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February 15, 2017

Designer Babies Yes, Superbabies No

  • If King Solomon had a science advisory group, it might have floated the idea of a baby-splitting policy, helping him anticipate which action he might take should he ever have to decide which of two women was a baby’s true mother. As things turned out, Solomon delivered a famously wise ruling. But today we’re less inclined to rely on seat-of-the-finery policy deliberations. Instead, we ask bodies such as the National Academy of Sciences (NAS) and the National Academy of Medicine (NAM) to help us anticipate difficult issues, such as deciding when germline engineering should be attempted.

    Germline engineering, the use of gene-editing technology to alter heritable characteristics, is sometimes loosely referred to as the creation of designer babies. It’s a touchy issue, and in the United States at least, it’s treated as something that can be discussed sometime in the indefinite future. Let the science fiction writers have at it. Policymakers needn’t indulge in speculation about what we might do should gene-editing technology ever advance to a point where germline engineering were to become a realistic option.

    Such delay, concluded a scientific advisory group formed by NAS and NAM, is no longer prudent. Thanks to developments such as the elaboration of CRISPR/Cas9 technology, gene editing is progressing at such a pace that prohibitions against germline editing may soon look unnecessarily stringent, unless judicious exceptions can be formulated. And so, the NAS/NAM group announced its own Solomon-like recommendations. Essentially, it suggests splitting the designer baby. Whereas germline engineering might be acceptable if it were to relieve disabilities, it would still be unacceptable as a way to instill enhanced capabilities. In short, designer babies might be advisable, under certain circumstances, but superbabies would still be disallowed.

    The NAS/NAM group issued a 258-page report on February 14 focused on human genome editing. It lays out principles and recommendations for the U.S. government and governments around the globe grappling with how to handle rapid advances in human genome-editing technology as it applies to human health and disease.

    Clinical trials for genome editing of the human germline—adding, removing, or replacing DNA base pairs in gametes or early embryos—could be permitted in the future, but only for serious conditions and under stringent oversight, says the report, which outlines several criteria that should be met before allowing germline-editing clinical trials to go forward. Genome editing has already entered clinical trials for nonheritable applications, but should be allowed only for treating or preventing diseases or disabilities at this time.

    Human genome editing is already widely used in basic research and is in the early stages of development and trials for clinical applications that involve nonheritable (somatic) cells. These therapies affect only the patient, not any offspring, and should continue for treatment and prevention of disease and disability, using the existing ethical norms and regulatory framework for development of gene therapy. Oversight authorities should evaluate safety and efficacy of proposed somatic applications in the context of the risks and benefits of intended use.

    However, there is significant public concern about the prospect of using these same techniques for so-called "enhancement" of human traits and capacities, such as physical strength, or even for uses that are not possible, such as improving intelligence. The report recommends that genome editing for enhancement should not be allowed at this time, and that broad public input and discussion should be solicited before allowing clinical trials for somatic genome editing for any purpose other than treating or preventing disease or disability.

    "Human genome editing holds tremendous promise for understanding, treating, or preventing many devastating genetic diseases, and for improving treatment of many other illnesses," said Alta Charo, J.D., co-chair of the study committee and Sheldon B. Lubar Distinguished Chair and Warren P. Knowles Professor of Law and Bioethics, University of Wisconsin–Madison. "However, genome editing to enhance traits or abilities beyond ordinary health raises concerns about whether the benefits can outweigh the risks, and about fairness if available only to some people."

    Germline genome editing, in contrast, is contentious because genetic changes would be inherited by the next generation. Many view germline editing as crossing an "ethically inviolable" line, the report says. Concerns raised include spiritual objections to interfering with human reproduction to speculation about effects on social attitudes toward people with disabilities to possible risks to the health and safety of future children. But germline genome editing could provide some parents who are carriers of genetic diseases with their best or most acceptable option for having genetically related children who are born free of these diseases.

    Heritable germline editing is not ready to be tried in humans. Much more research is needed before it could meet the appropriate risk and benefit standards for clinical trials. The technology is advancing very rapidly, though, making heritable genome editing of early embryos, eggs, sperm, or precursor cells in the foreseeable future "a realistic possibility that deserves serious consideration," the report says. Although heritable germline genome-editing trials must be approached with caution, the committee said, caution does not mean prohibition.

    At present, heritable germline editing is not permissible in the United States, due to an ongoing prohibition on the U.S. FDA's ability to use federal funds to review "research in which a human embryo is intentionally created or modified to include a heritable genetic modification." A number of other countries have signed an international convention that prohibits germline modification.

    If current restrictions are removed, and for countries where germline editing would already be permitted, the committee recommended stringent criteria that would need to be met before going forward with clinical trials. They include: (1) absence of reasonable alternatives; (2) restriction to editing genes that have been convincingly demonstrated to cause or strongly predispose to a serious disease or condition; (3) credible preclinical and/or clinical data on risks and potential health benefits; (4) ongoing, rigorous oversight during clinical trials; (5) comprehensive plans for long-term multigenerational follow-up; and (6) continued reassessment of both health and societal benefits and risks, with wide-ranging, ongoing input from the public.

    Policymaking surrounding human genome-editing applications should incorporate public participation, and funding of genome-editing research should include support to study the sociopolitical, ethical, and legal aspects and evaluate efforts to build public communication and engagement on these issues.

    The report recommends a set of overarching principles that should be used by any nation in governing human genome-editing research or applications:

    • Promote well-being—providing benefit and preventing harm to those affected
    • Transparency and openness—sharing of information in ways that are accessible and understandable to patients, their families, and other stakeholders
    • Due care—proceeding only when supported by sufficient and robust evidence
    • Responsible science—adhering to the highest standards of research in accordance with international and professional norms
    • Respect for persons—recognizing the personal dignity of all individuals and with respect for their decisions
    • Fairness—treating all cases alike, with an equitable distribution of risks and benefits
    • Transnational cooperation—committing to collaborative approaches for research and governance while respecting different cultural contexts.

    "Genome-editing research is very much an international endeavor, and all nations should ensure that any potential clinical applications reflect societal values and be subject to appropriate oversight and regulation," said committee co-chair Richard Hynes, Ph.D., Howard Hughes Medical Institute Investigator and Daniel K. Ludwig Professor for Cancer Research, Massachusetts Institute of Technology. "These overarching principles and the responsibilities that flow from them should be reflected in each nation's scientific community and regulatory processes. Such international coordination would enhance consistency of regulation."

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