How gene duplication helped our brains become `human`
Washington: In a new study, a team of scientists has shown that an extra copy of a brain-development gene, which appeared in our ancestors’ genomes about 2.4 million years ago, allowed maturing neurons to migrate farther and develop more connections.
Surprisingly, the added copy doesn’t augment the function of the original gene, SRGAP2, which makes neurons sprout connections to neighbouring cells. Instead it interferes with that original function, effectively giving neurons more time to wire themselves into a bigger brain.
“This appears to be a major example of a genomic innovation that contributed to human evolution,” Franck Polleux, senior author of the study from The Scripps Research Institute, said.
“The finding that a duplicated gene can interact with the original copy also suggests a new way to think about how evolution occurs and might give us clues to human-specific developmental disorders such as autism and schizophrenia,” Polleux said.
Polleux specializes in the study of human brain development, and, several years ago, his lab began researching the function of the newly-discovered SRGAP2.
He and his colleagues found that in mice, the gene’s protein product plays a key role during brain development: It deforms the membranes of young neurons outward, forcing the growth of root-like appendages called filopodia.
Shortly after beginning the project, Polleux learned from other labs’ work that SRGAP2 was among the few genes (approximately 30) that had been duplicated in the human genome less than six million years ago after separation from other apes.
Hardly any of the newfound human-specific gene duplications had been characterized functionally. SRGAP2, already being studied by Polleux’s lab, was an exception; its prominent role in brain maturation made its recent duplication a possible factor in human evolution.
So Polleux and his colleagues set out to determine whether SRGAP2’s duplication had affected its function in the human brain.
It was a challenging task, since SRGAP2’s duplicates are nearly indistinguishable from the original and are found only in human cells so they can’t be studied in lab mice.
As a first step, Polleux and his colleagues performed a detailed search of human cells`` chromosome 1, where SRGAP2 resides, and confirmed the presence of two nearby copies, which they named SRGAP2B and SRGAP2C, that are more than 99 percent identical with the original copy re-named SRGAP2A in humans.
These preliminary results were subsequently confirmed by Eichler’s laboratory, which fully sequenced and assembled SRGAP2 gene duplicates as reported in an accompanying paper in the same issue of Cell.
After developing sensitive probes to distinguish these genes and their protein products from those of the original SRGAP2A, the researchers looked for their expression in human cell and brain-tissue cultures.
The scientists determined that only one, SRGAP2C, was biologically active and expressed at high levels. The SRGAP2C protein turned out to be a truncated version of the original SRGAP2 protein.
t lacks SRGAP2’s ability to promote neuronal spine maturation, but it is far from inert: it latches onto the original, full-length SRGAP2 protein and inhibits its normal functions.
Polleux’s team expressed human SRGAP2C in vivo in mouse cortical neurons throughout development and found that the effects on brain development were essentially the same as those they observed when the scientists blocked the expression of the original SRGAP2 gene.
The affected neurons—pyramidal neurons, the major neurons of the cortex—migrated faster and took much longer to sprout their full complement of dendritic spines. This delayed spine maturation had an unexpected effect: pyramidal neurons ultimately formed many more spines when they finally matured—just like human pyramidal neurons.
Curiously, these dendritic spines also had the longer necks seen on human pyramidal neurons.
“Other researchers have argued that as spine density increased during human evolution, longer spine necks might be needed to provide greater electrical and biochemical isolation and thus keep the neurons from becoming hyper-excitable and prone to triggering seizures.
“SRGAP2C seems to be important for that key evolutionary change,” he said.
Interestingly, Polleux and colleagues found that mice with deleted SRGAP2 are prone to seizures.
"A genetic study published by another laboratory in Japan last November found similar results in children born with rare SRGAP2 gene mutations," noted Polleux.
Oddly enough, SRGAP2B, the relatively inactive duplication of SRGAP2, was the one that occurred first—roughly 3.4 million years ago, according to Eichler’s genomic dating techniques.
The active SRGAP2C appeared even more recently through duplication of SRGAP2B, with about 1 million years separating the two duplications. SRGAP2C emergence occurred roughly 2.4 million years ago—corresponding approximately to the time when the Australopithecus and the Homo lineages separated.
Taken together, the results from the Eichler and Polleux labs suggest that SRGAP2C duplication in the Homo lineage might have provided a selective advantage in part by slowing the rate of spine maturation allowing the emergence of more connections between cortical neurons.
About 30 other protein-coding genes were duplicated as the early hominid genome evolved towards the modern human one, and Polleux’s lab is now working with Eichler’s to characterize the ancestral copies of these genes and their human-specific duplications.
“There was probably a co-evolution of these genomic changes that together made the human brain unique,” Polleux added.
The study has been published online in the journal Cell.
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