Chemokines and galectins form heterodimers to modulate inflammation

Veit Eckardt; Michelle C. Miller; Xavier Blanchet; Rundan Duan; Julian Leberzammer; Johan Duchene; Oliver Soehnlein; Remco T. A. Megens; Anna-Kristin Ludwig; Aurelio Dregni; Alexander Faussner; Kanin Wichapong; Hans Ippel; Ingrid Dijkgraaf; Herbert Kaltner; Yvonne Doering; Kiril Bidzhekov; Tilman M. Hackeng; Christian Weber; Hans-Joachim Gabius; Philipp von Hundelshausen; Kevin H. Mayo

doi:10.15252/embr.201947852

Chemokines and galectins form heterodimers to modulate inflammation

Veit Eckardt, Michelle C. Miller, Xavier Blanchet, Rundan Duan, Julian Leberzammer, Johan Duchene, Oliver Soehnlein, Remco T. A. Megens, Anna-Kristin Ludwig, Aurelio Dregni, Alexander Faussner, Kanin Wichapong, Hans Ippel, Ingrid Dijkgraaf, Herbert Kaltner, Yvonne Doering, Kiril Bidzhekov, Tilman M. Hackeng, Christian Weber, Hans-Joachim GabiusPhilipp von Hundelshausen^*, Kevin H. Mayo

^*Corresponding author for this work

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

Abstract

Chemokines and galectins are simultaneously upregulated and mediate leukocyte recruitment during inflammation. Until now, these effector molecules have been considered to function independently. Here, we tested the hypothesis that they form molecular hybrids. By systematically screening chemokines for their ability to bind galectin-1 and galectin-3, we identified several interacting pairs, such as CXCL12 and galectin-3. Based on NMR and MD studies of the CXCL12/galectin-3 heterodimer, we identified contact sites between CXCL12 beta-strand 1 and Gal-3 F-face residues. Mutagenesis of galectin-3 residues involved in heterodimer formation resulted in reduced binding to CXCL12, enabling testing of functional activity comparatively. Galectin-3, but not its mutants, inhibited CXCL12-induced chemotaxis of leukocytes and their recruitment into the mouse peritoneum. Moreover, galectin-3 attenuated CXCL12-stimulated signaling via its receptor CXCR4 in a ternary complex with the chemokine and receptor, consistent with our structural model. This first report of heterodimerization between chemokines and galectins reveals a new type of interaction between inflammatory mediators that can underlie a novel immunoregulatory mechanism in inflammation. Thus, further exploration of the chemokine/galectin interactome is warranted.

Original language	English
Article number	47852
Number of pages	17
Journal	Embo Reports
Volume	21
Issue number	4
DOIs	https://doi.org/10.15252/embr.201947852
Publication status	Published - 3 Apr 2020

Keywords

chemotaxis
CXCL12
G protein-coupled receptor
galectin-3
lectin
T-CELLS
BINDING
ATHEROSCLEROSIS
NEUTROPHILS
DIMERIZATION
TRAFFICKING
RECEPTORS
MOLECULE
PATTERNS

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Eckardt, V., Miller, M. C., Blanchet, X., Duan, R., Leberzammer, J., Duchene, J., Soehnlein, O., Megens, R. T. A., Ludwig, A.-K., Dregni, A., Faussner, A., Wichapong, K., Ippel, H., Dijkgraaf, I., Kaltner, H., Doering, Y., Bidzhekov, K., Hackeng, T. M., Weber, C., ... Mayo, K. H. (2020). Chemokines and galectins form heterodimers to modulate inflammation. Embo Reports, 21(4), Article 47852. https://doi.org/10.15252/embr.201947852

@article{b77ea505c42745db96b1024ae341ef6a,

title = "Chemokines and galectins form heterodimers to modulate inflammation",

abstract = "Chemokines and galectins are simultaneously upregulated and mediate leukocyte recruitment during inflammation. Until now, these effector molecules have been considered to function independently. Here, we tested the hypothesis that they form molecular hybrids. By systematically screening chemokines for their ability to bind galectin-1 and galectin-3, we identified several interacting pairs, such as CXCL12 and galectin-3. Based on NMR and MD studies of the CXCL12/galectin-3 heterodimer, we identified contact sites between CXCL12 beta-strand 1 and Gal-3 F-face residues. Mutagenesis of galectin-3 residues involved in heterodimer formation resulted in reduced binding to CXCL12, enabling testing of functional activity comparatively. Galectin-3, but not its mutants, inhibited CXCL12-induced chemotaxis of leukocytes and their recruitment into the mouse peritoneum. Moreover, galectin-3 attenuated CXCL12-stimulated signaling via its receptor CXCR4 in a ternary complex with the chemokine and receptor, consistent with our structural model. This first report of heterodimerization between chemokines and galectins reveals a new type of interaction between inflammatory mediators that can underlie a novel immunoregulatory mechanism in inflammation. Thus, further exploration of the chemokine/galectin interactome is warranted.",

keywords = "chemotaxis, CXCL12, G protein-coupled receptor, galectin-3, lectin, T-CELLS, BINDING, ATHEROSCLEROSIS, NEUTROPHILS, DIMERIZATION, TRAFFICKING, RECEPTORS, MOLECULE, PATTERNS",

author = "Veit Eckardt and Miller, {Michelle C.} and Xavier Blanchet and Rundan Duan and Julian Leberzammer and Johan Duchene and Oliver Soehnlein and Megens, {Remco T. A.} and Anna-Kristin Ludwig and Aurelio Dregni and Alexander Faussner and Kanin Wichapong and Hans Ippel and Ingrid Dijkgraaf and Herbert Kaltner and Yvonne Doering and Kiril Bidzhekov and Hackeng, {Tilman M.} and Christian Weber and Hans-Joachim Gabius and {von Hundelshausen}, Philipp and Mayo, {Kevin H.}",

note = "Funding Information: This work was supported by funds from the National Science Foundation (BIR‐961477), the University of Minnesota Medical School, and the Minnesota Medical Foundation (K.H.M) and by the Deutsche Forschungsgemeinschaft [SFB914, B08 (O.S. and C.W.), SFB1123, A1 (C.W. and Y.D.), A2 (P.v.H and H.‐J.G.), and Z1 (R.T.A.M.), INST 409/150‐1 FUGG (C.W. and R.T.A.M)]. At Maastricht University, C.W. is Van de Laar professor of atherosclerosis, and K.H.M. is Van de Laar professor of structural biology. K.H.M. also gratefully acknowledges support for a visiting professor fellowship at the Ludwigs‐Maximilian‐Universit{\"a}t (LMU) from the LMU Center of Advanced Studies, as well as from the Alexander von Humboldt‐Stiftung. We are all most grateful to the reviewers for their detailed, expert input during the review process. Publisher Copyright: {\textcopyright} 2020 The Authors. Published under the terms of the CC BY 4.0 license",

year = "2020",

month = apr,

day = "3",

doi = "10.15252/embr.201947852",

language = "English",

volume = "21",

journal = "Embo Reports",

issn = "1469-221X",

publisher = "Wiley",

number = "4",

}

Eckardt, V, Miller, MC, Blanchet, X, Duan, R, Leberzammer, J, Duchene, J, Soehnlein, O, Megens, RTA, Ludwig, A-K, Dregni, A, Faussner, A, Wichapong, K , Ippel, H , Dijkgraaf, I, Kaltner, H, Doering, Y, Bidzhekov, K, Hackeng, TM , Weber, C, Gabius, H-J, von Hundelshausen, P & Mayo, KH 2020, 'Chemokines and galectins form heterodimers to modulate inflammation', Embo Reports, vol. 21, no. 4, 47852. https://doi.org/10.15252/embr.201947852

TY - JOUR

T1 - Chemokines and galectins form heterodimers to modulate inflammation

AU - Eckardt, Veit

AU - Miller, Michelle C.

AU - Blanchet, Xavier

AU - Duan, Rundan

AU - Leberzammer, Julian

AU - Duchene, Johan

AU - Soehnlein, Oliver

AU - Megens, Remco T. A.

AU - Ludwig, Anna-Kristin

AU - Dregni, Aurelio

AU - Faussner, Alexander

AU - Wichapong, Kanin

AU - Ippel, Hans

AU - Dijkgraaf, Ingrid

AU - Kaltner, Herbert

AU - Doering, Yvonne

AU - Bidzhekov, Kiril

AU - Hackeng, Tilman M.

AU - Weber, Christian

AU - Gabius, Hans-Joachim

AU - von Hundelshausen, Philipp

AU - Mayo, Kevin H.

N1 - Funding Information: This work was supported by funds from the National Science Foundation (BIR‐961477), the University of Minnesota Medical School, and the Minnesota Medical Foundation (K.H.M) and by the Deutsche Forschungsgemeinschaft [SFB914, B08 (O.S. and C.W.), SFB1123, A1 (C.W. and Y.D.), A2 (P.v.H and H.‐J.G.), and Z1 (R.T.A.M.), INST 409/150‐1 FUGG (C.W. and R.T.A.M)]. At Maastricht University, C.W. is Van de Laar professor of atherosclerosis, and K.H.M. is Van de Laar professor of structural biology. K.H.M. also gratefully acknowledges support for a visiting professor fellowship at the Ludwigs‐Maximilian‐Universität (LMU) from the LMU Center of Advanced Studies, as well as from the Alexander von Humboldt‐Stiftung. We are all most grateful to the reviewers for their detailed, expert input during the review process. Publisher Copyright: © 2020 The Authors. Published under the terms of the CC BY 4.0 license

PY - 2020/4/3

Y1 - 2020/4/3

N2 - Chemokines and galectins are simultaneously upregulated and mediate leukocyte recruitment during inflammation. Until now, these effector molecules have been considered to function independently. Here, we tested the hypothesis that they form molecular hybrids. By systematically screening chemokines for their ability to bind galectin-1 and galectin-3, we identified several interacting pairs, such as CXCL12 and galectin-3. Based on NMR and MD studies of the CXCL12/galectin-3 heterodimer, we identified contact sites between CXCL12 beta-strand 1 and Gal-3 F-face residues. Mutagenesis of galectin-3 residues involved in heterodimer formation resulted in reduced binding to CXCL12, enabling testing of functional activity comparatively. Galectin-3, but not its mutants, inhibited CXCL12-induced chemotaxis of leukocytes and their recruitment into the mouse peritoneum. Moreover, galectin-3 attenuated CXCL12-stimulated signaling via its receptor CXCR4 in a ternary complex with the chemokine and receptor, consistent with our structural model. This first report of heterodimerization between chemokines and galectins reveals a new type of interaction between inflammatory mediators that can underlie a novel immunoregulatory mechanism in inflammation. Thus, further exploration of the chemokine/galectin interactome is warranted.

AB - Chemokines and galectins are simultaneously upregulated and mediate leukocyte recruitment during inflammation. Until now, these effector molecules have been considered to function independently. Here, we tested the hypothesis that they form molecular hybrids. By systematically screening chemokines for their ability to bind galectin-1 and galectin-3, we identified several interacting pairs, such as CXCL12 and galectin-3. Based on NMR and MD studies of the CXCL12/galectin-3 heterodimer, we identified contact sites between CXCL12 beta-strand 1 and Gal-3 F-face residues. Mutagenesis of galectin-3 residues involved in heterodimer formation resulted in reduced binding to CXCL12, enabling testing of functional activity comparatively. Galectin-3, but not its mutants, inhibited CXCL12-induced chemotaxis of leukocytes and their recruitment into the mouse peritoneum. Moreover, galectin-3 attenuated CXCL12-stimulated signaling via its receptor CXCR4 in a ternary complex with the chemokine and receptor, consistent with our structural model. This first report of heterodimerization between chemokines and galectins reveals a new type of interaction between inflammatory mediators that can underlie a novel immunoregulatory mechanism in inflammation. Thus, further exploration of the chemokine/galectin interactome is warranted.

KW - chemotaxis

KW - CXCL12

KW - G protein-coupled receptor

KW - galectin-3

KW - lectin

KW - T-CELLS

KW - BINDING

KW - ATHEROSCLEROSIS

KW - NEUTROPHILS

KW - DIMERIZATION

KW - TRAFFICKING

KW - RECEPTORS

KW - MOLECULE

KW - PATTERNS

U2 - 10.15252/embr.201947852

DO - 10.15252/embr.201947852

M3 - Article

C2 - 32080959

SN - 1469-221X

VL - 21

JO - Embo Reports

JF - Embo Reports

IS - 4

M1 - 47852

ER -