Effects of cognate, non-cognate and synthetic CXCR4 and ACKR3 ligands on human lung endothelial cell barrier function
Recent evidence suggests that chemokine CXCL12, the cognate agonist of chemokine receptors CXCR4 and ACKR3, reduces thrombin-mediated impairment of endothelial barrier function. A detailed characterization of the effects of CXCL12 on thrombin-mediated human lung endothelial hyperpermeability is lack...
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| Published in: | PloS one Vol. 12; no. 11; p. e0187949 |
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| Format: | Journal Article |
| Language: | English |
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10-11-2017
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| Abstract | Recent evidence suggests that chemokine CXCL12, the cognate agonist of chemokine receptors CXCR4 and ACKR3, reduces thrombin-mediated impairment of endothelial barrier function. A detailed characterization of the effects of CXCL12 on thrombin-mediated human lung endothelial hyperpermeability is lacking and structure-function correlations are not available. Furthermore, effects of other CXCR4/ACKR3 ligands on lung endothelial barrier function are unknown. Thus, we tested the effects of a panel of CXCR4/ACKR3 ligands (CXCL12, CXCL11, ubiquitin, AMD3100, TC14012) and compared the CXCR4/ACKR3 activities of CXCL12 variants (CXCL12α/β, CXCL12(3-68), CXCL121, CXCL122, CXCL12-S-S4V, CXCL12-R47E, CXCL12-K27A/R41A/R47A) with their effects on human lung endothelial barrier function in permeability assays. CXCL12α enhanced human primary pulmonary artery endothelial cell (hPPAEC) barrier function, whereas CXCL11, ubiquitin, AMD3100 and TC14012 were ineffective. Pre-treatment of hPPAEC with CXCL12α and ubiquitin reduced thrombin-mediated hyperpermeability. CXCL12α-treatment of hPPAEC after thrombin exposure reduced barrier function impairment by 70% (EC50 0.05-0.5nM), which could be antagonized with AMD3100; ubiquitin (0.03-3μM) was ineffective. In a human lung microvascular endothelial cell line (HULEC5a), CXCL12α and ubiquitin post-treatment attenuated thrombin-induced hyperpermeability to a similar degree. CXCL12(3-68) was inefficient to activate CXCR4 in Presto-Tango β-arrestin2 recruitment assays; CXCL12-S-S4V, CXCL12-R47E and CXCL12-K27A/R41A/R47A showed significantly reduced potencies to activate CXCR4. While the potencies of all proteins in ACKR3 Presto-Tango assays were comparable, the efficacy of CXCL12(3-68) to activate ACKR3 was significantly reduced. The potencies to attenuate thrombin-mediated hPPAEC barrier function impairment were: CXCL12α/β, CXCL121, CXCL12-K27A/R41A/R47A > CXCL12-S-S4V, CXCL12-R47E > CXCL122 > CXCL12(3-68). Our findings indicate that CXCR4 activation attenuates thrombin-induced lung endothelial barrier function impairment and suggest that protective effects of CXCL12 are dictated by its CXCR4 agonist activity and interactions of distinct protein moieties with heparan sulfate on the endothelial surface. These data may facilitate development of compounds with improved pharmacological properties to attenuate thrombin-induced vascular leakage in the pulmonary circulation. |
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| AbstractList | Recent evidence suggests that chemokine CXCL12, the cognate agonist of chemokine receptors CXCR4 and ACKR3, reduces thrombin-mediated impairment of endothelial barrier function. A detailed characterization of the effects of CXCL12 on thrombin-mediated human lung endothelial hyperpermeability is lacking and structure-function correlations are not available. Furthermore, effects of other CXCR4/ACKR3 ligands on lung endothelial barrier function are unknown. Thus, we tested the effects of a panel of CXCR4/ACKR3 ligands (CXCL12, CXCL11, ubiquitin, AMD3100, TC14012) and compared the CXCR4/ACKR3 activities of CXCL12 variants (CXCL12α/β, CXCL12(3–68), CXCL121, CXCL122, CXCL12-S-S4V, CXCL12-R47E, CXCL12-K27A/R41A/R47A) with their effects on human lung endothelial barrier function in permeability assays. CXCL12α enhanced human primary pulmonary artery endothelial cell (hPPAEC) barrier function, whereas CXCL11, ubiquitin, AMD3100 and TC14012 were ineffective. Pre-treatment of hPPAEC with CXCL12α and ubiquitin reduced thrombin-mediated hyperpermeability. CXCL12α-treatment of hPPAEC after thrombin exposure reduced barrier function impairment by 70% (EC50 0.05–0.5nM), which could be antagonized with AMD3100; ubiquitin (0.03–3μM) was ineffective. In a human lung microvascular endothelial cell line (HULEC5a), CXCL12α and ubiquitin post-treatment attenuated thrombin-induced hyperpermeability to a similar degree. CXCL12(3–68) was inefficient to activate CXCR4 in Presto-Tango β-arrestin2 recruitment assays; CXCL12-S-S4V, CXCL12-R47E and CXCL12-K27A/R41A/R47A showed significantly reduced potencies to activate CXCR4. While the potencies of all proteins in ACKR3 Presto-Tango assays were comparable, the efficacy of CXCL12(3–68) to activate ACKR3 was significantly reduced. The potencies to attenuate thrombin-mediated hPPAEC barrier function impairment were: CXCL12α/β, CXCL121, CXCL12-K27A/R41A/R47A > CXCL12-S-S4V, CXCL12-R47E > CXCL122 > CXCL12(3–68). Our findings indicate that CXCR4 activation attenuates thrombin-induced lung endothelial barrier function impairment and suggest that protective effects of CXCL12 are dictated by its CXCR4 agonist activity and interactions of distinct protein moieties with heparan sulfate on the endothelial surface. These data may facilitate development of compounds with improved pharmacological properties to attenuate thrombin-induced vascular leakage in the pulmonary circulation. Recent evidence suggests that chemokine CXCL12, the cognate agonist of chemokine receptors CXCR4 and ACKR3, reduces thrombin-mediated impairment of endothelial barrier function. A detailed characterization of the effects of CXCL12 on thrombin-mediated human lung endothelial hyperpermeability is lacking and structure-function correlations are not available. Furthermore, effects of other CXCR4/ACKR3 ligands on lung endothelial barrier function are unknown. Thus, we tested the effects of a panel of CXCR4/ACKR3 ligands (CXCL12, CXCL11, ubiquitin, AMD3100, TC14012) and compared the CXCR4/ACKR3 activities of CXCL12 variants (CXCL12[alpha]/[beta], CXCL12(3-68), CXCL12.sub.1, CXCL12.sub.2, CXCL12-S-S4V, CXCL12-R47E, CXCL12-K27A/R41A/R47A) with their effects on human lung endothelial barrier function in permeability assays. CXCL12[alpha] enhanced human primary pulmonary artery endothelial cell (hPPAEC) barrier function, whereas CXCL11, ubiquitin, AMD3100 and TC14012 were ineffective. Pre-treatment of hPPAEC with CXCL12[alpha] and ubiquitin reduced thrombin-mediated hyperpermeability. CXCL12[alpha]-treatment of hPPAEC after thrombin exposure reduced barrier function impairment by 70% (EC.sub.50 0.05-0.5nM), which could be antagonized with AMD3100; ubiquitin (0.03-3[mu]M) was ineffective. In a human lung microvascular endothelial cell line (HULEC5a), CXCL12[alpha] and ubiquitin post-treatment attenuated thrombin-induced hyperpermeability to a similar degree. CXCL12(3-68) was inefficient to activate CXCR4 in Presto-Tango [beta]-arrestin2 recruitment assays; CXCL12-S-S4V, CXCL12-R47E and CXCL12-K27A/R41A/R47A showed significantly reduced potencies to activate CXCR4. While the potencies of all proteins in ACKR3 Presto-Tango assays were comparable, the efficacy of CXCL12(3-68) to activate ACKR3 was significantly reduced. The potencies to attenuate thrombin-mediated hPPAEC barrier function impairment were: CXCL12[alpha]/[beta], CXCL12.sub.1, CXCL12-K27A/R41A/R47A > CXCL12-S-S4V, CXCL12-R47E > CXCL12.sub.2 > CXCL12(3-68). Our findings indicate that CXCR4 activation attenuates thrombin-induced lung endothelial barrier function impairment and suggest that protective effects of CXCL12 are dictated by its CXCR4 agonist activity and interactions of distinct protein moieties with heparan sulfate on the endothelial surface. These data may facilitate development of compounds with improved pharmacological properties to attenuate thrombin-induced vascular leakage in the pulmonary circulation. Recent evidence suggests that chemokine CXCL12, the cognate agonist of chemokine receptors CXCR4 and ACKR3, reduces thrombin-mediated impairment of endothelial barrier function. A detailed characterization of the effects of CXCL12 on thrombin-mediated human lung endothelial hyperpermeability is lacking and structure-function correlations are not available. Furthermore, effects of other CXCR4/ACKR3 ligands on lung endothelial barrier function are unknown. Thus, we tested the effects of a panel of CXCR4/ACKR3 ligands (CXCL12, CXCL11, ubiquitin, AMD3100, TC14012) and compared the CXCR4/ACKR3 activities of CXCL12 variants (CXCL12α/β, CXCL12(3–68), CXCL12 1 , CXCL12 2 , CXCL12-S-S4V, CXCL12-R47E, CXCL12-K27A/R41A/R47A) with their effects on human lung endothelial barrier function in permeability assays. CXCL12α enhanced human primary pulmonary artery endothelial cell (hPPAEC) barrier function, whereas CXCL11, ubiquitin, AMD3100 and TC14012 were ineffective. Pre-treatment of hPPAEC with CXCL12α and ubiquitin reduced thrombin-mediated hyperpermeability. CXCL12α-treatment of hPPAEC after thrombin exposure reduced barrier function impairment by 70% (EC 50 0.05–0.5nM), which could be antagonized with AMD3100; ubiquitin (0.03–3μM) was ineffective. In a human lung microvascular endothelial cell line (HULEC5a), CXCL12α and ubiquitin post-treatment attenuated thrombin-induced hyperpermeability to a similar degree. CXCL12(3–68) was inefficient to activate CXCR4 in Presto-Tango β-arrestin2 recruitment assays; CXCL12-S-S4V, CXCL12-R47E and CXCL12-K27A/R41A/R47A showed significantly reduced potencies to activate CXCR4. While the potencies of all proteins in ACKR3 Presto-Tango assays were comparable, the efficacy of CXCL12(3–68) to activate ACKR3 was significantly reduced. The potencies to attenuate thrombin-mediated hPPAEC barrier function impairment were: CXCL12α/β, CXCL12 1 , CXCL12-K27A/R41A/R47A > CXCL12-S-S4V, CXCL12-R47E > CXCL12 2 > CXCL12(3–68). Our findings indicate that CXCR4 activation attenuates thrombin-induced lung endothelial barrier function impairment and suggest that protective effects of CXCL12 are dictated by its CXCR4 agonist activity and interactions of distinct protein moieties with heparan sulfate on the endothelial surface. These data may facilitate development of compounds with improved pharmacological properties to attenuate thrombin-induced vascular leakage in the pulmonary circulation. |
| Audience | Academic |
| Author | Majetschak, Matthias Eby, Jonathan M Cheng, You-Hong Volkman, Brian F LaPorte, Heather M |
| AuthorAffiliation | 3 Department of Molecular Pharmacology and Therapeutics, Loyola University Chicago Stritch School of Medicine, Maywood, IL, United States of America Medical College of Georgia, Augusta, UNITED STATES 2 Department of Biochemistry, Medical College of Wisconsin, Milwaukee, WI, United States of America 1 Burn and Shock Trauma Research Institute, Department of Surgery, Loyola University Chicago Stritch School of Medicine, Maywood, IL, United States of America |
| AuthorAffiliation_xml | – name: 3 Department of Molecular Pharmacology and Therapeutics, Loyola University Chicago Stritch School of Medicine, Maywood, IL, United States of America – name: Medical College of Georgia, Augusta, UNITED STATES – name: 1 Burn and Shock Trauma Research Institute, Department of Surgery, Loyola University Chicago Stritch School of Medicine, Maywood, IL, United States of America – name: 2 Department of Biochemistry, Medical College of Wisconsin, Milwaukee, WI, United States of America |
| Author_xml | – sequence: 1 givenname: You-Hong surname: Cheng fullname: Cheng, You-Hong organization: Burn and Shock Trauma Research Institute, Department of Surgery, Loyola University Chicago Stritch School of Medicine, Maywood, IL, United States of America – sequence: 2 givenname: Jonathan M surname: Eby fullname: Eby, Jonathan M organization: Burn and Shock Trauma Research Institute, Department of Surgery, Loyola University Chicago Stritch School of Medicine, Maywood, IL, United States of America – sequence: 3 givenname: Heather M surname: LaPorte fullname: LaPorte, Heather M organization: Burn and Shock Trauma Research Institute, Department of Surgery, Loyola University Chicago Stritch School of Medicine, Maywood, IL, United States of America – sequence: 4 givenname: Brian F surname: Volkman fullname: Volkman, Brian F organization: Department of Biochemistry, Medical College of Wisconsin, Milwaukee, WI, United States of America – sequence: 5 givenname: Matthias orcidid: 0000-0002-4086-0887 surname: Majetschak fullname: Majetschak, Matthias organization: Department of Molecular Pharmacology and Therapeutics, Loyola University Chicago Stritch School of Medicine, Maywood, IL, United States of America |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29125867$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
| Copyright | COPYRIGHT 2017 Public Library of Science 2017 Cheng et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2017 Cheng et al 2017 Cheng et al |
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| References | JN Gonzales (ref3) 2015; 2 A Tripathi (ref37) 2015 TA Baker (ref19) 2012 A Tripathi (ref35) 2015; 112 SP Nassoiy (ref21) 2017 AN Gifford (ref52) 1999; 288 AE Evans (ref34) 2016; 17 W Guo (ref20) 2014 V Saini (ref45) 2010; 3 LJ Drury (ref28) 2011; 108 A Dushianthan (ref4) 2011; 87 F Verkaar (ref57) 2014; 192 MP Crump (ref23) 1997; 16 JM Eby (ref47) 2017 S Franchini (ref59) 2015; 33 SR Coughlin (ref13) 1999; 96 K Kawkitinarong (ref9) 2004; 31 MF Ethier (ref53) 1996; 270 A Arachiche (ref12) 2013; 288 SR Coughlin (ref7) 2000; 407 V Saini (ref44) 2011; 286 Z Johnson (ref55) 2005; 16 V Saini (ref39) 2010; 285 M Majetschak (ref58) 2011; 89 M Majetschak (ref17) 2004; 135 TM Handel (ref54) 2005; 74 JJ Ziarek (ref31) 2013; 288 JJ Ziarek (ref42) 2013; 8 FM Decaillot (ref49) 2011; 286 F Bachelerie (ref26) 2014; 66 VF Segers (ref30) 2007; 116 CT Veldkamp (ref32) 2016; 570 S Gur-Cohen (ref11) 2016; 1370 SA Earle (ref18) 2005; 138 ER Johnson (ref6) 2010; 23 VM Ranieri (ref2) 2012; 307 K Mihara (ref10) 2016; 89 P Proost (ref25) 1998; 432 A Levoye (ref48) 2009; 113 K Kobayashi (ref22) 2014; 34 A Tripathi (ref46) 2013; 52 R Sadir (ref56) 2001; 276 JJ Ziarek (ref27) 2017; 10 R Blank (ref1) 2011; 27 I Kalatskaya (ref41) 2009; 75 JW Murphy (ref51) 2007; 282 LB Ware (ref5) 2006; 27 TJ Chen (ref60) 2016; 454 TA Baker (ref43) 2012; 40 WK Kroeze (ref33) 2015; 22 CT Veldkamp (ref50) 2005; 14 V Saini (ref38) 2011; 286 MA Alberelli (ref8) 2014; 62 P Zhang (ref14) 2012; 126 S Gravel (ref40) 2010; 285 C Guo (ref15) 2016 L Garcia-Covarrubias (ref16) 2008; 36 CT Veldkamp (ref29) 2008; 1 LJ Albee (ref36) 2017; 6 R Janssens (ref24) 2017; 132 |
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| Title | Effects of cognate, non-cognate and synthetic CXCR4 and ACKR3 ligands on human lung endothelial cell barrier function |
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