An engineered S1P chaperone attenuates hypertension and ischemic injury

Steven L. Swendeman; Yuquan Xiong; Anna Cantalupo; Hui Yuan; Nathalie Burg; Yu Hisano; Andreane Cartier; Catherine H. Liu; Eric Engelbrecht; Victoria Blaho; Yi Zhang; Keisuke Yanagida; Sylvain Galvani; Hideru Obinata; Jane E. Salmon; Teresa Sanchez; Annarita Di Lorenzo; Timothy Hla

doi:10.1126/scisignal.aal2722

An engineered S1P chaperone attenuates hypertension and ischemic injury

Steven L. Swendeman, Yuquan Xiong, Anna Cantalupo, Hui Yuan, Nathalie Burg, Yu Hisano, Andreane Cartier, Catherine H. Liu, Eric Engelbrecht, Victoria Blaho, Yi Zhang, Keisuke Yanagida, Sylvain Galvani, Hideru Obinata, Jane E. Salmon, Teresa Sanchez, Annarita Di Lorenzo, Timothy Hla

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

89 Scopus citations

Abstract

Endothelial dysfunction, a hallmark of vascular disease, is restored by plasma high-density lipoprotein (HDL). However, a generalized increase in HDL abundance is not beneficial, suggesting that specific HDL species mediate protective effects. Apolipoprotein M-containing HDL (ApoM+HDL), which carries the bioactive lipid sphingosine 1-phosphate (S1P), promotes endothelial function by activating G protein-coupled S1P receptors. Moreover, HDL-bound S1P is limiting in several inflammatory, metabolic, and vascular diseases. We report the development of a soluble carrier for S1P, ApoM-Fc,which activated S1P receptors in a sustained manner and promoted endothelial function. In contrast, ApoM-Fc did not modulate circulating lymphocyte numbers, suggesting that it specifically activated endothelial S1P receptors. ApoM-Fc administration reduced blood pressure in hypertensive mice, attenuated myocardial damage after ischemia/reperfusion injury, and reduced brain infarct volume in themiddle cerebral artery occlusionmodel of stroke. Our proof-of-concept study suggests that selective and sustained targeting of endothelial S1P receptors by ApoM-Fc could be a viable therapeutic strategy in vascular diseases.

Original language	English
Article number	eaal2722
Journal	Science Signaling
Volume	10
Issue number	492
DOIs	https://doi.org/10.1126/scisignal.aal2722
State	Published - 15 Aug 2017
Externally published	Yes

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Swendeman, S. L., Xiong, Y., Cantalupo, A., Yuan, H., Burg, N., Hisano, Y., Cartier, A., Liu, C. H., Engelbrecht, E., Blaho, V., Zhang, Y., Yanagida, K., Galvani, S., Obinata, H., Salmon, J. E., Sanchez, T., Di Lorenzo, A., & Hla, T. (2017). An engineered S1P chaperone attenuates hypertension and ischemic injury. Science Signaling, 10(492), Article eaal2722. https://doi.org/10.1126/scisignal.aal2722

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title = "An engineered S1P chaperone attenuates hypertension and ischemic injury",

abstract = "Endothelial dysfunction, a hallmark of vascular disease, is restored by plasma high-density lipoprotein (HDL). However, a generalized increase in HDL abundance is not beneficial, suggesting that specific HDL species mediate protective effects. Apolipoprotein M-containing HDL (ApoM+HDL), which carries the bioactive lipid sphingosine 1-phosphate (S1P), promotes endothelial function by activating G protein-coupled S1P receptors. Moreover, HDL-bound S1P is limiting in several inflammatory, metabolic, and vascular diseases. We report the development of a soluble carrier for S1P, ApoM-Fc,which activated S1P receptors in a sustained manner and promoted endothelial function. In contrast, ApoM-Fc did not modulate circulating lymphocyte numbers, suggesting that it specifically activated endothelial S1P receptors. ApoM-Fc administration reduced blood pressure in hypertensive mice, attenuated myocardial damage after ischemia/reperfusion injury, and reduced brain infarct volume in themiddle cerebral artery occlusionmodel of stroke. Our proof-of-concept study suggests that selective and sustained targeting of endothelial S1P receptors by ApoM-Fc could be a viable therapeutic strategy in vascular diseases.",

author = "Swendeman, {Steven L.} and Yuquan Xiong and Anna Cantalupo and Hui Yuan and Nathalie Burg and Yu Hisano and Andreane Cartier and Liu, {Catherine H.} and Eric Engelbrecht and Victoria Blaho and Yi Zhang and Keisuke Yanagida and Sylvain Galvani and Hideru Obinata and Salmon, {Jane E.} and Teresa Sanchez and {Di Lorenzo}, Annarita and Timothy Hla",

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Swendeman, SL, Xiong, Y, Cantalupo, A, Yuan, H, Burg, N, Hisano, Y, Cartier, A, Liu, CH, Engelbrecht, E, Blaho, V, Zhang, Y, Yanagida, K, Galvani, S, Obinata, H, Salmon, JE, Sanchez, T, Di Lorenzo, A & Hla, T 2017, 'An engineered S1P chaperone attenuates hypertension and ischemic injury', Science Signaling, vol. 10, no. 492, eaal2722. https://doi.org/10.1126/scisignal.aal2722

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AU - Swendeman, Steven L.

AU - Xiong, Yuquan

AU - Cantalupo, Anna

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AU - Hisano, Yu

AU - Cartier, Andreane

AU - Liu, Catherine H.

AU - Engelbrecht, Eric

AU - Blaho, Victoria

AU - Zhang, Yi

AU - Yanagida, Keisuke

AU - Galvani, Sylvain

AU - Obinata, Hideru

AU - Salmon, Jane E.

AU - Sanchez, Teresa

AU - Di Lorenzo, Annarita

AU - Hla, Timothy

PY - 2017/8/15

Y1 - 2017/8/15

N2 - Endothelial dysfunction, a hallmark of vascular disease, is restored by plasma high-density lipoprotein (HDL). However, a generalized increase in HDL abundance is not beneficial, suggesting that specific HDL species mediate protective effects. Apolipoprotein M-containing HDL (ApoM+HDL), which carries the bioactive lipid sphingosine 1-phosphate (S1P), promotes endothelial function by activating G protein-coupled S1P receptors. Moreover, HDL-bound S1P is limiting in several inflammatory, metabolic, and vascular diseases. We report the development of a soluble carrier for S1P, ApoM-Fc,which activated S1P receptors in a sustained manner and promoted endothelial function. In contrast, ApoM-Fc did not modulate circulating lymphocyte numbers, suggesting that it specifically activated endothelial S1P receptors. ApoM-Fc administration reduced blood pressure in hypertensive mice, attenuated myocardial damage after ischemia/reperfusion injury, and reduced brain infarct volume in themiddle cerebral artery occlusionmodel of stroke. Our proof-of-concept study suggests that selective and sustained targeting of endothelial S1P receptors by ApoM-Fc could be a viable therapeutic strategy in vascular diseases.

AB - Endothelial dysfunction, a hallmark of vascular disease, is restored by plasma high-density lipoprotein (HDL). However, a generalized increase in HDL abundance is not beneficial, suggesting that specific HDL species mediate protective effects. Apolipoprotein M-containing HDL (ApoM+HDL), which carries the bioactive lipid sphingosine 1-phosphate (S1P), promotes endothelial function by activating G protein-coupled S1P receptors. Moreover, HDL-bound S1P is limiting in several inflammatory, metabolic, and vascular diseases. We report the development of a soluble carrier for S1P, ApoM-Fc,which activated S1P receptors in a sustained manner and promoted endothelial function. In contrast, ApoM-Fc did not modulate circulating lymphocyte numbers, suggesting that it specifically activated endothelial S1P receptors. ApoM-Fc administration reduced blood pressure in hypertensive mice, attenuated myocardial damage after ischemia/reperfusion injury, and reduced brain infarct volume in themiddle cerebral artery occlusionmodel of stroke. Our proof-of-concept study suggests that selective and sustained targeting of endothelial S1P receptors by ApoM-Fc could be a viable therapeutic strategy in vascular diseases.

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JO - Science Signaling

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An engineered S1P chaperone attenuates hypertension and ischemic injury

Abstract

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