Gene editing using CRISPR/Cas9: implications for dual-use and biosecurity

Genome Editing Dilemma: Navigating Dual-Use Potential and Charting the Path Forward

Contemporary genome editing techniques have made genomic intervention-from microorganism to human-more accessible, easier to use, and more accurate than previous methods. We argue that, notwithstanding its merits in treating and preventing disease in humans, genome editing represents a potential threat for domestic and international security, requiring an integrated approach in regulating, detecting, preventing, and mitigating the risk of its use for malicious purposes. Despite the global regulatory ambitions of the 2021 WHO framework, we see insufficient attention given to the future prospect of dual-use genomic technology. Drawing parallels with the nuclear field, we suggest tentative practical steps for a way forward in dealing with genome editing technologies, such as: 1) adapting national (bio)security and defence strategies to include genome editing as a possible threat (with conceivable WMD potential); 2) enhancing the international dialogue on genome editing and raising the issue at the highest level; 3) working towards a global, legally binding verification mechanism; 4) tracking genome editing technologies.

AI in drug discovery: A wake-up call

Following a proof-of-concept presentation on dual-use artificial intelligence (AI) in drug discovery by Collaborations Pharmaceuticals Inc. to the Swiss Federal Institute for NBC-Protection, we explored how a generative algorithm could develop the nerve agent VX and tens of thousands of analogs in a highly impactful Nature Machine Intelligence commentary. We not only laid out the experiment, but, with guidance from experts on arms control and dual-use, we called for more discussion around the general repurposing potential of AI in drug discovery. To continue that conversation, we now share further details on the experiment and place our experiences in the larger frame of other scientists who have similarly developed powerful technologies but without engaging with, or even truly understanding, the misuse potential and downstream consequences of the technologies. It is our sincere hope that our experiment may serve as an important wake-up call for users of generative AI.

Balancing Act: Precision Medicine and National Security

Developments in genetics, pharmacology, biomarker identification, imaging, and interventional biotechnology are enabling medicine to become increasingly more precise in "personalized" approaches to assessing and treating individual patients. Here we describe current scientific and technological developments in precision medicine and elucidate the dual-use risks of employing these tools and capabilities to exert disruptive influence upon human health, economics, social structure, military capabilities, and global dimensions of power. We advocate continued enterprise toward more completely addressing nuances in the ethical systems and approaches that can-and should-be implemented (and communicated) to more effectively inform policy to guide and govern the biosecurity and use of current and emerging bioscience and technology on the rapidly shifting global stage.

Biothreat & One Health: Current scenario & way forward

There is an increased connectedness among humans, animals, and the environment and the current pandemic has taught the interlinking of the health of humans, animals and the planet. This inter-connectedness and factors like population growth, migration, urbanization, and climate change contribute significantly to the enhanced probability of emergence of previously unknown wildlife source pathogens at any place, any time, and without warning. Lurking in the background is the massive potential for the deliberate use of biological agents as weapons by State or non-State entities. Biological weapons have been used in wars since antiquity, however, newer research and techniques have led to these being real threats with a vast potential of harm to humans, animals, and crops. Over a period, it has become increasingly difficult to differentiate between deliberate and natural biothreat incidents. The response to both types is alike to safeguard lives, livestock, crops and the environment and reduce the consequent socio-economic ramifications. Biothreat may be targeted towards humans, animals, or crops, or all these concurrently. Every country including India is at risk of biothreat. The concept of one health is thus essential for responding to emerging infectious diseases or biothreats. Comprehensive surveillance for early detection, reporting and early concerted action is needed for prevention and blunting the effect of biothreats, which require close coordination and collaboration among various stakeholders within each country as well as globally.

Strengthening the United Nations Secretary-General's Mechanism to an alleged use of bioweapons through a quality-assured laboratory response

The cascade of innovations in biotechnology opens new pathways for biological warfare. The international laboratory network being developed under the UN Secretary-General’s Mechanism could provide vital evidence in case of an alleged biological attack.

Novel CRISPR-Cas Systems: An Updated Review of the Current Achievements, Applications, and Future Research Perspectives

According to Darwin's theory, endless evolution leads to a revolution. One such example is the Clustered Regularly Interspaced Palindromic Repeats (CRISPR)-Cas system, an adaptive immunity system in most archaea and many bacteria. Gene editing technology possesses a crucial potential to dramatically impact miscellaneous areas of life, and CRISPR-Cas represents the most suitable strategy. The system has ignited a revolution in the field of genetic engineering. The ease, precision, affordability of this system is akin to a Midas touch for researchers editing genomes. Undoubtedly, the applications of this system are endless. The CRISPR-Cas system is extensively employed in the treatment of infectious and genetic diseases, in metabolic disorders, in curing cancer, in developing sustainable methods for fuel production and chemicals, in improving the quality and quantity of food crops, and thus in catering to global food demands. Future applications of CRISPR-Cas will provide benefits for everyone and will save countless lives. The technology is evolving rapidly; therefore, an overview of continuous improvement is important. In this review, we aim to elucidate the current state of the CRISPR-Cas revolution in a tailor-made format from its discovery to exciting breakthroughs at the application level and further upcoming trends related to opportunities and challenges including ethical concerns.

Forensic public health

Deliberate dissemination of a biological agent via several different routes presents the latest challenge to global public health security. Novel pathogens and transmission methods can easily be exploited to cause disease outbreaks. Advancements in molecular biology that make it possible to genetically modify, edit, or disrupt the genome of pathogens increase the disease risk of an accidental or intentional release of pathogens with pandemic potential. The occurrence of a disease at more than an endemic level may stimulate an investigation to determine the source of the disease, who has the disease, when it occurred, and how it spreads. When intentional release of pathogens is suspected, investigators have the additional task of attributing the outbreak not only to a pathogen but also to a human source. The deliberate nature of such dissemination may be obvious. However, some forms of bioterrorism may be more covert, requiring molecular methods to uncover. The field of microbial forensics emerged following the anthrax attack in the United States in 2001 to extend epidemiologic principles to aid in the investigation of bioterrorism incidents. Microbial forensics combines epidemiology with genomic and microbiologic methods, to identify, characterize, and ascribe the cause of an incident resulting from the intentional or unintentional release of a harmful pathogen. Unlike routine epidemiologic investigations, microbial forensic investigations are undertaken when there is a potential crime due to the release of a pathogen with disease-causing potential. The investigation is conducted to attribute cause to a source based on indisputable evidence and is used to support criminal charges against the perpetrator(s). However, because bioterrorism may be unannounced, the initial investigation will start the same as to any public health incident of concern. This chapter discusses how epidemiology integrated with laboratory science can be used to identify the source of diseases caused by microorganisms or toxins—especially for attribution purposes.

Detecting Biothreat Agents: From Current Diagnostics to Developing Sensor Technologies

Although a fundamental understanding of the pathogenicity of most biothreat agents has been elucidated and available treatments have increased substantially over the past decades, they still represent a significant public health threat in this age of (bio)terrorism, indiscriminate warfare, pollution, climate change, unchecked population growth, and globalization. The key step to almost all prevention, protection, prophylaxis, post-exposure treatment, and mitigation of any bioagent is early detection. Here, we review available methods for detecting bioagents including pathogenic bacteria and viruses along with their toxins. An introduction placing this subject in the historical context of previous naturally occurring outbreaks and efforts to weaponize selected agents is first provided along with definitions and relevant considerations. An overview of the detection technologies that find use in this endeavor along with how they provide data or transduce signal within a sensing configuration follows. Current "gold" standards for biothreat detection/diagnostics along with a listing of relevant FDA approved in vitro diagnostic devices is then discussed to provide an overview of the current state of the art. Given the 2014 outbreak of Ebola virus in Western Africa and the recent 2016 spread of Zika virus in the Americas, discussion of what constitutes a public health emergency and how new in vitro diagnostic devices are authorized for emergency use in the U.S. are also included. The majority of the Review is then subdivided around the sensing of bacterial, viral, and toxin biothreats with each including an overview of the major agents in that class, a detailed cross-section of different sensing methods in development based on assay format or analytical technique, and some discussion of related microfluidic lab-on-a-chip/point-of-care devices. Finally, an outlook is given on how this field will develop from the perspective of the biosensing technology itself and the new emerging threats they may face.

Trends in Synthetic Biology Applications, Tools, Industry, and Oversight and Their Security Implications

Recent developments in synthetic biology tools and techniques are driving commercialization of a wide range of products for human health, agriculture, environmental stewardship, and other purposes. This article reviews some of the trends in synthetic biology applications as well as some of the tools enabling these and future advances. These tools and capabilities are being developed in the context of a rapidly changing industry, which may have an impact on the rate and direction of progress. Final products are subject to a regulatory framework that is being challenged by the pace, scale, and novelty of this new era of biotechnology. This article includes discussion of these factors and how they may affect product design and the types of applications that are most likely to be supported and pursued commercially. The final section provides perspective on the security implications of these advances, with a focus on US interests.