Human cerebrospinal fluid contains diverse lipoprotein subspecies enriched in proteins implicated in central nervous system health

Nathaniel J. Merrill; W. Sean Davidson; Yi He; Ivo Díaz Ludovico; Snigdha Sarkar; Madelyn R. Berger; Jason E. McDermott; Linda J. Van Eldik; Donna M. Wilcock; Matthew E. Monroe; Jennifer E. Kyle; Kimberley D. Bruce; Jay W. Heinecke; Tomas Vaisar; Jacob Raber; Joseph F. Quinn; John T. Melchior

doi:10.1126/sciadv.adi5571

Human cerebrospinal fluid contains diverse lipoprotein subspecies enriched in proteins implicated in central nervous system health

Nathaniel J. Merrill, W. Sean Davidson, Yi He, Ivo Díaz Ludovico, Snigdha Sarkar, Madelyn R. Berger, Jason E. McDermott, Linda J. Van Eldik, Donna M. Wilcock, Matthew E. Monroe, Jennifer E. Kyle, Kimberley D. Bruce, Jay W. Heinecke, Tomas Vaisar, Jacob Raber, Joseph F. Quinn, John T. Melchior

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Abstract

Lipoproteins in cerebrospinal fluid (CSF) of the central nervous system (CNS) resemble plasma high-density lipoproteins (HDLs), which are a compositionally and structurally diverse spectrum of nanoparticles with pleiotropic functionality. Whether CSF lipoproteins (CSF-Lps) exhibit similar heterogeneity is poorly understood because they are present at 100-fold lower concentrations than plasma HDL. To investigate the diversity of CSF-Lps, we developed a sensitive fluorescent technology to characterize lipoprotein subspecies in small volumes of human CSF. We identified 10 distinctly sized populations of CSF-Lps, most of which were larger than plasma HDL. Mass spectrometric analysis identified 303 proteins across the populations, over half of which have not been reported in plasma HDL. Computational analysis revealed that CSF-Lps are enriched in proteins important for wound healing, inflammation, immune response, and both neuron generation and development. Network analysis indicated that different subpopulations of CSF-Lps contain unique combinations of these proteins. Our study demonstrates that CSF-Lp subspecies likely exist that contain compositional signatures related to CNS health.

Original language	English (US)
Article number	eadi5571
Journal	Science Advances
Volume	9
Issue number	35
DOIs	https://doi.org/10.1126/sciadv.adi5571
State	Published - 2023

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Merrill, N. J., Davidson, W. S., He, Y., Ludovico, I. D., Sarkar, S., Berger, M. R., McDermott, J. E., Van Eldik, L. J., Wilcock, D. M., Monroe, M. E., Kyle, J. E., Bruce, K. D., Heinecke, J. W., Vaisar, T., Raber, J., Quinn, J. F., & Melchior, J. T. (2023). Human cerebrospinal fluid contains diverse lipoprotein subspecies enriched in proteins implicated in central nervous system health. Science Advances, 9(35), Article eadi5571. https://doi.org/10.1126/sciadv.adi5571

Merrill, NJ, Davidson, WS, He, Y, Ludovico, ID, Sarkar, S, Berger, MR, McDermott, JE, Van Eldik, LJ, Wilcock, DM, Monroe, ME, Kyle, JE, Bruce, KD, Heinecke, JW, Vaisar, T, Raber, J , Quinn, JF & Melchior, JT 2023, 'Human cerebrospinal fluid contains diverse lipoprotein subspecies enriched in proteins implicated in central nervous system health', Science Advances, vol. 9, no. 35, eadi5571. https://doi.org/10.1126/sciadv.adi5571

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title = "Human cerebrospinal fluid contains diverse lipoprotein subspecies enriched in proteins implicated in central nervous system health",

abstract = "Lipoproteins in cerebrospinal fluid (CSF) of the central nervous system (CNS) resemble plasma high-density lipoproteins (HDLs), which are a compositionally and structurally diverse spectrum of nanoparticles with pleiotropic functionality. Whether CSF lipoproteins (CSF-Lps) exhibit similar heterogeneity is poorly understood because they are present at 100-fold lower concentrations than plasma HDL. To investigate the diversity of CSF-Lps, we developed a sensitive fluorescent technology to characterize lipoprotein subspecies in small volumes of human CSF. We identified 10 distinctly sized populations of CSF-Lps, most of which were larger than plasma HDL. Mass spectrometric analysis identified 303 proteins across the populations, over half of which have not been reported in plasma HDL. Computational analysis revealed that CSF-Lps are enriched in proteins important for wound healing, inflammation, immune response, and both neuron generation and development. Network analysis indicated that different subpopulations of CSF-Lps contain unique combinations of these proteins. Our study demonstrates that CSF-Lp subspecies likely exist that contain compositional signatures related to CNS health.",

author = "Merrill, {Nathaniel J.} and Davidson, {W. Sean} and Yi He and Ludovico, {Ivo D{\'i}az} and Snigdha Sarkar and Berger, {Madelyn R.} and McDermott, {Jason E.} and {Van Eldik}, {Linda J.} and Wilcock, {Donna M.} and Monroe, {Matthew E.} and Kyle, {Jennifer E.} and Bruce, {Kimberley D.} and Heinecke, {Jay W.} and Tomas Vaisar and Jacob Raber and Quinn, {Joseph F.} and Melchior, {John T.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 The Authors, some rights reserved.",

year = "2023",

doi = "10.1126/sciadv.adi5571",

language = "English (US)",

volume = "9",

journal = "Science Advances",

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AU - Merrill, Nathaniel J.

AU - Davidson, W. Sean

AU - He, Yi

AU - Ludovico, Ivo Díaz

AU - Sarkar, Snigdha

AU - Berger, Madelyn R.

AU - McDermott, Jason E.

AU - Van Eldik, Linda J.

AU - Wilcock, Donna M.

AU - Monroe, Matthew E.

AU - Kyle, Jennifer E.

AU - Bruce, Kimberley D.

AU - Heinecke, Jay W.

AU - Vaisar, Tomas

AU - Raber, Jacob

AU - Quinn, Joseph F.

AU - Melchior, John T.

PY - 2023

Y1 - 2023

N2 - Lipoproteins in cerebrospinal fluid (CSF) of the central nervous system (CNS) resemble plasma high-density lipoproteins (HDLs), which are a compositionally and structurally diverse spectrum of nanoparticles with pleiotropic functionality. Whether CSF lipoproteins (CSF-Lps) exhibit similar heterogeneity is poorly understood because they are present at 100-fold lower concentrations than plasma HDL. To investigate the diversity of CSF-Lps, we developed a sensitive fluorescent technology to characterize lipoprotein subspecies in small volumes of human CSF. We identified 10 distinctly sized populations of CSF-Lps, most of which were larger than plasma HDL. Mass spectrometric analysis identified 303 proteins across the populations, over half of which have not been reported in plasma HDL. Computational analysis revealed that CSF-Lps are enriched in proteins important for wound healing, inflammation, immune response, and both neuron generation and development. Network analysis indicated that different subpopulations of CSF-Lps contain unique combinations of these proteins. Our study demonstrates that CSF-Lp subspecies likely exist that contain compositional signatures related to CNS health.

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Human cerebrospinal fluid contains diverse lipoprotein subspecies enriched in proteins implicated in central nervous system health

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