Identification of Annexina1 as an endogenous regulator of RhoA, and its role in the pathophysiology and experimental therapy of type-2 diabetes

Gareth S.D. Purvis; Massimo Collino; Rodrigo A. Loiola; Andrea Baragetti; Fausto Chiazza; Martina Brovelli; Madeeha H. Sheikh; Debora Collotta; Alessia Cento; Raffaella Mastrocola; Manuela Aragno; Juan C. Cutrin; Chris Reutelingsperger; Liliana Grigore; Alberico L. Catapano; Magdi M. Yaqoob; Giuseppe Danilo Norata; Egle Solito; Christoph Thiemermann

doi:10.3389/fimmu.2019.00571

Identification of Annexina1 as an endogenous regulator of RhoA, and its role in the pathophysiology and experimental therapy of type-2 diabetes

Gareth S.D. Purvis, Massimo Collino, Rodrigo A. Loiola, Andrea Baragetti, Fausto Chiazza, Martina Brovelli, Madeeha H. Sheikh, Debora Collotta, Alessia Cento, Raffaella Mastrocola, Manuela Aragno, Juan C. Cutrin, Chris Reutelingsperger, Liliana Grigore, Alberico L. Catapano, Magdi M. Yaqoob, Giuseppe Danilo Norata, Egle Solito, Christoph Thiemermann

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Annexin A1 (ANXA1) is an endogenously produced anti-inflammatory protein, which plays an important role in the pathophysiology of diseases associated with chronic inflammation. We demonstrate that patients with type-2 diabetes have increased plasma levels of ANXA1 when compared to normoglycemic subjects. Plasma ANXA1 positively correlated with fatty liver index and elevated plasma cholesterol in patients with type-2 diabetes, suggesting a link between aberrant lipid handling, and ANXA1. Using a murine model of high fat diet (HFD)induced insulin resistance, we then investigated (a) the role of endogenous ANXA1 in the pathophysiology of HFD-induced insulin resistance using ANXA1−/− mice, and (b) the potential use of hrANXA1 as a new therapeutic approach for experimental diabetes and its microvascular complications. We demonstrate that: (1) ANXA1−/− mice fed a HFD have a more severe diabetic phenotype (e.g., more severe dyslipidemia, insulin resistance, hepatosteatosis, and proteinuria) compared to WT mice fed a HFD; (2) treatment of WT-mice fed a HFD with hrANXA1 attenuated the development of insulin resistance, hepatosteatosis and proteinuria. We demonstrate here for the first time that ANXA1−/− mice have constitutively activated RhoA. Interestingly, diabetic mice, which have reduced tissue expression of ANXA1, also have activated RhoA. Treatment of HFD-mice with hrANXA1 restored tissue levels of ANXA1 and inhibited RhoA activity, which, in turn, resulted in restoration of the activities of Akt, GSK-3β and endothelial nitric oxide synthase (eNOS) secondary to re-sensitization of IRS-1 signaling. We further demonstrate in human hepatocytes that ANXA1 protects against excessive mitochondrial proton leak by activating FPR2 under hyperglycaemic conditions. In summary, our data suggest that (a) ANXA1 is a key regulator of RhoA activity, which restores IRS-1 signal transduction and (b) recombinant human ANXA1 may represent a novel candidate for the treatment of T2D and/or its complications.

Lingua originale	Inglese
Numero di articolo	571
Rivista	Frontiers in Immunology
Volume	10
Numero di pubblicazione	MAR
DOI	https://doi.org/10.3389/fimmu.2019.00571
Stato di pubblicazione	Pubblicato - 2019
Pubblicato esternamente	Sì

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Purvis, G. S. D., Collino, M., Loiola, R. A., Baragetti, A., Chiazza, F., Brovelli, M., Sheikh, M. H., Collotta, D., Cento, A., Mastrocola, R., Aragno, M., Cutrin, J. C., Reutelingsperger, C., Grigore, L., Catapano, A. L., Yaqoob, M. M., Norata, G. D., Solito, E., & Thiemermann, C. (2019). Identification of Annexina1 as an endogenous regulator of RhoA, and its role in the pathophysiology and experimental therapy of type-2 diabetes. Frontiers in Immunology, 10(MAR), Articolo 571. https://doi.org/10.3389/fimmu.2019.00571

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title = "Identification of Annexina1 as an endogenous regulator of RhoA, and its role in the pathophysiology and experimental therapy of type-2 diabetes",

abstract = "Annexin A1 (ANXA1) is an endogenously produced anti-inflammatory protein, which plays an important role in the pathophysiology of diseases associated with chronic inflammation. We demonstrate that patients with type-2 diabetes have increased plasma levels of ANXA1 when compared to normoglycemic subjects. Plasma ANXA1 positively correlated with fatty liver index and elevated plasma cholesterol in patients with type-2 diabetes, suggesting a link between aberrant lipid handling, and ANXA1. Using a murine model of high fat diet (HFD)induced insulin resistance, we then investigated (a) the role of endogenous ANXA1 in the pathophysiology of HFD-induced insulin resistance using ANXA1−/− mice, and (b) the potential use of hrANXA1 as a new therapeutic approach for experimental diabetes and its microvascular complications. We demonstrate that: (1) ANXA1−/− mice fed a HFD have a more severe diabetic phenotype (e.g., more severe dyslipidemia, insulin resistance, hepatosteatosis, and proteinuria) compared to WT mice fed a HFD; (2) treatment of WT-mice fed a HFD with hrANXA1 attenuated the development of insulin resistance, hepatosteatosis and proteinuria. We demonstrate here for the first time that ANXA1−/− mice have constitutively activated RhoA. Interestingly, diabetic mice, which have reduced tissue expression of ANXA1, also have activated RhoA. Treatment of HFD-mice with hrANXA1 restored tissue levels of ANXA1 and inhibited RhoA activity, which, in turn, resulted in restoration of the activities of Akt, GSK-3β and endothelial nitric oxide synthase (eNOS) secondary to re-sensitization of IRS-1 signaling. We further demonstrate in human hepatocytes that ANXA1 protects against excessive mitochondrial proton leak by activating FPR2 under hyperglycaemic conditions. In summary, our data suggest that (a) ANXA1 is a key regulator of RhoA activity, which restores IRS-1 signal transduction and (b) recombinant human ANXA1 may represent a novel candidate for the treatment of T2D and/or its complications.",

keywords = "Annexin A1, Hepatosteatosis, Metabolism, Nephropathy, Rho A, Type-2 diabetes",

author = "Purvis, {Gareth S.D.} and Massimo Collino and Loiola, {Rodrigo A.} and Andrea Baragetti and Fausto Chiazza and Martina Brovelli and Sheikh, {Madeeha H.} and Debora Collotta and Alessia Cento and Raffaella Mastrocola and Manuela Aragno and Cutrin, {Juan C.} and Chris Reutelingsperger and Liliana Grigore and Catapano, {Alberico L.} and Yaqoob, {Magdi M.} and Norata, {Giuseppe Danilo} and Egle Solito and Christoph Thiemermann",

note = "Publisher Copyright: Copyright {\textcopyright} 2019 Purvis, Collino, Loiola, Baragetti, Chiazza, Brovelli, Sheikh, Collotta, Cento, Mastrocola, Aragno, Cutrin, Reutelingsperger, Grigore, Catapano, Yaqoob, Norata, Solito and Thiemermann. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.",

year = "2019",

doi = "10.3389/fimmu.2019.00571",

language = "English",

volume = "10",

journal = "Frontiers in Immunology",

issn = "1664-3224",

publisher = "Frontiers Media S.A.",

number = "MAR",

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Purvis, GSD, Collino, M, Loiola, RA, Baragetti, A, Chiazza, F, Brovelli, M, Sheikh, MH, Collotta, D, Cento, A, Mastrocola, R, Aragno, M, Cutrin, JC, Reutelingsperger, C, Grigore, L, Catapano, AL, Yaqoob, MM, Norata, GD, Solito, E & Thiemermann, C 2019, 'Identification of Annexina1 as an endogenous regulator of RhoA, and its role in the pathophysiology and experimental therapy of type-2 diabetes', Frontiers in Immunology, vol. 10, n. MAR, 571. https://doi.org/10.3389/fimmu.2019.00571

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T1 - Identification of Annexina1 as an endogenous regulator of RhoA, and its role in the pathophysiology and experimental therapy of type-2 diabetes

AU - Purvis, Gareth S.D.

AU - Collino, Massimo

AU - Loiola, Rodrigo A.

AU - Baragetti, Andrea

AU - Chiazza, Fausto

AU - Brovelli, Martina

AU - Sheikh, Madeeha H.

AU - Collotta, Debora

AU - Cento, Alessia

AU - Mastrocola, Raffaella

AU - Aragno, Manuela

AU - Cutrin, Juan C.

AU - Reutelingsperger, Chris

AU - Grigore, Liliana

AU - Catapano, Alberico L.

AU - Yaqoob, Magdi M.

AU - Norata, Giuseppe Danilo

AU - Solito, Egle

AU - Thiemermann, Christoph

N1 - Publisher Copyright: Copyright © 2019 Purvis, Collino, Loiola, Baragetti, Chiazza, Brovelli, Sheikh, Collotta, Cento, Mastrocola, Aragno, Cutrin, Reutelingsperger, Grigore, Catapano, Yaqoob, Norata, Solito and Thiemermann. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

PY - 2019

Y1 - 2019

N2 - Annexin A1 (ANXA1) is an endogenously produced anti-inflammatory protein, which plays an important role in the pathophysiology of diseases associated with chronic inflammation. We demonstrate that patients with type-2 diabetes have increased plasma levels of ANXA1 when compared to normoglycemic subjects. Plasma ANXA1 positively correlated with fatty liver index and elevated plasma cholesterol in patients with type-2 diabetes, suggesting a link between aberrant lipid handling, and ANXA1. Using a murine model of high fat diet (HFD)induced insulin resistance, we then investigated (a) the role of endogenous ANXA1 in the pathophysiology of HFD-induced insulin resistance using ANXA1−/− mice, and (b) the potential use of hrANXA1 as a new therapeutic approach for experimental diabetes and its microvascular complications. We demonstrate that: (1) ANXA1−/− mice fed a HFD have a more severe diabetic phenotype (e.g., more severe dyslipidemia, insulin resistance, hepatosteatosis, and proteinuria) compared to WT mice fed a HFD; (2) treatment of WT-mice fed a HFD with hrANXA1 attenuated the development of insulin resistance, hepatosteatosis and proteinuria. We demonstrate here for the first time that ANXA1−/− mice have constitutively activated RhoA. Interestingly, diabetic mice, which have reduced tissue expression of ANXA1, also have activated RhoA. Treatment of HFD-mice with hrANXA1 restored tissue levels of ANXA1 and inhibited RhoA activity, which, in turn, resulted in restoration of the activities of Akt, GSK-3β and endothelial nitric oxide synthase (eNOS) secondary to re-sensitization of IRS-1 signaling. We further demonstrate in human hepatocytes that ANXA1 protects against excessive mitochondrial proton leak by activating FPR2 under hyperglycaemic conditions. In summary, our data suggest that (a) ANXA1 is a key regulator of RhoA activity, which restores IRS-1 signal transduction and (b) recombinant human ANXA1 may represent a novel candidate for the treatment of T2D and/or its complications.

AB - Annexin A1 (ANXA1) is an endogenously produced anti-inflammatory protein, which plays an important role in the pathophysiology of diseases associated with chronic inflammation. We demonstrate that patients with type-2 diabetes have increased plasma levels of ANXA1 when compared to normoglycemic subjects. Plasma ANXA1 positively correlated with fatty liver index and elevated plasma cholesterol in patients with type-2 diabetes, suggesting a link between aberrant lipid handling, and ANXA1. Using a murine model of high fat diet (HFD)induced insulin resistance, we then investigated (a) the role of endogenous ANXA1 in the pathophysiology of HFD-induced insulin resistance using ANXA1−/− mice, and (b) the potential use of hrANXA1 as a new therapeutic approach for experimental diabetes and its microvascular complications. We demonstrate that: (1) ANXA1−/− mice fed a HFD have a more severe diabetic phenotype (e.g., more severe dyslipidemia, insulin resistance, hepatosteatosis, and proteinuria) compared to WT mice fed a HFD; (2) treatment of WT-mice fed a HFD with hrANXA1 attenuated the development of insulin resistance, hepatosteatosis and proteinuria. We demonstrate here for the first time that ANXA1−/− mice have constitutively activated RhoA. Interestingly, diabetic mice, which have reduced tissue expression of ANXA1, also have activated RhoA. Treatment of HFD-mice with hrANXA1 restored tissue levels of ANXA1 and inhibited RhoA activity, which, in turn, resulted in restoration of the activities of Akt, GSK-3β and endothelial nitric oxide synthase (eNOS) secondary to re-sensitization of IRS-1 signaling. We further demonstrate in human hepatocytes that ANXA1 protects against excessive mitochondrial proton leak by activating FPR2 under hyperglycaemic conditions. In summary, our data suggest that (a) ANXA1 is a key regulator of RhoA activity, which restores IRS-1 signal transduction and (b) recombinant human ANXA1 may represent a novel candidate for the treatment of T2D and/or its complications.

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KW - Hepatosteatosis

KW - Metabolism

KW - Nephropathy

KW - Rho A

KW - Type-2 diabetes

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U2 - 10.3389/fimmu.2019.00571

DO - 10.3389/fimmu.2019.00571

M3 - Article

SN - 1664-3224

VL - 10

JO - Frontiers in Immunology

JF - Frontiers in Immunology

IS - MAR

M1 - 571

ER -

Identification of Annexina1 as an endogenous regulator of RhoA, and its role in the pathophysiology and experimental therapy of type-2 diabetes

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