate, but this suggests that changes in brain size are underpinned by relatively simple genetic mechanisms.”
The protein encoded by Ang-1 is known to play an important role in growing new blood vessels and forming new brain cells in mice, which may indicate an important role of Ang-1 in brain growth of other animals, even in humans, say the scientists behind the study.
Dr Niclas Kolm, Stockholm University, said: “Other genes may be involved in brain growth in young, developing fish but no other genes were found to vary in their expression in adult fish other than Ang-1. Future studies will aim to investigate the role of Ang-1 and possibly other genes in the formation of differently sized brains in developing embryos”.
Professor Mank added: “We don’t yet know if Ang-1 is important in human brain development – it isn’t on the list of genes typically studied in relation to human brain size – but as it plays a role in forming new blood vessels in humans, there may be a connection as large brains need a bigger blood supply, particularly during growth and for many brain functions. This presents us with an exciting opportunity to investigate the role of Ang-1 across different vertebrates.”
The team now plans to study the age-specific genetic architecture of both brain structure and function based on new artificial selection experiments in the guppy.
Note: Material may have been edited for length and content. For further information, please contact the cited source.
Panula P. et al. Expression change in Angiopoietin-1 underlies change in relative brain size in fish. Proceedings of the Royal Society B, Published June 24 2015. doi: 10.1098/rspb.2015.0872
All in a Droplet: Atomic Resolution of ALS Protein ResolvedNews
Researchers have described atom-by-atom changes in a family of proteins linked to amyotrophic lateral sclerosis (ALS), a group of brain disorders known as frontotemporal dementia and degenerative diseases of muscle and bone.READ MORE
Pupil Size Couples to Cortical States to Protect Deep Sleep StabilityNews
Researchers have found that mice pupil size fluctuates during sleep. They also show that pupil size is a reliable indicator of sleep states.READ MORE
A Place to Think: Persistent neuronal activity in human prefrontal cortex links perception and actionNews
Neuroscientists have tracked the progress of a thought through the brain, showing clearly how the prefrontal cortex at the front of the brain coordinates activity to help us act in response to a perception.READ MORE