Our lives have been transformed by the information age. But what's coming next is likely to be more profound, call it the genetic information age. We have mapped the human genome and in just the last few years we have learned to read and write DNA like software. And you're about to see a few breakthroughs-in-waiting that would transform human health. For a preview of this revolution in evolution we met George Church, a world leading geneticist, whose own DNA harbors many eccentricities and a few genes for genius.
We found George Church in here.
Cory Smith: Most of these are frozen George. Little bits of George that we have edited all in different tubes.
Church threw himself into his work, literally. His DNA is in many of the experiments in his lab at Harvard Medical School. The fully assembled George Church is 6'5" and 65. He helped pioneer mapping the human genome and editing DNA. Today, his lab is working to make humans immune to all viruses, eliminate genetic diseases, and reverse the effects of time.
Scott Pelley: One of the things your lab is working on is reversing aging.
George Church: That's right.
Scott Pelley: How is that possible?
George Church: Reversing aging is one of these things that is easy to dismiss to say either we don't need it or is impossible or both.
Scott Pelley: Oh, we need it.
George Church: Okay. We need it. That's good. We can agree on that. Well, aging reversal is something that's been proven about eight different ways in animals where you can get, you know, faster reaction times or, you know, cognitive or repair of damaged tissues.
Scott Pelley: Proven eight different ways. Why isn't this available?
George Church: It is available to mice.
In lucky mice, Church's lab added multiple genes that improved heart and kidney function and levels of blood sugar. Now he's trying it in spaniels.
Scott Pelley: So is this gene editing to achieve age reversal?
George Church: This is adding genes. So, it's not really editing genes. It's, the gene function is going down, and so we're boosting it back up by putting in extra copies of the genes.
Scott Pelley: What's the time horizon on age reversal in humans?
George Church: That's in clinical trials right now in dogs. And so, that veterinary product might be a couple years away and then that takes another ten years to get through the human clinical trials.
Human trials of a personal kind made George Church an unlikely candidate to alter human evolution. Growing up in Florida, Church was dyslexic, with attention deficit, and frequently knocked out by narcolepsy.
Scott Pelley: What was it that made you imagine that you could be a scientist?
George Church: The thing that got me hooked was probably the New York World's Fair in 1964. I thought this is the way we should all be living. When I went back to Florida, I said, "I've been robbed," you know? "Where is it all?" So, I said, "Well, if they're not going to provide it, then I'm gonna provide it for myself."
With work and repetition, he beat his disabilities and developed a genius for crystallography, a daunting technique that renders 3D images of molecules through X-rays and math. But in graduate school at Duke, at the age of 20, his mania for the basic structures of life didn't leave time for the basic structure of life.
Scott Pelley: You were homeless for a time.
George Church: Yeah. Briefly.
Scott Pelley: Six months.
George Church: Six months.
Scott Pelley: And where were you sleeping when you were homeless?
George Church: Well, yeah. I wasn't sleeping that much. I was mostly working. I'm narcoleptic. So, I fall asleep sitting up anyway.
His devotion to crystallography was his undoing at Duke.
George Church: I was extremely excited about the research I was doing. And so, I would put in 100-plus hours a week on research and then pretty much didn't do anything else.
Scott Pelley: Not go to class.
George Church: I wouldn't go to class. Yeah.
Duke kicked him out with this letter wishing him well in a field other than biology. But, it turned out, Harvard needed a crystallographer. George Church has been here nearly 40 years. He employs around 100 scientists, about half-and-half men and women.
Scott Pelley: Who do you hire?
George Church: I hire people that are self-selecting, they see our beacon from a distance away. There are a lot of people that are a little, you know, might be considered a little odd. "Neuroatypicals," some of us are called.
Scott Pelley: "Neuroatypical?"
George Church: Right.
Scott Pelley: Unusual brains?
George Church: Right, yeah.
Parastoo Khoshakhlagh: One thing about George that is very significant is that he sees what you can't even see in yourself.
Parastoo Khoshakhlagh and Alex Ng are among the "neuroatypicals." They're engineering human organ tissue.
Cory Smith: I think he tries to promote no fear of failure. The only fear is not to try at all.
Cory Smith's project sped up DNA editing from altering three genes at a time to 13,000 at a time. Eriona Hysolli went to Siberia with Church to extract DNA from the bones of wooly mammoths. She's editing the genes into elephant DNA to bring the mammoth back from extinction.
Eriona Hysolli: We are laying the foundations, perhaps, of de-extinction projects to come.
Scott Pelley: De-extinction.
Eriona Hysolli: Yes.
Scott Pelley: I'm not sure that's a word in the dictionary yet.
Eriona Hysolli: Well, if it isn't, it should be.
Scott Pelley: You know there are people watching this interview who think that is playing God.
George Church: Well, it's playing engineer. I mean, humans have been playing engineer since the dawn of time.
Scott Pelley: The point is, some people believe that you're mucking about in things that shouldn't be disturbed.
George Church: I completely agree that we need to be very cautious. And the more powerful, or the more rapidly-moving the technology, the more cautious we need to be, the bigger the conversation involving lots of different disciplines, religion, ethics, government, art, and so forth. And to see what it's unintended consequences might be.
Church anticipates consequences with a full time ethicist in the lab and he spends a good deal of time thinking about genetic equity. Believing that genetic technology must be available to all, not just those who can afford it.
We saw one of those technologies in the hands of Alex Ng and Parastoo Khoshakhlagh. They showed us what they call "mini-brains," tiny dots with millions of cells each. They've proven that cells from a patient can be grown into any organ tissue, in a matter of days, so drugs can be tested on that patient's unique genome.
Scott Pelley: You said that you got these cells from George's skin? How does that work?
Alex Ng: We have a way to reprogram essentially, skin cells, back into a stem cell state. And we have technologies where now we can differentiate them into tissue such as brain tissue.
Scott Pelley: So you went from George's skin cells, turned those into stem cells, and turned those into brain cells.
Alex Ng: Exactly. Exactly.
Scott Pelley: Simple as that.
Organs grown from a patient's own cells would eliminate the problem of rejection. Their goal is to prove the concept by growing full sized organs from Church's DNA.
George Church: It's considered more ethical for students to do experiments on their boss than vice versa and it's good to do it on me rather than some stranger because I'm as up to speed as you can be on the on the risks and the benefits. I'm properly consented. And I'm unlikely to change my mind.
Alex Ng: We have a joke in the lab, I mean, at some point, soon probably, we're going to have more of his cells outside of his body than he has himself.
Church's DNA is also used in experiments designed to make humans immune to all viruses.
George Church: We have a strategy by which we can make any cell or any organism resistant to all viruses by changing the genetic code. So if you change that code enough you now get something that is resistant to all viruses including viruses you never characterized before.
Scott Pelley: Because the viruses don't recognize it anymore?
George Church: They expect a certain code provided by the host that they replicate in. the virus would have to change so many parts of its DNA or RNA so that it can't change them all at once. So, it's not only dead. But it can't mutate to a new place where it could survive in a new host.
Yes, he's talking about the cure for the common cold and the end of waiting for organ transplants. It's long been known that pig organs could function in humans. Pig heart valves are routinely transplanted already. But pig viruses have kept surgeons from transplanting whole organs. Church's lab altered pig DNA and knocked out 62 pig viruses.
Scott Pelley: What organs might be transplanted from a pig to a human?
George Church: Heart, lung, kidney, liver, intestines, various parts of the eye, skin. All these things.
Scott Pelley: What's the time horizon on transplanting pig organs into human beings?
George Church: you know, two to five years to get into clinical trials. And then again it could take ten years to get through the clinical trials.
Church is a role model for the next generation. He has co-founded more than 35 startups. Recently, investors put $100 million into the pig organ work. Another Church startup is a dating app that compares DNA and screens out matches that would result in a child with an inherited disease.
George Church: You wouldn't find out who you're not compatible with. You'll just find out who you are compatible with.
Scott Pelley: You're suggesting that if everyone has their genome sequenced and the correct matches are made, that all of these diseases could be eliminated?
George Church: Right. It's 7,000 diseases. It's about 5% of the population. It's about a trillion dollars a year, worldwide.
Church sees one of his own genetic differences as an advantage. Narcolepsy lulls him several times a day. But he wakes, still in the conversation, often, discovering inspiration in his twilight zone.
Scott Pelley: If somebody had sequenced your genome some years ago, you might not have made the grade in some way.
George Church: I mean, that's true. I would hope that society sees the benefit of diversity not just ancestral diversity, but in our abilities. There's no perfect person.
Despite imperfection, Church has co-authored 527 scientific papers and holds more than 50 patents. Proof that great minds do not think alike.
The best science can tell, it was about 4 billion years ago that self-replicating molecules set off the spark of biology. Now, humans hold the tools of evolution, but George Church remains in awe of the original mystery: how chemistry became life.
Scott Pelley: Is the most amazing thing about life, then, that it happened at all?
George Church: It is amazing in our current state of ignorance. We don't even know if it ever happened ever in the rest of the universe. it's awe-inspiring to know that it either happened billions of times, or it never happened. Both of those are mind boggling. It's amazing that you can have such complex structures that make copies of themselves. But it's very hard to do that with machines that we've built. So, we're engineers. But we're rather poor engineers compared to the pseudo engineering that is biological evolution.
Produced by Henry Schuster. Associate producer, Rachael Morehouse. Broadcast associate, Ian Flickinger.
The rest is here:
Harvard geneticist George Church's goal: to protect humans from viruses, genetic diseases, and aging - 60 Minutes - CBS News
- Genetic Discrimination Is Coming for Us All - The Atlantic - November 16th, 2024
- Family connection: Genetics of suicide - WNEM - November 16th, 2024
- Study links heart shape to genetic risk of cardiovascular diseases - News-Medical.Net - November 16th, 2024
- Genetic architecture of cerebrospinal fluid and brain metabolite levels and the genetic colocalization of metabolites with human traits - Nature.com - November 16th, 2024
- Genetic connectivity of wolverines in western North America - Nature.com - November 16th, 2024
- Toward GDPR compliance with the Helmholtz Munich genotype imputation server - Nature.com - November 16th, 2024
- Leveraging genetic variations for more effective cancer therapies - News-Medical.Net - November 16th, 2024
- Bringing precision to the murky debate on fish oil - University of Arizona News - November 16th, 2024
- International experts gathered in Tashkent to tackle rare disease for Uzbekistan - EurekAlert - November 16th, 2024
- Mercys Story: Living life with 22q, a genetic condition - WECT - November 16th, 2024
- Cold case with ties to Houghton County solved through genetic genealogy after 65 years - WLUC - November 16th, 2024
- 23andMe customer? Here's what to know about the privacy of your genetic data. - CBS News - November 16th, 2024
- Single-cell RNA analysis finds possible genetic drivers of bone cancer - Illumina - November 16th, 2024
- Multi-trait association analysis reveals shared genetic loci between Alzheimers disease and cardiovascular traits - Nature.com - November 16th, 2024
- With 23andMe Struck by Layoffs, Can You Delete Genetic Data? Here's What We Know - CNET - November 16th, 2024
- Genetic testing firm 23andMe cuts 40% of its workforce amid financial struggles - The Guardian - November 16th, 2024
- Genetic study solves the mystery of 'selfish' B chromosomes in rye - Phys.org - November 16th, 2024
- Genetic changes linked to testicular cancer offer fresh insights into the disease - Medical Xpress - November 16th, 2024
- Eating less and genetics help you to live longer, but which factor carries the most weight? - Surinenglish.com - November 16th, 2024
- We must use genetic technologies now to avert the coming food crisis - New Scientist - November 16th, 2024
- NHS England to screen 100,000 babies for more than 200 genetic conditions - The Guardian - October 6th, 2024
- Largest-ever genetic study of epilepsy finds possible therapeutic targets - Medical Xpress - October 6th, 2024
- 23andMe is on the brink. What happens to all its DNA data? - NPR - October 6th, 2024
- The mountains where Neanderthals forever changed human genetics - Big Think - October 6th, 2024
- Gene Activity in Depression Linked to Immune System and Inflammation - Neuroscience News - October 6th, 2024
- Integrative multi-omics analysis reveals genetic and heterotic contributions to male fertility and yield in potato - Nature.com - October 6th, 2024
- Genetic and non-genetic HLA disruption is widespread in lung and breast tumors - Nature.com - October 6th, 2024
- Aneuploidy as a driver of human cancer - Nature.com - October 6th, 2024
- Myriad Genetics and Ultima Genomics to Explore the UG - GlobeNewswire - October 6th, 2024
- Biallelic and monoallelic variants in EFEMP1 can cause a severe and distinct subtype of heritable connective tissue disorder - Nature.com - October 6th, 2024
- Genetic and clinical correlates of two neuroanatomical AI dimensions in the Alzheimers disease continuum - Nature.com - October 6th, 2024
- Cracking the Genetic Code on Facial Features - DISCOVER Magazine - October 6th, 2024
- Ancestry vs. 23andMe: How to Pick the Best DNA Testing Kit for You - CNET - October 6th, 2024
- The Mercedes-AMG C63 is bold, but beholden to its genetics - Newsweek - October 6th, 2024
- The Austin Chronic: Texas A&Ms Hemp Breeding Program Adds Drought-Resistant Genetics to the National Collection - Austin Chronicle - October 6th, 2024
- Genetics and AI Help Patients with Early Detection of Breast Cancer Risk - Adventist Review - October 6th, 2024
- 23andMe Is Sinking Fast. Can the Company Survive? - WIRED - October 6th, 2024
- Genetic variations in remote UK regions linked to higher disease risk - Medical Xpress - October 6th, 2024
- Comprehensive mapping of genetic activity brings hope to patients with chronic pain - Medical Xpress - October 6th, 2024
- Genetics - Definition, History and Impact | Biology Dictionary - June 2nd, 2024
- Gene | Definition, Structure, Expression, & Facts | Britannica - June 2nd, 2024
- Raha Kapoor's blue eyes remind fans of her great-grandfather, Raj Kapoor; here's what genetics says - IndiaTimes - December 30th, 2023
- Human genetics | Description, Chromosomes, & Inheritance - December 13th, 2023
- BASIC GENETICS INFORMATION - Understanding Genetics - NCBI Bookshelf - December 13th, 2023
- Introduction to Genetics - Open Textbook Library - December 13th, 2023
- "When them genetics kick in its all over" - NBA fans send in rib-tickling reactions as LeBron James attends Zhuri James' volleyball game -... - October 16th, 2023
- David Liu, chemist: We now have the technology to correct misspellings in our DNA that cause known genetic diseases - EL PAS USA - April 7th, 2023
- World Health Day 2023: Understanding the science of Epi-genetics and how to apply it in our daily lives - Free Press Journal - April 7th, 2023
- Genetics - National Institute of General Medical Sciences (NIGMS) - March 29th, 2023
- GENETICS 101 - Understanding Genetics - NCBI Bookshelf - March 29th, 2023
- People always think Im skinny because of good genetics theyre shocked when they see what I used to lo... - The US Sun - March 29th, 2023
- Forensics expert explains 'genetic genealogy' process believed to be used in Kohberger's arrest - KTVB.com - January 6th, 2023
- Idaho student murders: What is genetic genealogy, a tool reportedly used to help capture the suspect? - FOX 10 News Phoenix - January 6th, 2023
- What is a Genetic Counselor and How Can They Help You Navigate Your Healthcare Journey? - ABC4.com - December 3rd, 2022
- Ancient Art and Genetics Reveal Origin of World's Most Expensive Spice - The Wire Science - June 26th, 2022
- Myriad Genetics Teams Up with Epic to Make Genetic Testing Accessible to More Patients with Electronic Health Record (EHR) Integration - GlobeNewswire - June 26th, 2022
- Obesity and genetics: Expert shares insights - Hindustan Times - June 26th, 2022
- Researchers discover genetic variants that increase Alzheimer's risk - WCVB Boston - June 26th, 2022
- Where science meets fiction: the dark history of eugenics - The Guardian - June 26th, 2022
- Clinical Conference: A Discussion with BASE10 Genetics - Skilled Nursing News - June 26th, 2022
- Genetics Really Said Copy And Paste: People Are Amazed At How Similar This Woman Looks To Her Dad In These 5 Recreation Photos - Bored Panda - June 26th, 2022
- 49 Genetic Variants That Increase the Risk of Varicose Veins Identified - Technology Networks - June 26th, 2022
- Genetic relationships and genome selection signatures between soybean cultivars from Brazil and United States after decades of breeding | Scientific... - June 26th, 2022
- Earlham woman loses weight with ChiroThin after her own doctor told her "genetics" wouldn't allow that to happen | Paid Content - Local 5 -... - June 26th, 2022
- Science and genetics used to boost Fernside farm - New Zealand Herald - June 26th, 2022
- Genetics-based guidelines to buying a bull at an auction - Farmer's Weekly SA - June 26th, 2022
- Polio: we're developing a safer vaccine that uses no genetic material from the virus - The Conversation - June 26th, 2022
- 7 lifestyle habits which can halve your risk of dementia - World Economic Forum - June 26th, 2022
- Addressing the 'Trust Factor': South Carolina Researchers Tackle Health Disparities Using Genetics - Physician's Weekly - June 8th, 2022
- Dumb luck, genetics? Why have some people never caught COVID-19? | Daily Sabah - Daily Sabah - June 8th, 2022
- Genetics Breakthrough in Sea Urchins to Aid in Biomedical Research - Scripps Institution of Oceanography - June 8th, 2022
- Genetic Control Of Autoimmune Disease Mapped To Cellular Level - Bio-IT World - June 8th, 2022
- Bazelet to Supply Its Federally Legal Cannabis Genetics to DEA Approved Research Entities for Rigorous Scientific Research on the Clinical Effects of... - June 8th, 2022
- Alameda County Awaits Key Decision Regarding The Use of Genetic Testing in Asbestos Cases - JD Supra - June 8th, 2022
- Diversity in Genetic Research Is Key to Enhancing Treatment of Chronic Diseases in Africa - Technology Networks - June 8th, 2022
- CSU partners with American Hereford Association on genetics research - Beef Magazine - June 8th, 2022
- Unraveling the Tangled History of Polar Bears to Brown Bears Using Genetic Sequencing - Nature World News - June 8th, 2022
- Did My Lifestyle or Genetics Cause ATTR-CM? Learning More About This Heart Condition That Often Goes Misdiagnosed - SurvivorNet - June 8th, 2022
- Your genes affect your education. Here's why that's controversial. - Big Think - June 8th, 2022
- Study mines cancer genetics to help with targeted treatment - ABC News - April 26th, 2022