An optical nanoreporter of endolysosomal lipid accumulation reveals enduring effects of diet on hepatic macrophages in vivo

Thomas V. Galassi; Prakrit V. Jena; Janki Shah; Geyou Ao; Elizabeth Molitor; Yaron Bram; Angela Frankel; Jiwoon Park; Jose Jessurun; Daniel S. Ory; Adriana Haimovitz-Friedman; Daniel Roxbury; Jeetain Mittal; Ming Zheng; Robert E. Schwartz; Daniel A. Heller

doi:10.1126/scitranslmed.aar2680

An optical nanoreporter of endolysosomal lipid accumulation reveals enduring effects of diet on hepatic macrophages in vivo

Thomas V. Galassi
, Prakrit V. Jena
, Janki Shah
, Geyou Ao
, Elizabeth Molitor
, Yaron Bram
, Angela Frankel
, Jiwoon Park
, Jose Jessurun
, Daniel S. Ory
, Adriana Haimovitz-Friedman
, Daniel Roxbury
, Jeetain Mittal
, Ming Zheng
, Robert E. Schwartz
, Daniel A. Heller

Chemical and Biomedical Engineering

Memorial Sloan-Kettering Cancer Center
Weill Cornell Medical College
National Institute of Standards and Technology
Washington University School of Medicine in St. Louis
University of Rhode Island’s College of Engineering
P.C. Rossin College of Engineering & Applied Science

Research output: Contribution to journal › Article › peer-review

87 Scopus citations

Abstract

The abnormal accumulation of lipids within the endolysosomal lumen occurs in many conditions, including lysosomal storage disorders, atherosclerosis, nonalcoholic fatty liver disease (NAFLD), and drug-induced phospholipidosis. Current methods cannot monitor endolysosomal lipid content in vivo, hindering preclinical drug development and research into the mechanisms linking endolysosomal lipid accumulation to disease progression. We developed a single-walled carbon nanotube–based optical reporter that noninvasively measures endolysosomal lipid accumulation via bandgap modulation of its intrinsic near-infrared emission. The reporter detected lipid accumulation in Niemann-Pick disease, atherosclerosis, and NAFLD models in vivo. By applying the reporter to the study of NAFLD, we found that elevated lipid quantities in hepatic macrophages caused by a high-fat diet persist long after reverting to a normal diet. The reporter dynamically monitored endolysosomal lipid accumulation in vivo over time scales ranging from minutes to weeks, indicating its potential to accelerate preclinical research and drug development processes.

Original language	English
Article number	eaar2680
Journal	Science Translational Medicine
Volume	10
Issue number	461
DOIs	https://doi.org/10.1126/scitranslmed.aar2680
State	Published - Oct 3 2018

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Galassi, T. V., Jena, P. V., Shah, J., Ao, G., Molitor, E., Bram, Y., Frankel, A., Park, J., Jessurun, J., Ory, D. S., Haimovitz-Friedman, A., Roxbury, D., Mittal, J., Zheng, M., Schwartz, R. E., & Heller, D. A. (2018). An optical nanoreporter of endolysosomal lipid accumulation reveals enduring effects of diet on hepatic macrophages in vivo. Science Translational Medicine, 10(461), Article eaar2680. https://doi.org/10.1126/scitranslmed.aar2680

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title = "An optical nanoreporter of endolysosomal lipid accumulation reveals enduring effects of diet on hepatic macrophages in vivo",

abstract = "The abnormal accumulation of lipids within the endolysosomal lumen occurs in many conditions, including lysosomal storage disorders, atherosclerosis, nonalcoholic fatty liver disease (NAFLD), and drug-induced phospholipidosis. Current methods cannot monitor endolysosomal lipid content in vivo, hindering preclinical drug development and research into the mechanisms linking endolysosomal lipid accumulation to disease progression. We developed a single-walled carbon nanotube–based optical reporter that noninvasively measures endolysosomal lipid accumulation via bandgap modulation of its intrinsic near-infrared emission. The reporter detected lipid accumulation in Niemann-Pick disease, atherosclerosis, and NAFLD models in vivo. By applying the reporter to the study of NAFLD, we found that elevated lipid quantities in hepatic macrophages caused by a high-fat diet persist long after reverting to a normal diet. The reporter dynamically monitored endolysosomal lipid accumulation in vivo over time scales ranging from minutes to weeks, indicating its potential to accelerate preclinical research and drug development processes.",

author = "Galassi, \{Thomas V.\} and Jena, \{Prakrit V.\} and Janki Shah and Geyou Ao and Elizabeth Molitor and Yaron Bram and Angela Frankel and Jiwoon Park and Jose Jessurun and Ory, \{Daniel S.\} and Adriana Haimovitz-Friedman and Daniel Roxbury and Jeetain Mittal and Ming Zheng and Schwartz, \{Robert E.\} and Heller, \{Daniel A.\}",

year = "2018",

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doi = "10.1126/scitranslmed.aar2680",

language = "English",

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Galassi, TV, Jena, PV, Shah, J, Ao, G, Molitor, E, Bram, Y, Frankel, A, Park, J, Jessurun, J, Ory, DS, Haimovitz-Friedman, A, Roxbury, D, Mittal, J, Zheng, M, Schwartz, RE & Heller, DA 2018, 'An optical nanoreporter of endolysosomal lipid accumulation reveals enduring effects of diet on hepatic macrophages in vivo', Science Translational Medicine, vol. 10, no. 461, eaar2680. https://doi.org/10.1126/scitranslmed.aar2680

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AU - Galassi, Thomas V.

AU - Jena, Prakrit V.

AU - Shah, Janki

AU - Ao, Geyou

AU - Molitor, Elizabeth

AU - Bram, Yaron

AU - Frankel, Angela

AU - Park, Jiwoon

AU - Jessurun, Jose

AU - Ory, Daniel S.

AU - Haimovitz-Friedman, Adriana

AU - Roxbury, Daniel

AU - Mittal, Jeetain

AU - Zheng, Ming

AU - Schwartz, Robert E.

AU - Heller, Daniel A.

PY - 2018/10/3

Y1 - 2018/10/3

N2 - The abnormal accumulation of lipids within the endolysosomal lumen occurs in many conditions, including lysosomal storage disorders, atherosclerosis, nonalcoholic fatty liver disease (NAFLD), and drug-induced phospholipidosis. Current methods cannot monitor endolysosomal lipid content in vivo, hindering preclinical drug development and research into the mechanisms linking endolysosomal lipid accumulation to disease progression. We developed a single-walled carbon nanotube–based optical reporter that noninvasively measures endolysosomal lipid accumulation via bandgap modulation of its intrinsic near-infrared emission. The reporter detected lipid accumulation in Niemann-Pick disease, atherosclerosis, and NAFLD models in vivo. By applying the reporter to the study of NAFLD, we found that elevated lipid quantities in hepatic macrophages caused by a high-fat diet persist long after reverting to a normal diet. The reporter dynamically monitored endolysosomal lipid accumulation in vivo over time scales ranging from minutes to weeks, indicating its potential to accelerate preclinical research and drug development processes.

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An optical nanoreporter of endolysosomal lipid accumulation reveals enduring effects of diet on hepatic macrophages in vivo

Abstract

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