Active-reset protein sensors enable continuous in vivo monitoring of inflammation

H. Zargartalebi; S. Mirzaie; A. GhavamiNejad; S. U. Ahmed; F. Esmaeili; A. Geraili; C. D. Flynn; D. Chang; J. Das; A. Abdrabou; E. H. Sargent; S. O. Kelley

doi:10.1126/science.adn2600

Active-reset protein sensors enable continuous in vivo monitoring of inflammation

H. Zargartalebi, S. Mirzaie, A. GhavamiNejad, S. U. Ahmed, F. Esmaeili, A. Geraili, C. D. Flynn, D. Chang, J. Das, A. Abdrabou, E. H. Sargent, S. O. Kelley

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

9 Scopus citations

Abstract

Continuous measurement of proteins in vivo is important for real-time disease management and prevention. Implantable sensors for monitoring small molecules such as glucose have been available for more than a decade. However, analysis of proteins remains an unmet need because the lower physiological levels require that sensors have high affinities, which are linked to long complexation half-lives (t1/2 ~20 hours) and slow equilibration when concentrations decrease. We report active-reset sensors by use of high-frequency oscillations to accelerate dissociation, which enables regeneration of the unbound form of the sensor within 1 minute. When implemented within implanted devices, these sensors allow for real-time, in vivo monitoring of proteins within interstitial fluid. Active-reset protein sensors track biomarker levels on a physiological timescale for inflammation monitoring in living animals.

Original language	English (US)
Pages (from-to)	1146-1153
Number of pages	8
Journal	Science (New York, N.Y.)
Volume	386
Issue number	6726
DOIs	https://doi.org/10.1126/science.adn2600
State	Published - Dec 6 2024

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title = "Active-reset protein sensors enable continuous in vivo monitoring of inflammation",

abstract = "Continuous measurement of proteins in vivo is important for real-time disease management and prevention. Implantable sensors for monitoring small molecules such as glucose have been available for more than a decade. However, analysis of proteins remains an unmet need because the lower physiological levels require that sensors have high affinities, which are linked to long complexation half-lives (t1/2 ~20 hours) and slow equilibration when concentrations decrease. We report active-reset sensors by use of high-frequency oscillations to accelerate dissociation, which enables regeneration of the unbound form of the sensor within 1 minute. When implemented within implanted devices, these sensors allow for real-time, in vivo monitoring of proteins within interstitial fluid. Active-reset protein sensors track biomarker levels on a physiological timescale for inflammation monitoring in living animals.",

author = "H. Zargartalebi and S. Mirzaie and A. GhavamiNejad and Ahmed, {S. U.} and F. Esmaeili and A. Geraili and Flynn, {C. D.} and D. Chang and J. Das and A. Abdrabou and Sargent, {E. H.} and Kelley, {S. O.}",

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AU - Zargartalebi, H.

AU - Mirzaie, S.

AU - GhavamiNejad, A.

AU - Ahmed, S. U.

AU - Esmaeili, F.

AU - Geraili, A.

AU - Flynn, C. D.

AU - Chang, D.

AU - Das, J.

AU - Abdrabou, A.

AU - Sargent, E. H.

AU - Kelley, S. O.

PY - 2024/12/6

Y1 - 2024/12/6

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AB - Continuous measurement of proteins in vivo is important for real-time disease management and prevention. Implantable sensors for monitoring small molecules such as glucose have been available for more than a decade. However, analysis of proteins remains an unmet need because the lower physiological levels require that sensors have high affinities, which are linked to long complexation half-lives (t1/2 ~20 hours) and slow equilibration when concentrations decrease. We report active-reset sensors by use of high-frequency oscillations to accelerate dissociation, which enables regeneration of the unbound form of the sensor within 1 minute. When implemented within implanted devices, these sensors allow for real-time, in vivo monitoring of proteins within interstitial fluid. Active-reset protein sensors track biomarker levels on a physiological timescale for inflammation monitoring in living animals.

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Active-reset protein sensors enable continuous in vivo monitoring of inflammation

Abstract

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