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Aberrations in efferocytosis are associated with numerous inflammatory pathologies, including atherosclerosis, cancer and infections. Here, Mehrotra and Ravichandran discuss the mechanisms of efferocytosis and the role of this physiological process in disease, and assess strategies and agents for therapeutic intervention.
The widespread clinical translation and commercialization of cell-based therapies are hampered by challenges related to cell source, viability, potency, safety and scalability. Here, Veiseh and colleagues overview progress in the development of cell-based therapeutics and discuss how biological engineering approaches — including genome editing, synthetic biology and the use of biomaterials — are beginning to address key challenges in the field.
Phenotypic drug discovery has re-emerged over the past decade as an approach to systematically pursue drug discovery based on therapeutic effects in realistic disease models. This article discusses recent successes with this approach, and considers ongoing challenges and strategies to address them.
System-wide methods to monitor protein activity are still underused in drug discovery. This Review discusses the potential of proteomics and chemoproteomics approaches for target identification, validation and identification of safety hazards.
This Review summarizes the basic mechanisms that regulate natural killer cells and the various drugs, cytokines and antibodies that are currently being developed to stimulate natural killer cell responses in cancer treatment.
Psychedelic drugs such as psilocybin and lysergic acid diethylamide (LSD) have emerging therapeutic potential for neuropsychiatric diseases such as depression and anxiety. In this Perspective, McClure-Begley and Roth discuss the promises and pitfalls of psychedelic pharmacology, including complex activity profiles beyond canonical 5-HT2A receptor activation that continue to be elucidated. They consider progress and challenges for clinical studies, as well as prospects for parsing the therapeutic from psychedelic effects of this class of compounds to develop ‘cleaner’ drugs.
Natural products derived from bacteria are an important source of potential new drug compounds, such as antibiotics and anticancer agents, but how to efficiently mine this resource remains a challenge. In their Review, Hemmerling and Piel discuss newly developed computational tools and strategies to access biosynthetic novelty in bacterial genomes. They consider the opportunities and challenges associated with different bacterial sources, including cultivated, ecology-based and previously untapped bacterial ‘dark matter’.
Immune checkpoint inhibitors (ICIs) have dramatically improved the treatment of many tumours, but only a subset of patients respond when ICIs are used as standalone immunotherapeutic interventions. Here, Galluzzi and colleagues discuss the potential of harnessing clinical agents that target oncogene and non-oncogene addiction to enhance ICI sensitivity by converting immunologically ‘cold’ tumours into ‘hot’ lesions.
The past decade has witnessed rapid growth in the field of extracellular vesicle (EV) research, and the potential of harnessing EVs in the treatment and diagnosis of diseases is now well recognized. Here, Cheng and Hill provide an overview of the physiological and pathological roles of EVs, discuss how they could be therapeutically exploited and consider the associated challenges.
Advances in oligonucleotide design and delivery platforms have enabled the recent approval of several oligonucleotide-based therapies. Here, Goga and Stoffel discuss applications of RNA-silencing oligonucleotide therapeutics in metabolic diseases, recent developments in the field, ongoing challenges and possible future directions.
Many drugs that target amyloid-β in Alzheimer disease have failed in clinical trials. Karran and De Strooper analyse clinical trial data for these drugs in the light of drug properties that could affect their clinical performance. They propose that amyloid plaque would need to be reduced to a low level to reveal significant clinical benefit and that there will be a lag between the removal of amyloid and the potential to observe such a benefit.
In this Review, Quintana and colleagues discuss astrocytes, a type of glial cell that could be manipulated to treat neurological conditions. Potential astrocyte targets, and the progess made towards developing astrocyte-directed therapies, are highlighted, along with their potential pitfalls. They also propose a novel nomenclature for astrocyte subsets.
Mutations in cancer cells can generate tumour-specific neoepitopes, which are attractive targets for anticancer vaccines. This Review discusses the mechanisms of neoantigen T cell recognition and computational approaches to predict which neoantigens might confer proficient antitumour immunity in a given clinical context.
Targeted protein degradation with proteolysis-targeting chimeras (PROTACs) has the potential to tackle disease-causing proteins that have historically been highly challenging to target with conventional small molecules. This article summarizes the first two decades of PROTAC discovery and discusses key areas for the future of this therapeutic modality, including establishing the target classes for which it is most suitable and extending its application beyond oncology.
Accumulating evidence suggests that, for some people, major depressive disorder has immunological roots. Here, Manji and colleagues discuss the progress towards immune-based treatments for depression, including which biomarkers might be most useful, as well as potential challenges to this approach.
De novo lipogenesis (DNL) is vital for the maintenance of whole-body and cellular homeostasis, but aberrant upregulation of the pathway is associated with a broad range of conditions, including cardiovascular disease, metabolic disorders and cancers. Here, Steinberg and colleagues provide an overview of the physiological and pathological roles of the core DNL enzymes and assess strategies and agents currently in development to therapeutically target them.