Gene editing: should you be worried?

The Economist

17 Mar 202224:34

Summary

TLDRThe script delves into the gene-editing revolution, highlighting its potential to cure diseases and combat climate change, while also presenting ethical dilemmas and public resistance. It features Professor James Dale's efforts to save bananas from extinction through genetic modification and discusses the controversy surrounding CRISPR technology, including its applications in curing sickle cell disease and the contentious pursuit of 'designer humans.' The debate over gene-editing regulation and its impact on agriculture and conservation, such as reviving the woolly mammoth to mitigate climate change, is also explored.

Takeaways

🧬 The gene-editing revolution has made significant progress in the past five years, with advances in technology such as CRISPR offering potential cures for terminal diseases and new approaches to combat climate change.
🍌 Professor James Dale is working on genetically modifying the Cavendish banana to resist Tropical Race 4 (TR4), a disease threatening its existence, but faces public resistance to GMOs, particularly in Europe.
🌱 The ethical and practical risks of genetic technologies raise questions about responsibility, belonging, and the balance between potential benefits and dangers.
🚫 Public resistance to GMOs, driven by perceptions of unnaturalness, could hinder the development of crops with higher tolerance to climate change effects like drought.
🦟 In Islamorada, genetically modified mosquitoes are being released to combat Zika and dengue fever, but the intervention has faced opposition from locals concerned about its impact on tourism and the environment.
🛡 The regulation of genetic technologies is a point of contention, with concerns about transparency, community engagement, and the potential for hasty decisions without proper oversight.
🏆 The CRISPR gene-editing technique, awarded the Nobel prize in 2020, allows for precise DNA edits and has opened up new possibilities for treating genetic diseases like sickle cell disease.
🧬 The prospect of gene editing raises ethical dilemmas, especially when considering editing traits that are not diseases, such as eye or skin color, which could lead to 'designer humans'.
🐘 Scientists are exploring the use of gene editing to bring back extinct species like the woolly mammoth, with potential implications for climate change mitigation, though the effectiveness and ethics of such projects are debated.
🌍 Gene-edited foods and plants offer opportunities to address global agricultural challenges and climate change, but the regulatory landscape varies widely, with some countries having more permissive regulations than others.
🔬 The gene-editing conversation is crucial as it brings to light social questions about inclusivity and the potential for technology to shape who 'belongs' in society.

Q & A

What is the significance of the gene-editing revolution in the context of the script?
-The gene-editing revolution is significant as it promises cures for terminal diseases and new approaches to combat climate change, but it also brings new ethical and practical risks, such as biowarfare and the potential for misuse in creating genetically modified organisms (GMOs).
Why is the Cavendish banana variety important and what threat does it face?
-The Cavendish banana is important because it is the single variety that is grown and processed for export worldwide due to its high yield, tough skin for transportation, and acceptable taste and texture. However, it faces a serious threat from Tropical Race 4 (TR4), a disease known as the 'cancer of bananas' that has spread globally, killing Cavendish bananas and posing a risk to the entire crop.
What is Professor James Dale's solution to the threat posed by TR4 to the Cavendish bananas?
-Professor James Dale has spent ten years engineering a genetically modified banana that can withstand TR4. This solution, however, faces public resistance due to the negative perception of GMOs, which could potentially block the development of this beneficial crop.
What ethical dilemma does the development of genetically modified crops present?
-The ethical dilemma lies in balancing the potential benefits of genetically modified crops, such as resistance to diseases and tolerance to climate change, against the public's resistance and fear of GMOs, which could lead to the rejection of technologies that may become crucial in the future.
What is the controversy surrounding the release of genetically modified mosquitoes in Islamorada?
-The controversy stems from the local community's fear that the release of genetically modified mosquitoes, aimed at reducing the spread of Zika and dengue fever, could negatively impact the tourist-based economy and the natural world. There is also concern about the lack of transparency in the regulation and development of such technologies.
How does Oxitec's genetic approach to controlling Aedes aegypti mosquitoes work?
-Oxitec has altered the genes of male mosquitoes so that when they mate with females, only male offspring would survive. This approach essentially acts as birth control for mosquitoes, aiming to crash the number of female mosquitoes within a few generations, thereby reducing the spread of diseases they carry.
What concerns does Natalie Koffler, a bioethicist, have about the regulation of genetically modified organisms?
-Natalie Koffler is concerned that the regulation of genetically modified organisms is not transparent enough and does not require proper engagement with affected communities. She believes that the current regulatory systems are inadequate and could lead to a lack of community consent and agency in the decision-making process.
What is the potential impact of CRISPR technology on medicine and genetic diseases?
-CRISPR technology, with its precision and ease of use, has the potential to dramatically change medicine by enabling more effective treatments for genetic diseases. It allows for specific edits in DNA, which could lead to cures for conditions like sickle cell disease that are caused by mutations in a single gene.
What are the ethical concerns regarding the use of gene editing for non-medical conditions, such as deafness?
-The ethical concerns include the potential damage to the cultural identity and integration of communities affected by such conditions, as well as the slippery slope towards creating 'designer humans' by editing non-disease related traits like eye or skin color.
What is the significance of germline editing and why is it controversial?
-Germline editing is significant because it can cause genetic changes to be passed down through generations, affecting not just the individual but also their descendants. It is controversial due to the potential unforeseen consequences of altering the genetic makeup of future generations and the ethical implications of such permanent changes.
How does gene editing in agriculture, such as the development of disease-resistant bananas, differ in regulation from other genetically modified organisms?
-Gene-edited plants and animals that do not contain foreign DNA are often subject to less stringent regulation compared to older genetically modified organisms, which typically involve the transplantation of genes from other species. This can lead to a faster path from development to commercialization without the need for extensive regulatory permissions.
What is the potential role of gene-edited animals, like the woolly mammoth, in combating climate change?
-Gene-edited animals could potentially help control climate change by reintroducing species that can adapt to specific environments, such as cold temperatures, and contribute to ecosystem balance. In the case of the woolly mammoth, these animals could trample snow and expose permafrost to freezing air, potentially reducing the release of greenhouse gases.
What are the broader implications of gene editing for biodiversity and conservation efforts?
-Gene editing has the potential to increase biodiversity by bringing back species that are close to extinction or have gone extinct, thus rescuing gene pools that would otherwise be lost. However, there is also a risk that such efforts could divert attention from more immediate conservation needs and ethical considerations about the manipulation of species.