Featured Publications
Regulation of liver subcellular architecture controls metabolic homeostasis
Parlakgül G, Arruda AP, Pang S, Cagampan E, Min N, Güney E, Lee GY, Inouye K, Hess HF, Xu CS, Hotamışlıgil GS. Regulation of liver subcellular architecture controls metabolic homeostasis. Nature 2022, 603: 736-742. PMID: 35264794, PMCID: PMC9014868, DOI: 10.1038/s41586-022-04488-5.Peer-Reviewed Original ResearchSpatial mapping of hepatic ER and mitochondria architecture reveals zonated remodeling in fasting and obesity
Parlakgül G, Pang S, Artico L, Min N, Cagampan E, Villa R, Goncalves R, Lee G, Xu C, Hotamışlıgil G, Arruda A. Spatial mapping of hepatic ER and mitochondria architecture reveals zonated remodeling in fasting and obesity. Nature Communications 2024, 15: 3982. PMID: 38729945, PMCID: PMC11087507, DOI: 10.1038/s41467-024-48272-7.Peer-Reviewed Original ResearchConceptsEndoplasmic reticulumER-mitochondria interactionsSubcellular spatial organizationER-mitochondriaER sheetsNutritional fluctuationsFatty acid oxidationNutrient availabilityHepatic fatty acid oxidationMetabolic flexibilityVolume electron microscopyHepatic ERMitochondriaLiver zonationSpatial organizationAcid oxidationPericentral hepatocytesHepatocytesMolecular architectureRibosomeProtein1ReticulumRemodelingZonationInteractionCOPII with ALG2 and ESCRTs control lysosome-dependent microautophagy of ER exit sites
Liao Y, Pang S, Li W, Shtengel G, Choi H, Schaefer K, Xu C, Lippincott-Schwartz J. COPII with ALG2 and ESCRTs control lysosome-dependent microautophagy of ER exit sites. Developmental Cell 2024, 59: 1410-1424.e4. PMID: 38593803, DOI: 10.1016/j.devcel.2024.03.027.Peer-Reviewed Original ResearchEndoplasmic reticulum exit sitesER exit sitesAmino acid starvationPurified recombinant componentsExit siteProtein sortingSecretory pathwayMammalian cellsNutrient stressCellular conditionsEndoplasmic reticulumGiant unilamellar vesiclesTubular outgrowthsESCRTMicroautophagyNutrient stressorsALG2COPIILysosomesPathwayMTOR inhibitionUnilamellar vesiclesRecombinant componentsFocused ion beam scanning electron microscopyIon beam scanning electron microscopy
2024
Volume microscopic analysis of membrane contact sites in mouse kidney renal proximal tubule epithelial cells
Pandya R, Pang S, Lackner E, Reyna-Neyra A, Li W, Sy K, Burdyniuk M, Weisz O, Xu C, Caplan M. Volume microscopic analysis of membrane contact sites in mouse kidney renal proximal tubule epithelial cells. Physiology 2024, 39: 1086. DOI: 10.1152/physiol.2024.39.s1.1086.Peer-Reviewed Original ResearchMembrane contact sitesProximal tubule epithelial cellsTubule epithelial cellsEndoplasmic reticulumEpithelial cellsContact sitesPlasma membraneER volumeRenal proximal tubule epithelial cellsFunction of membrane contact sitesVolume of endoplasmic reticulumProximal tubule cellsInter-organelle communicationBasal-lateral surfacesRenal epithelial cellsAdvanced imaging techniquesMedian volumeTubule cellsMale miceCell plasma membraneRenal cortexScanning electron microscopyFIB-SEMMouse kidneySmooth ER