The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells

Thomas Hodgkinson; P. Monica Tsimbouri; Virginia Llopis-Hernandez; Paul Campsie; David  Scurr; Peter G. Childs; David  Phillips; Sam Donnelly; Julia Wells; Manuel Salmerón-Sánchez; Karl E V Burgess; Morgan Alexander; Massimo Vassalli; Richard Oreffo; Stuart Reid; David J. France; Matthew J. Dalby

doi:10.1126/sciadv.abb7921

The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells

Thomas Hodgkinson, P. Monica Tsimbouri, Virginia Llopis-Hernandez, Paul Campsie, David Scurr, Peter G. Childs, David Phillips, Sam Donnelly, Julia Wells, Manuel Salmerón-Sánchez, Karl E V Burgess, Morgan Alexander, Massimo Vassalli, Richard Oreffo, Stuart Reid, David J. France, Matthew J. Dalby

Biomedical Engineering

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

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Abstract

Bioactive metabolites have wide-ranging biological activities and are a potential source of future research and therapeutic tools. Here, we use nanovibrational stimulation to induce osteogenic differentiation of mesenchymal stem cells, in the absence of off-target, nonosteogenic differentiation. We show that this differentiation method, which does not rely on the addition of exogenous growth factors to culture media, provides an artifact-free approach to identifying bioactive metabolites that specifically and potently induce osteogenesis. We first identify a highly specific metabolite, cholesterol sulfate, an endogenous steroid. Next, a screen of other small molecules with a similar steroid scaffold identified fludrocortisone acetate with both specific and highly potent osteogenic-inducing activity. Further, we implicate cytoskeletal contractility as a measure of osteogenic potency and cell stiffness as a measure of specificity. These findings demonstrate that physical principles can be used to identify bioactive metabolites and then enable optimization of metabolite potency can be optimized by examining structure-function relationships.

Original language	English
Article number	eabb7921
Number of pages	17
Journal	Science Advances
Volume	7
Issue number	9
DOIs	https://doi.org/10.1126/sciadv.abb7921
Publication status	Published - 26 Feb 2021

Keywords

bioactive metabolites
nanovibrational stimulation
mesenchymal stem cells

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10.1126/sciadv.abb7921Licence: CC BY 4.0

Hodgkinson-etal-SA-2021-The-use-of-nanovibration-to-discover-specific-and-potent-bioactive-metabolitesFinal published version, 6 MBLicence: CC BY 4.0

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Hodgkinson, T., Monica Tsimbouri, P., Llopis-Hernandez, V., Campsie, P., Scurr, D., Childs, P. G., Phillips, D., Donnelly, S., Wells, J., Salmerón-Sánchez, M., Burgess, K. E. V., Alexander, M., Vassalli, M., Oreffo, R., Reid, S., France, D. J., & Dalby, M. J. (2021). The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells. Science Advances, 7(9), Article eabb7921. https://doi.org/10.1126/sciadv.abb7921

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title = "The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells",

abstract = "Bioactive metabolites have wide-ranging biological activities and are a potential source of future research and therapeutic tools. Here, we use nanovibrational stimulation to induce osteogenic differentiation of mesenchymal stem cells, in the absence of off-target, nonosteogenic differentiation. We show that this differentiation method, which does not rely on the addition of exogenous growth factors to culture media, provides an artifact-free approach to identifying bioactive metabolites that specifically and potently induce osteogenesis. We first identify a highly specific metabolite, cholesterol sulfate, an endogenous steroid. Next, a screen of other small molecules with a similar steroid scaffold identified fludrocortisone acetate with both specific and highly potent osteogenic-inducing activity. Further, we implicate cytoskeletal contractility as a measure of osteogenic potency and cell stiffness as a measure of specificity. These findings demonstrate that physical principles can be used to identify bioactive metabolites and then enable optimization of metabolite potency can be optimized by examining structure-function relationships.",

keywords = "bioactive metabolites, nanovibrational stimulation, mesenchymal stem cells",

author = "Thomas Hodgkinson and {Monica Tsimbouri}, P. and Virginia Llopis-Hernandez and Paul Campsie and David Scurr and Childs, {Peter G.} and David Phillips and Sam Donnelly and Julia Wells and Manuel Salmer{\'o}n-S{\'a}nchez and Burgess, {Karl E V} and Morgan Alexander and Massimo Vassalli and Richard Oreffo and Stuart Reid and France, {David J.} and Dalby, {Matthew J.}",

year = "2021",

month = feb,

day = "26",

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Hodgkinson, T, Monica Tsimbouri, P, Llopis-Hernandez, V, Campsie, P, Scurr, D, Childs, PG, Phillips, D, Donnelly, S, Wells, J, Salmerón-Sánchez, M, Burgess, KEV, Alexander, M, Vassalli, M, Oreffo, R, Reid, S, France, DJ & Dalby, MJ 2021, 'The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells', Science Advances, vol. 7, no. 9, eabb7921. https://doi.org/10.1126/sciadv.abb7921

TY - JOUR

T1 - The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells

AU - Hodgkinson, Thomas

AU - Monica Tsimbouri, P.

AU - Llopis-Hernandez, Virginia

AU - Campsie, Paul

AU - Scurr, David

AU - Childs, Peter G.

AU - Phillips, David

AU - Donnelly, Sam

AU - Wells, Julia

AU - Salmerón-Sánchez, Manuel

AU - Burgess, Karl E V

AU - Alexander, Morgan

AU - Vassalli, Massimo

AU - Oreffo, Richard

AU - Reid, Stuart

AU - France, David J.

AU - Dalby, Matthew J.

PY - 2021/2/26

Y1 - 2021/2/26

N2 - Bioactive metabolites have wide-ranging biological activities and are a potential source of future research and therapeutic tools. Here, we use nanovibrational stimulation to induce osteogenic differentiation of mesenchymal stem cells, in the absence of off-target, nonosteogenic differentiation. We show that this differentiation method, which does not rely on the addition of exogenous growth factors to culture media, provides an artifact-free approach to identifying bioactive metabolites that specifically and potently induce osteogenesis. We first identify a highly specific metabolite, cholesterol sulfate, an endogenous steroid. Next, a screen of other small molecules with a similar steroid scaffold identified fludrocortisone acetate with both specific and highly potent osteogenic-inducing activity. Further, we implicate cytoskeletal contractility as a measure of osteogenic potency and cell stiffness as a measure of specificity. These findings demonstrate that physical principles can be used to identify bioactive metabolites and then enable optimization of metabolite potency can be optimized by examining structure-function relationships.

AB - Bioactive metabolites have wide-ranging biological activities and are a potential source of future research and therapeutic tools. Here, we use nanovibrational stimulation to induce osteogenic differentiation of mesenchymal stem cells, in the absence of off-target, nonosteogenic differentiation. We show that this differentiation method, which does not rely on the addition of exogenous growth factors to culture media, provides an artifact-free approach to identifying bioactive metabolites that specifically and potently induce osteogenesis. We first identify a highly specific metabolite, cholesterol sulfate, an endogenous steroid. Next, a screen of other small molecules with a similar steroid scaffold identified fludrocortisone acetate with both specific and highly potent osteogenic-inducing activity. Further, we implicate cytoskeletal contractility as a measure of osteogenic potency and cell stiffness as a measure of specificity. These findings demonstrate that physical principles can be used to identify bioactive metabolites and then enable optimization of metabolite potency can be optimized by examining structure-function relationships.

KW - bioactive metabolites

KW - nanovibrational stimulation

KW - mesenchymal stem cells

UR - https://advances.sciencemag.org/

UR - https://www.biorxiv.org/content/10.1101/2020.02.07.938811v1

U2 - 10.1126/sciadv.abb7921

DO - 10.1126/sciadv.abb7921

M3 - Article

SN - 2375-2548

VL - 7

JO - Science Advances

JF - Science Advances

IS - 9

M1 - eabb7921

ER -

The use of nanovibration to discover specific and potent bioactive metabolites that stimulate osteogenic differentiation in mesenchymal stem cells

Abstract

Keywords

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