Promyelocytic leukaemia nuclear bodies (PML NBs) are generally present in all mammalian cells, and their integrity correlates with normal differentiation of promyelocytes. Mice that lack PML NBs have impaired immune function, exhibit chromosome instability and are sensitive to carcinogens. Although their direct role in nuclear activity is unclear, PML NBs are implicated in the regulation of transcription, apoptosis, tumour suppression and the anti‐viral response. An emerging view is that they represent sites where multi‐subunit complexes form and where post‐translational modification of (...) regulatory factors, such as p53, occurs in response to cellular stress. Following DNA damage, several repair factors transit through PML NBs in a temporally regulated manner implicating these bodies in DNA repair. We propose that PML NBs are dynamic sensors of cellular stress, which rapidly disassemble following DNA damage into large supramolecular complexes, dispersing associated repair factors to sites of damage. The dramatically increased total surface area available would enhance interactions between PML‐associated factors regulating DNA repair and apoptosis. BioEssays 26:963–977, 2004. © 2004 Wiley Periodicals, Inc. (shrink)

Prior to their announcement of the birth of gene-edited twins in China, Dr. He Jiankui and colleagues published a set of draft ethical principles for discussing the legal, social, and ethical aspects of heritable genome interventions. Within this document, He and colleagues made it clear that their goal with these principles was to “clarify for the public the clinical future of early-in-life genetic surgeries” or heritable genome editing. In light of He’s widely criticized gene editing experiments it is of interest (...) to place these draft principles in the larger ethical debate surrounding heritable genome editing. Here we examine the principles proposed by He and colleagues through the lens of Beauchamp and Childress’ Principles of Biomedical Ethics. We also analyze the stated goal that the “clinical future” of heritable genome editing was clarified by He and colleagues’ proposed principles. Finally, we highlight what might be done to help prevent individual actors from pushing forward ahead of broad societal consensus on heritable genome editing. (shrink)

Ancient pathways promoting unicellularity and multicellularity are associated with cancer, the former being pro‐oncogenic and the latter acting to suppress oncogenesis. However, there are only a limited number of non‐vertebrate models for studying these pathways. Here, we review Dictyostelium discoideum and describe how it can be used to understand these gene networks. D. discoideum has a unicellular and multicellular life cycle, making it possible to study orthologs of cancer‐associated genes in both phases. During development, differentiated amoebae form a fruiting body (...) composed of a mass of spores that are supported atop a stalk. A portion of the cells sacrifice themselves to become non‐reproductive stalk cells. Cheating disrupts the principles of multicellularity, as cheater cells alter their cell fate to preferentially become spores. Importantly, D. discoideum has gene networks and several strategies for maintaining multicellularity. Therefore, D. discoideum can help us better understand how conserved genes and pathways involved in multicellularity also influence cancer development, potentially identifying new therapeutic avenues. (shrink)