Rotavirus induces intercellular calcium waves through ADP signaling

Alexandra L. Chang-Graham; Jacob L. Perry; Melinda A. Engevik; Kristen A. Engevik; Francesca J. Scribano; J. Thomas Gebert; Heather A. Danhof; Joel C. Nelson; Joseph S. Kellen; Alicia C. Strtak; Narayan P. Sastri; Mary K. Estes; Robert A. Britton; James Versalovic; Joseph M. Hyser

doi:10.1126/science.abc3621

Rotavirus induces intercellular calcium waves through ADP signaling

Alexandra L. Chang-Graham, Jacob L. Perry, Melinda A. Engevik, Kristen A. Engevik, Francesca J. Scribano, J. Thomas Gebert, Heather A. Danhof, Joel C. Nelson, Joseph S. Kellen, Alicia C. Strtak, Narayan P. Sastri, Mary K. Estes, Robert A. Britton, James Versalovic, Joseph M. Hyser

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Abstract

Rotavirus causes severe diarrheal disease in children by broadly dysregulating intestinal homeostasis. However, the underlying mechanism(s) of rotavirus-induced dysregulation remains unclear. We found that rotavirus-infected cells produce paracrine signals that manifested as intercellular calcium waves (ICWs), observed in cell lines and human intestinal enteroids. Rotavirus ICWs were caused by the release of extracellular adenosine 5'-diphosphate (ADP) that activated P2Y1 purinergic receptors on neighboring cells. ICWs were blocked by P2Y1 antagonists or CRISPR-Cas9 knockout of the P2Y1 receptor. Blocking the ADP signal reduced rotavirus replication, inhibited rotavirus-induced serotonin release and fluid secretion, and reduced diarrhea severity in neonatal mice. Thus, rotavirus exploited paracrine purinergic signaling to generate ICWs that amplified the dysregulation of host cells and altered gastrointestinal physiology to cause diarrhea.

Original language	English (US)
Article number	eabc3621
Journal	Science
Volume	370
Issue number	6519
DOIs	https://doi.org/10.1126/science.abc3621
State	Published - Nov 20 2020

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Chang-Graham, A. L., Perry, J. L., Engevik, M. A., Engevik, K. A., Scribano, F. J., Gebert, J. T., Danhof, H. A., Nelson, J. C., Kellen, J. S., Strtak, A. C., Sastri, N. P., Estes, M. K., Britton, R. A., Versalovic, J., & Hyser, J. M. (2020). Rotavirus induces intercellular calcium waves through ADP signaling. Science, 370(6519), Article eabc3621. https://doi.org/10.1126/science.abc3621

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title = "Rotavirus induces intercellular calcium waves through ADP signaling",

abstract = "Rotavirus causes severe diarrheal disease in children by broadly dysregulating intestinal homeostasis. However, the underlying mechanism(s) of rotavirus-induced dysregulation remains unclear. We found that rotavirus-infected cells produce paracrine signals that manifested as intercellular calcium waves (ICWs), observed in cell lines and human intestinal enteroids. Rotavirus ICWs were caused by the release of extracellular adenosine 5'-diphosphate (ADP) that activated P2Y1 purinergic receptors on neighboring cells. ICWs were blocked by P2Y1 antagonists or CRISPR-Cas9 knockout of the P2Y1 receptor. Blocking the ADP signal reduced rotavirus replication, inhibited rotavirus-induced serotonin release and fluid secretion, and reduced diarrhea severity in neonatal mice. Thus, rotavirus exploited paracrine purinergic signaling to generate ICWs that amplified the dysregulation of host cells and altered gastrointestinal physiology to cause diarrhea.",

author = "Chang-Graham, {Alexandra L.} and Perry, {Jacob L.} and Engevik, {Melinda A.} and Engevik, {Kristen A.} and Scribano, {Francesca J.} and Gebert, {J. Thomas} and Danhof, {Heather A.} and Nelson, {Joel C.} and Kellen, {Joseph S.} and Strtak, {Alicia C.} and Sastri, {Narayan P.} and Estes, {Mary K.} and Britton, {Robert A.} and James Versalovic and Hyser, {Joseph M.}",

year = "2020",

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doi = "10.1126/science.abc3621",

language = "English (US)",

volume = "370",

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AU - Chang-Graham, Alexandra L.

AU - Perry, Jacob L.

AU - Engevik, Melinda A.

AU - Engevik, Kristen A.

AU - Scribano, Francesca J.

AU - Gebert, J. Thomas

AU - Danhof, Heather A.

AU - Nelson, Joel C.

AU - Kellen, Joseph S.

AU - Strtak, Alicia C.

AU - Sastri, Narayan P.

AU - Estes, Mary K.

AU - Britton, Robert A.

AU - Versalovic, James

AU - Hyser, Joseph M.

PY - 2020/11/20

Y1 - 2020/11/20

N2 - Rotavirus causes severe diarrheal disease in children by broadly dysregulating intestinal homeostasis. However, the underlying mechanism(s) of rotavirus-induced dysregulation remains unclear. We found that rotavirus-infected cells produce paracrine signals that manifested as intercellular calcium waves (ICWs), observed in cell lines and human intestinal enteroids. Rotavirus ICWs were caused by the release of extracellular adenosine 5'-diphosphate (ADP) that activated P2Y1 purinergic receptors on neighboring cells. ICWs were blocked by P2Y1 antagonists or CRISPR-Cas9 knockout of the P2Y1 receptor. Blocking the ADP signal reduced rotavirus replication, inhibited rotavirus-induced serotonin release and fluid secretion, and reduced diarrhea severity in neonatal mice. Thus, rotavirus exploited paracrine purinergic signaling to generate ICWs that amplified the dysregulation of host cells and altered gastrointestinal physiology to cause diarrhea.

AB - Rotavirus causes severe diarrheal disease in children by broadly dysregulating intestinal homeostasis. However, the underlying mechanism(s) of rotavirus-induced dysregulation remains unclear. We found that rotavirus-infected cells produce paracrine signals that manifested as intercellular calcium waves (ICWs), observed in cell lines and human intestinal enteroids. Rotavirus ICWs were caused by the release of extracellular adenosine 5'-diphosphate (ADP) that activated P2Y1 purinergic receptors on neighboring cells. ICWs were blocked by P2Y1 antagonists or CRISPR-Cas9 knockout of the P2Y1 receptor. Blocking the ADP signal reduced rotavirus replication, inhibited rotavirus-induced serotonin release and fluid secretion, and reduced diarrhea severity in neonatal mice. Thus, rotavirus exploited paracrine purinergic signaling to generate ICWs that amplified the dysregulation of host cells and altered gastrointestinal physiology to cause diarrhea.

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Rotavirus induces intercellular calcium waves through ADP signaling

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