Undulating changes in human plasma proteome across lifespan are linked to disease. Benoit Lehallier, D. G., Nicholas Schaum, T. N., Song Eun Lee, H. Y., Patricia Moran Losada, D. B., Andreas Keller, J. V., Sanish Sathyan, C. F., & Sofiya Milman, N. B. bioRxiv, Cold Spring Harbor Laboratory, January, 2019.
doi  abstract   bibtex   
Aging is the predominant risk factor for numerous chronic diseases that limit healthspan. Mechanisms of aging are thus increasingly recognized as therapeutic targets. Blood from young mice reverses aspects of aging and disease across multiple tissues, pointing to the intriguing possibility that age-related molecular changes in blood can provide novel insight into disease biology. We measured 2,925 plasma proteins from 4,331 young adults to nonagenarians and developed a novel bioinformatics approach which uncovered profound non-linear alterations in the human plasma proteome with age. Waves of changes in the proteome in the fourth, seventh, and eighth decades of life reflected distinct biological pathways, and revealed differential associations with the genome and proteome of age-related diseases and phenotypic traits. This new approach to the study of aging led to the identification of unexpected signatures and pathways of aging and disease and offers potential pathways for aging interventions.
@Article{Lehallier751115,
  author       = {Benoit Lehallier, David Gate, Nicholas Schaum, Tibor Nanasi, Song Eun Lee, Hanadie Yousef, Patricia Moran Losada, Daniela Berdnik, Andreas Keller, Joe Verghese, Sanish Sathyan, Claudio Franceschi, Sofiya Milman, Nir Barzilai, Tony Wyss-Coray},
  title        = {Undulating changes in human plasma proteome across lifespan are linked to disease},
  journal      = {bioRxiv},
  publisher    = {Cold Spring Harbor Laboratory},
  year         = {2019},
  pages        = {751115},
  issn         = {751115},
  issn-linking = {751115},
  month        = jan,
  abstract     = {Aging is the predominant risk factor for numerous chronic diseases that limit healthspan. Mechanisms of aging are thus increasingly recognized as therapeutic targets. Blood from young mice reverses aspects of aging and disease across multiple tissues, pointing to the intriguing possibility that age-related molecular changes in blood can provide novel insight into disease biology. We measured 2,925 plasma proteins from 4,331 young adults to nonagenarians and developed a novel bioinformatics approach which uncovered profound non-linear alterations in the human plasma proteome with age. Waves of changes in the proteome in the fourth, seventh, and eighth decades of life reflected distinct biological pathways, and revealed differential associations with the genome and proteome of age-related diseases and phenotypic traits. This new approach to the study of aging led to the identification of unexpected signatures and pathways of aging and disease and offers potential pathways for aging interventions.},
  doi          = {10.1101/751115},
  pii          = {10.1101/751115},
}

Downloads: 0