Imaging mass spectrometry demonstrates age-related decline in human adipose plasticity
Christelle Guillermier, Pouneh K. Fazeli, Soomin Kim, Mingyue Lun, Jonah P. Zuflacht, Jessica Milian, Hang Lee, Hugues Francois-Saint-Cyr, Francois Horreard, David Larson, Evan D. Rosen, Richard T. Lee, Claude P. Lechene, Matthew L. Steinhauser
Christelle Guillermier, Pouneh K. Fazeli, Soomin Kim, Mingyue Lun, Jonah P. Zuflacht, Jessica Milian, Hang Lee, Hugues Francois-Saint-Cyr, Francois Horreard, David Larson, Evan D. Rosen, Richard T. Lee, Claude P. Lechene, Matthew L. Steinhauser
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Resource and Technical Advance Aging Endocrinology

Imaging mass spectrometry demonstrates age-related decline in human adipose plasticity

Abstract

Quantification of stable isotope tracers has revealed the dynamic state of living tissues. A new form of imaging mass spectrometry quantifies isotope ratios in domains much smaller than a cubic micron, enabling measurement of cell turnover and metabolism with stable isotope tracers at the single-cell level with a methodology we refer to as multi-isotope imaging mass spectrometry. In a first-in-human study, we utilize stable isotope tracers of DNA synthesis and de novo lipogenesis to prospectively measure cell birth and adipocyte lipid turnover. In a study of healthy adults, we elucidate an age-dependent decline in new adipocyte generation and adipocyte lipid turnover. A linear regression model suggests that the aging effect could be mediated by a decline in insulin-like growth factor-1 (IGF-1). This study therefore establishes a method for measurement of cell turnover and metabolism in humans with subcellular resolution while implicating the growth hormone/IGF-1 axis in adipose tissue aging.

Authors

Christelle Guillermier, Pouneh K. Fazeli, Soomin Kim, Mingyue Lun, Jonah P. Zuflacht, Jessica Milian, Hang Lee, Hugues Francois-Saint-Cyr, Francois Horreard, David Larson, Evan D. Rosen, Richard T. Lee, Claude P. Lechene, Matthew L. Steinhauser

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