Publications by authors named "Nada Mageed"
Small molecules promoting protein-protein interactions produce a range of therapeutic outcomes. Molecular glue degraders exemplify this concept due to their compact drug-like structures and ability to engage targets without reliance on existing cognate ligands. While cereblon molecular glue degraders containing glutarimide scaffolds have been approved for treatment of multiple myeloma and acute myeloid leukemia, the design of new therapeutically relevant monovalent degraders remains challenging.
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- Small molecules that enhance protein-protein interactions can lead to new therapies, particularly molecular glue degraders which have small, drug-like structures that engage their targets effectively.
- The study presents a new method for synthesizing glutarimide-based molecular glues using multicomponent reactions, leading to the identification of promising compounds targeting CK1α and WEE1 kinases.
- Further development of selective WEE1 degraders may aid in creating precise chemical probes, with structural studies providing insights into how these degraders interact at the protein-protein interface, enhancing their therapeutic potential.
Article Synopsis
- Oncogenes can be targeted with small molecules, but the loss of tumor suppressor genes like SMARCB1 poses unique challenges in cancer treatment.
- Cancer Dependency Map Project utilized CRISPR screening with SMARCB1-mutant cell lines, revealing that DCAF5 is critical for these cancer cells' survival.
- DCAF5 helps regulate SWI/SNF complexes and its depletion allows for the reaccumulation of these complexes, potentially reversing the cancer state, suggesting that targeting similar quality-control factors could offer new therapeutic options.
Protein ubiquitylation controls diverse processes within eukaryotic cells, including protein degradation, and is often dysregulated in disease. Moreover, small-molecule degraders that redirect ubiquitylation activities toward disease targets are an emerging and promising therapeutic class. Over 600 E3 ubiquitin ligases are expressed in humans, but their substrates remain largely elusive, necessitating the development of new methods for their discovery.
View Article and Find Full Text PDFPhosphatidylinositol 5-phosphate 4-kinase, type II, gamma (PIP4K2C) remains a poorly understood lipid kinase with minimal enzymatic activity but potential scaffolding roles in immune modulation and autophagy-dependent catabolism. Achieving potent and selective agents for PIP4K2C while sparing other lipid and non-lipid kinases has been challenging. Here, we report the discovery of the highly potent PIP4K2C binder TMX-4102, which shows exclusive binding selectivity for PIP4K2C.
View Article and Find Full Text PDFImmunomodulatory imide drugs (IMiDs), such as thalidomide and its analogues, are some of the most commonly utilized E3 ligase ligands for the development of proteolysis targeting chimeras (PROTACs). While the canonical neo-substrates of IMiDs (i.e.
View Article and Find Full Text PDFTargeted protein degradation is a rapidly advancing and expanding therapeutic approach. Drugs that degrade GSPT1 via the CRL4CRBN ubiquitin ligase are a new class of cancer therapy in active clinical development with evidence of activity against acute myeloid leukemia in early-phase trials. However, other than activation of the integrated stress response, the downstream effects of GSPT1 degradation leading to cell death are largely undefined, and no murine models are available to study these agents.
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