Liza Makowski scite author profile

Summary We report a comprehensive molecular characterization of pheochromocytomas and paragangliomas (PCC/PGLs), a rare tumor type. Multi-platform integration revealed that PCC/PGLs are driven by diverse alterations affecting multiple genes and pathways. Pathogenic germline mutations occurred in eight PCC/PGL susceptibility genes. We identified CSDE1 as a somatically-mutated driver gene, complementing four known drivers (HRAS, RET, EPAS1, NF1). We also discovered fusion genes in PCC/PGL, involving MAML3, BRAF, NGFR and NF1. Integrated analysis classified PCC/PGLs into four molecularly-defined groups: a kinase signaling subtype, a pseudohypoxia subtype, a Wnt-altered subtype, driven by MAML3 and CSDE1, and a cortical admixture subtype. Correlates of metastatic PCC/PGL included the MAML3 fusion gene. This integrated molecular characterization provides a comprehensive foundation for developing PCC/PGL precision medicine.

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Treatment of diabetes and atherosclerosis by inhibiting fatty-acid-binding protein aP2

Furuhashi

Tuncman

Görgün

et al. 2007

Nature

648

583

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Adipocyte fatty-acid-binding protein, aP2 (FABP4) is expressed in adipocytes and macrophages, and integrates inflammatory and metabolic responses. Studies in aP2-deficient mice have shown that this lipid chaperone has a significant role in several aspects of metabolic syndrome, including type 2 diabetes and atherosclerosis. Here we demonstrate that an orally active small-molecule inhibitor of aP2 is an effective therapeutic agent against severe atherosclerosis and type 2 diabetes in mouse models. In macrophage and adipocyte cell lines with or without aP2, we also show the target specificity of this chemical intervention and its mechanisms of action on metabolic and inflammatory pathways. Our findings demonstrate that targeting aP2 with small-molecule inhibitors is possible and can lead to a new class of powerful therapeutic agents to prevent and treat metabolic diseases such as type 2 diabetes and atherosclerosis.Lipids and lipid signals are critical in the integration of metabolic and inflammatory response systems and consequently play significant parts in the pathogenesis of a cluster of chronic metabolic diseases, including type 2 diabetes, fatty liver disease and atherosclerosis 1 . However, how lipids couple to target signalling pathways or metabolic processes and how their intracellular trafficking is regulated are poorly understood. Cytoplasmic fatty-acid-binding proteins (FABPs) are a family of 14-15-kDa proteins that

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Liza Makowski

Comprehensive Molecular Characterization of Pheochromocytoma and Paraganglioma

Treatment of diabetes and atherosclerosis by inhibiting fatty-acid-binding protein aP2

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