FOLR1, a receptor utilized for proper folate transport in cortex, is most highly expressed in brain areas of new neuron generation during prenatal development. Credit: Allen Institute for Brain Science
Researchers at the Allen Institute for Brain Science have generated a high-resolution blueprint for how to build a human brain, with a detailed map of where different genes are turned on and off during mid-pregnancy at unprecedented anatomical resolution. This first major report using data from the BrainSpan Atlas of the Developing Human Brain is published in the journal Nature this week. The data provide exceptional insight into diseases like autism that are linked to early brain development, and to the origins of human uniqueness. The rich data set is publicly available to everyone via the Allen Brain Atlas data portal.
"Knowing where a gene is expressed in the brain can provide powerful clues about what its role is," says Ed Lein, Investigator at the Allen Institute for Brain Science. "This atlas gives a comprehensive view of which genes are on and off in which specific nuclei and cell types while the brain is developing during pregnancy. This means that we have a blueprint for human development: an understanding of the crucial pieces necessary for the brain to form in a normal, healthy way, and a powerful way to investigate what goes wrong in disease."
This paper represents the first major report to make use of data collected for the BrainSpan Atlas of the Developing Human Brain, a big science consortium initiative which seeks to create a map of the transcriptome across the entire course of human development. "Coming on the first anniversary of the BRAIN Initiative, this is a terrific example of the potential for public-private partnerships to accelerate progress in neuroscience," says Lein.
Thomas R. Insel, Director of the National Institute of Mental Health, praises the BrainSpan Atlas as an already invaluable tool to researchers. "While we have had previous reports of molecular and cellular changes during human brain growth, the BrainSpan Atlas is the first comprehensive map of the dramatic trajectory of gene expression across prenatal and postnatal development," he says. "This atlas is already transforming the way scientists approach human brain development and neurodevelopmental disorders like autism and schizophrenia. Although the many genes associated with autism and schizophrenia don't show a clear relationship to each other in the adult brain, the BrainSpan Atlas reveals how these diverse genes are connected in the prenatal brain."
Spotlight on Autism
Though virtually all developmental diseases and disorders can benefit from increased knowledge about how genes are expressed in the developing brain, the researchers pointed to autism as a disorder with particularly pertinent links to early brain development. The research team used the BrainSpan Atlas to examine a number of genes linked to autism in prior scientific studies during development.
"We used the maps we created to find a hub of genetic action that could be linked to autism—and we found one," says Lein. "These genes were associated with the newly generated excitatory neurons in the cortex, the area of the brain that is responsible for many of the cognitive features affected in autism such as social behavior. This discovery is an exciting example of the ability of the BrainSpan Atlas to generate meaningful hypotheses about the origins of brain developmental disorders."
What Makes Humans Unique?
Understanding what makes humans unique involves deciphering a complex puzzle—one that begins during the earliest phases of development. The richness of the BrainSpan Atlas gives scientists a new set of tools to assess how the human brain develops compared to other species.
"We know that some important regions of the genome show striking sequence differences in humans compared to other species. Since where a gene is expressed in the brain can give insight into its function, we can use our map to begin to figure out the roles of those genes in making humans distinct," says Lein. "Our analysis of the data showed that these genes are enriched in the frontal cortex, as well as in several specific specialized cell types including inhibitory GABAergic interneurons and neurons of the transient subplate zone that serves as a scaffold during early circuit formation. These features are all known to be expanded or show developmental differences in humans compared to other species, so our data gives unprecedented clues about the molecular underpinnings of what makes human neocortex unique."
A Precious Resource Freely Available
As with all the resources produced at the Allen Institute for Brain Science, sharing the data with the public was a fundamental goal from the very beginning. The BrainSpan Atlas enables researchers around the world to conduct research and ask questions about the early human brain that many would not be able to do otherwise, due to the highly limited availability of prenatal tissues.
"The work behind creating this atlas could not have been done anywhere else," says Allan Jones, Chief Executive Officer at the Allen Institute for Brain Science. "The scope of the project, and the level of detail in the data we collected, could only be accomplished thanks to the highly collaborative and interdisciplinary project-based approach of the Allen Institute team. And now, since the data are publicly available, the entire scientific community can take advantage of our efforts to drive their own investigations forward and in exciting new directions."
Explore further: Patches of cortical layers disrupted during early brain development in autism
More information: The Allen Institute's data and tools are publicly available online at www.brain-map.org
Paper: Miller JA, et al. Transcriptional landscape of the prenatal human brain. Nature, April 10, 2014. DOI: 10.1038/nature13185
Medical Xpress on facebook
Related Stories
Patches of cortical layers disrupted during early brain development in autism
Mar 26, 2014
Researchers at the University of California, San Diego School of Medicine and the Allen Institute for Brain Science have published a study that gives clear and direct new evidence that autism begins during ...
Allen Institute for Brain Science announces new data release on Allen Brain Atlas resources
Dec 20, 2013
The Allen Institute for Brain Science recently announced major updates to the online public resources available through the Allen Brain Atlas data portal. The updates include feature enhancements and data additions to four different atlas re ...
For neurons in the brain, identity can be used to predict location
Mar 24, 2014
Throughout the world, there are many different types of people, and their identity can tell a lot about where they live. The type of job they work, the kind of car they drive, and the foods they eat can all ...
Sugar-burning in the adult human brain is associated with continued growth, and remodeling
Jan 07, 2014
Although brain growth slows as individuals age, some regions of the brain continue to develop for longer than others, creating new connections and remodeling existing circuitry. How this happens is a key question in neuroscience, ...
Data release from the Allen Institute for Brain Science expands online atlas offerings
Jun 07, 2012
The Allen Institute for Brain Science announced today its latest public data release, enhancing online resources available via the Allen Brain Atlas data portal and expanding its application programming interface (API). ...
Recommended for you
Research showcases most comprehensive wiring diagram of mammalian brain to date
3 seconds ago
Researchers from the Allen Institute for Brain Science have published the first comprehensive, large-scale data set on how the brain of a mammal is wired, providing a groundbreaking data resource and fresh ...
Endurance sport improves neuronal connections to muscle fibers
3 hours ago
Endurance sport does not only change the condition and fitness of muscles but also simultaneously improves the neuronal connections to the muscle fibers based on a muscle-induced feedback. This link has been ...
Gene therapy improves limb function following spinal cord injury
19 hours ago
Delivering a single injection of a scar-busting gene therapy to the spinal cord of rats following injury promotes the survival of nerve cells and improves hind limb function within weeks, according to a study published April ...
Team points to new ways to prevent relapse in cocaine-addicted patients
19 hours ago
Relapse is the most painful and expensive feature of drug addiction—even after addicted individuals have been drug-free for months or years, the likelihood of sliding back into the habit remains high. The National Institute ...
Study finds link between child's obesity and cognitive function
23 hours ago
A new University of Illinois study finds that obese children are slower than healthy-weight children to recognize when they have made an error and correct it. The research is the first to show that weight ...
Switching brain cells with less light
Apr 01, 2014
Networked nerve cells are the control center of organisms. In a nematode, 300 nerve cells are sufficient to initiate complex behavior. To understand the properties of the networks, re-searchers switch cells ...
User comments
© Medical Xpress 2011-2014, Science X network
FOLR1, a receptor utilized for proper folate transport in cortex, is most highly expressed in brain areas of new neuron generation during prenatal development. Credit: Allen Institute for Brain Science
Researchers at the Allen Institute for Brain Science have generated a high-resolution blueprint for how to build a human brain, with a detailed map of where different genes are turned on and off during mid-pregnancy at unprecedented anatomical resolution. This first major report using data from the BrainSpan Atlas of the Developing Human Brain is published in the journal Nature this week. The data provide exceptional insight into diseases like autism that are linked to early brain development, and to the origins of human uniqueness. The rich data set is publicly available to everyone via the Allen Brain Atlas data portal.
"Knowing where a gene is expressed in the brain can provide powerful clues about what its role is," says Ed Lein, Investigator at the Allen Institute for Brain Science. "This atlas gives a comprehensive view of which genes are on and off in which specific nuclei and cell types while the brain is developing during pregnancy. This means that we have a blueprint for human development: an understanding of the crucial pieces necessary for the brain to form in a normal, healthy way, and a powerful way to investigate what goes wrong in disease."
This paper represents the first major report to make use of data collected for the BrainSpan Atlas of the Developing Human Brain, a big science consortium initiative which seeks to create a map of the transcriptome across the entire course of human development. "Coming on the first anniversary of the BRAIN Initiative, this is a terrific example of the potential for public-private partnerships to accelerate progress in neuroscience," says Lein.
Thomas R. Insel, Director of the National Institute of Mental Health, praises the BrainSpan Atlas as an already invaluable tool to researchers. "While we have had previous reports of molecular and cellular changes during human brain growth, the BrainSpan Atlas is the first comprehensive map of the dramatic trajectory of gene expression across prenatal and postnatal development," he says. "This atlas is already transforming the way scientists approach human brain development and neurodevelopmental disorders like autism and schizophrenia. Although the many genes associated with autism and schizophrenia don't show a clear relationship to each other in the adult brain, the BrainSpan Atlas reveals how these diverse genes are connected in the prenatal brain."
Spotlight on Autism
Though virtually all developmental diseases and disorders can benefit from increased knowledge about how genes are expressed in the developing brain, the researchers pointed to autism as a disorder with particularly pertinent links to early brain development. The research team used the BrainSpan Atlas to examine a number of genes linked to autism in prior scientific studies during development.
"We used the maps we created to find a hub of genetic action that could be linked to autism—and we found one," says Lein. "These genes were associated with the newly generated excitatory neurons in the cortex, the area of the brain that is responsible for many of the cognitive features affected in autism such as social behavior. This discovery is an exciting example of the ability of the BrainSpan Atlas to generate meaningful hypotheses about the origins of brain developmental disorders."
What Makes Humans Unique?
Understanding what makes humans unique involves deciphering a complex puzzle—one that begins during the earliest phases of development. The richness of the BrainSpan Atlas gives scientists a new set of tools to assess how the human brain develops compared to other species.
"We know that some important regions of the genome show striking sequence differences in humans compared to other species. Since where a gene is expressed in the brain can give insight into its function, we can use our map to begin to figure out the roles of those genes in making humans distinct," says Lein. "Our analysis of the data showed that these genes are enriched in the frontal cortex, as well as in several specific specialized cell types including inhibitory GABAergic interneurons and neurons of the transient subplate zone that serves as a scaffold during early circuit formation. These features are all known to be expanded or show developmental differences in humans compared to other species, so our data gives unprecedented clues about the molecular underpinnings of what makes human neocortex unique."
A Precious Resource Freely Available
As with all the resources produced at the Allen Institute for Brain Science, sharing the data with the public was a fundamental goal from the very beginning. The BrainSpan Atlas enables researchers around the world to conduct research and ask questions about the early human brain that many would not be able to do otherwise, due to the highly limited availability of prenatal tissues.
"The work behind creating this atlas could not have been done anywhere else," says Allan Jones, Chief Executive Officer at the Allen Institute for Brain Science. "The scope of the project, and the level of detail in the data we collected, could only be accomplished thanks to the highly collaborative and interdisciplinary project-based approach of the Allen Institute team. And now, since the data are publicly available, the entire scientific community can take advantage of our efforts to drive their own investigations forward and in exciting new directions."
Explore further: Patches of cortical layers disrupted during early brain development in autism
More information: The Allen Institute's data and tools are publicly available online at www.brain-map.org
Paper: Miller JA, et al. Transcriptional landscape of the prenatal human brain. Nature, April 10, 2014. DOI: 10.1038/nature13185
Medical Xpress on facebook
Related Stories
Patches of cortical layers disrupted during early brain development in autism
Mar 26, 2014
Researchers at the University of California, San Diego School of Medicine and the Allen Institute for Brain Science have published a study that gives clear and direct new evidence that autism begins during ...
Allen Institute for Brain Science announces new data release on Allen Brain Atlas resources
Dec 20, 2013
The Allen Institute for Brain Science recently announced major updates to the online public resources available through the Allen Brain Atlas data portal. The updates include feature enhancements and data additions to four different atlas re ...
For neurons in the brain, identity can be used to predict location
Mar 24, 2014
Throughout the world, there are many different types of people, and their identity can tell a lot about where they live. The type of job they work, the kind of car they drive, and the foods they eat can all ...
Sugar-burning in the adult human brain is associated with continued growth, and remodeling
Jan 07, 2014
Although brain growth slows as individuals age, some regions of the brain continue to develop for longer than others, creating new connections and remodeling existing circuitry. How this happens is a key question in neuroscience, ...
Data release from the Allen Institute for Brain Science expands online atlas offerings
Jun 07, 2012
The Allen Institute for Brain Science announced today its latest public data release, enhancing online resources available via the Allen Brain Atlas data portal and expanding its application programming interface (API). ...
Recommended for you
Research showcases most comprehensive wiring diagram of mammalian brain to date
3 seconds ago
Researchers from the Allen Institute for Brain Science have published the first comprehensive, large-scale data set on how the brain of a mammal is wired, providing a groundbreaking data resource and fresh ...
Endurance sport improves neuronal connections to muscle fibers
3 hours ago
Endurance sport does not only change the condition and fitness of muscles but also simultaneously improves the neuronal connections to the muscle fibers based on a muscle-induced feedback. This link has been ...
Gene therapy improves limb function following spinal cord injury
19 hours ago
Delivering a single injection of a scar-busting gene therapy to the spinal cord of rats following injury promotes the survival of nerve cells and improves hind limb function within weeks, according to a study published April ...
Team points to new ways to prevent relapse in cocaine-addicted patients
19 hours ago
Relapse is the most painful and expensive feature of drug addiction—even after addicted individuals have been drug-free for months or years, the likelihood of sliding back into the habit remains high. The National Institute ...
Study finds link between child's obesity and cognitive function
23 hours ago
A new University of Illinois study finds that obese children are slower than healthy-weight children to recognize when they have made an error and correct it. The research is the first to show that weight ...
Switching brain cells with less light
Apr 01, 2014
Networked nerve cells are the control center of organisms. In a nematode, 300 nerve cells are sufficient to initiate complex behavior. To understand the properties of the networks, re-searchers switch cells ...
User comments
© Medical Xpress 2011-2014, Science X network
0 comments:
Post a Comment