Data for a new gene-function map are available for other scientists to use. Its a big resource in the way the human genome is a big resource, in that you can go in and do discovery-based research, says Professor Jonathan Weissman.
Scientists used their single-cell sequencing tool Perturb-seq on every expressed gene in the human genome, linking each to its job in the cell.
Genetics research has advanced rapidly over the last few decades. For example, just a few months ago scientists announced the first complete, gap-free human genome sequencing. Now researchers have advanced again, creating the first comprehensive functional map of genes that are expressed in human cells.
The Human Genome Project was an ambitious initiative to sequence every piece of human DNA. The project drew together collaborators from research institutions around the world, including MITs Whitehead Institute for Biomedical Research, and was finally completed in 2003. Now, over two decades later, MIT Professor Jonathan Weissman and colleagues have gone beyond the sequence to present the first comprehensive functional map of genes that are expressed in human cells. The data from this project, published online on June 9, 2022, in the journal Cell, ties each gene to its job in the cell, and is the culmination of years of collaboration on the single-cell sequencing method Perturb-seq.
The data are available for other scientists to use. Its a big resource in the way the human genome is a big resource, in that you can go in and do discovery-based research, says Weissman, who is also a member of the Whitehead Institute and an investigator with the Howard Hughes Medical Institute. Rather than defining ahead of time what biology youre going to be looking at, you have this map of the genotype-phenotype relationships and you can go in and screen the database without having to do any experiments.
CRISPR, which stands for clustered regularly-interspaced short palindromic repeats, a genome editing tool invented in 2009 made it easier than ever to edit DNA. It is easier, faster, less expensive, and more accurate than previous genetic editing methods.
The screen allowed the researchers to delve into diverse biological questions. They used it to explore the cellular effects of genes with unknown functions, to investigate the response of mitochondria to stress, and to screen for genes that cause chromosomes to be lost or gained, a phenotype that has proved difficult to study in the past. I think this dataset is going to enable all sorts of analyses that we havent even thought up yet by people who come from other parts of biology, and suddenly they just have this available to draw on, says former Weissman Lab postdoc Tom Norman, a co-senior author of the paper.
Pioneering Perturb-seq
The project takes advantage of the Perturb-seq approach that makes it possible to follow the impact of turning on or off genes with unprecedented depth. This method was first published in 2016 by a group of researchers including Weissman and fellow MIT professor Aviv Regev, but could only be used on small sets of genes and at great expense.
The massive Perturb-seq map was made possible by foundational work from Joseph Replogle, an MD-PhD student in Weissmans lab and co-first author of the present paper. Replogle, in collaboration with Norman, who now leads a lab at Memorial Sloan Kettering Cancer Center; Britt Adamson, an assistant professor in the Department of Molecular Biology at Princeton University; and a group at 10x Genomics, set out to create a new version of Perturb-seq that could be scaled up. The researchers published a proof-of-concept paper in Nature Biotechnology in 2020.
The Perturb-seq method uses CRISPR-Cas9 genome editing to introduce genetic changes into cells, and then uses single-cell RNA sequencing to capture information about the RNAs that are expressed resulting from a given genetic change. Because RNAs control all aspects of how cells behave, this method can help decode the many cellular effects of genetic changes.
Since their initial proof-of-concept paper, Weissman, Regev, and others have used this sequencing method on smaller scales. For example, the researchers used Perturb-seq in 2021 to explore how human and viral genes interact over the course of an infection with HCMV, a common herpesvirus.
In the new study, Replogle and collaborators including Reuben Saunders, a graduate student in Weissmans lab and co-first author of the paper, scaled up the method to the entire genome. Using human blood cancer cell lines as well noncancerous cells derived from the retina, he performed Perturb-seq across more than 2.5 million cells, and used the data to build a comprehensive map tying genotypes to phenotypes.
Delving into the data
Upon completing the screen, the researchers decided to put their new dataset to use and examine a few biological questions. The advantage of Perturb-seq is it lets you get a big dataset in an unbiased way, says Tom Norman. No one knows entirely what the limits are of what you can get out of that kind of dataset. Now, the question is, what do you actually do with it?
The first, most obvious application was to look into genes with unknown functions. Because the screen also read out phenotypes of many known genes, the researchers could use the data to compare unknown genes to known ones and look for similar transcriptional outcomes, which could suggest the gene products worked together as part of a larger complex.
The mutation of one gene called C7orf26 in particular stood out. Researchers noticed that genes whose removal led to a similar phenotype were part of a protein complex called Integrator that played a role in creating small nuclear RNAs. The Integrator complex is made up of many smaller subunits previous studies had suggested 14 individual proteins and the researchers were able to confirm that C7orf26 made up a 15th component of the complex.
They also discovered that the 15 subunits worked together in smaller modules to perform specific functions within the Integrator complex. Absent this thousand-foot-high view of the situation, it was not so clear that these different modules were so functionally distinct, says Saunders.
Another perk of Perturb-seq is that because the assay focuses on single cells, the researchers could use the data to look at more complex phenotypes that become muddied when they are studied together with data from other cells. We often take all the cells where gene X is knocked down and average them together to look at how they changed, Weissman says. But sometimes when you knock down a gene, different cells that are losing that same gene behave differently, and that behavior may be missed by the average.
The researchers found that a subset of genes whose removal led to different outcomes from cell to cell were responsible for chromosome segregation. Their removal was causing cells to lose a chromosome or pick up an extra one, a condition known as aneuploidy. You couldnt predict what the transcriptional response to losing this gene was because it depended on the secondary effect of what chromosome you gained or lost, Weissman says. We realized we could then turn this around and create this composite phenotype looking for signatures of chromosomes being gained and lost. In this way, weve done the first genome-wide screen for factors that are required for the correct segregation of DNA.
I think the aneuploidy study is the most interesting application of this data so far, Norman says. It captures a phenotype that you can only get using a single-cell readout. You cant go after it any other way.
The researchers also used their dataset to study how mitochondria responded to stress. Mitochondria, which evolved from free-living bacteria, carry 13 genes in their genomes. Within the nuclear DNA, around 1,000 genes are somehow related to mitochondrial function. People have been interested for a long time in how nuclear and mitochondrial DNA are coordinated and regulated in different cellular conditions, especially when a cell is stressed, Replogle says.
The researchers found that when they perturbed different mitochondria-related genes, the nuclear genome responded similarly to many different genetic changes. However, the mitochondrial genome responses were much more variable.
Theres still an open question of why mitochondria still have their own DNA, said Replogle. A big-picture takeaway from our work is that one benefit of having a separate mitochondrial genome might be having localized or very specific genetic regulation in response to different stressors.
If you have one mitochondria thats broken, and another one that is broken in a different way, those mitochondria could be responding differentially, Weissman says.
In the future, the researchers hope to use Perturb-seq on different types of cells besides the cancer cell line they started in. They also hope to continue to explore their map of gene functions, and hope others will do the same. This really is the culmination of many years of work by the authors and other collaborators, and Im really pleased to see it continue to succeed and expand, says Norman.
Reference: Mapping information-rich genotype-phenotype landscapes with genome-scale Perturb-seq by Joseph M. Replogle, Reuben A. Saunders, Angela N. Pogson, Jeffrey A. Hussmann, Alexander Lenail, Alina Guna, Lauren Mascibroda, Eric J. Wagner, Karen Adelman, Gila Lithwick-Yanai, Nika Iremadze, Florian Oberstrass, Doron Lipson, Jessica L. Bonnar, Marco Jost, Thomas M. Norman and Jonathan S. Weissman, 9 June 2022, Cell.DOI: 10.1016/j.cell.2022.05.013
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