A mutual regulatory loop between miR-155 and SOCS1 influences renal inflammation and diabetic kidney disease.

Diabetic kidney disease (DKD) is a common microvascular complication of diabetes, a global health issue. Hyperglycemia, in concert with cytokines, activates the Janus kinase (JAK)/signal transducer and activator of transcription (STAT) pathway to induce inflammation and oxidative stress contributing to renal damage. There is evidence of microRNA-155 (miR-155) involvement in diabetes complications, but the underlying mechanisms are unclear. In this study, gain- and loss-of-function experiments were conducted to investigate the interplay between miR-155-5p and suppressor of cytokine signaling 1 (SOCS1) in the regulation of the JAK/STAT pathway during renal inflammation and DKD. In experimental models of mesangial injury and diabetes, miR-155-5p expression correlated inversely with SOCS1 and positively with albuminuria and expression levels of cytokines and prooxidant genes. In renal cells, miR-155-5p mimic downregulated SOCS1 and promoted STAT1/3 activation, cytokine expression, and cell proliferation and migration. Conversely, both miR-155-5p antagonism and SOCS1 overexpression protected cells from inflammation and hyperglycemia damage. In vivo, SOCS1 gene delivery decreased miR-155-5p and kidney injury in diabetic mice. Moreover, therapeutic inhibition of miR-155-5p suppressed STAT1/3 activation and alleviated albuminuria, mesangial damage, and renal expression of inflammatory and fibrotic genes. In conclusion, modulation of the miR-155/SOCS1 axis protects kidneys against diabetic damage, thus highlighting its potential as therapeutic target for DKD.

La presencia de receptores Fc de IgG activadores en macrófagos agrava el desarrollo de aneurisma aórtico abdominal experimental / The presence of activating IgG Fc receptors in macrophages aggravates the development of experimental abdominal aortic aneurysm

Introducción: El aneurisma aórtico abdominal (AAA) es una afección degenerativa y multifactorial caracterizada por una dilatación progresiva de la aorta y activación crónica de inflamación, actividad proteolítica y estrés oxidativo en la pared vascular. La respuesta inmune dependiente de anticuerpos IgG frente a antígenos expuestos en el vaso dañado está implicada en la formación y progresión del AAA, aunque los mecanismos no son del todo conocidos. En este trabajo analizamos la funcionalidad de los receptores Fc de IgG (FcγR), en particular los expresados por el monocito/macrófago, en el desarrollo del AAA experimental. Métodos: En el modelo de AAA inducido por perfusión aórtica de elastasa se examinaron, mediante histología y PCR cuantitativa, las aortas abdominales de ratones de fenotipo salvaje y de ratones deficientes en FcγR, sin y con transferencia adoptiva de macrófagos. In vitro, macrófagos murinos se transfectaron con ARN de interferencia de FcγRIV/CD16.2 o se trataron con un inhibidor de la cinasa Syk antes de la estimulación con inmunocomplejos de IgG. Resultados: La transferencia adoptiva de macrófagos a ratones deficientes en FcγR incrementó su susceptibilidad al desarrollo de AAA. En los ratones que recibieron macrófagos con FcγR funcionales se observó un mayor incremento del diámetro aórtico y del contenido de macrófagos y linfocitos B, así como un aumento en la expresión de la quimiocina CCL2, las citocinas TNF-α e IL-17, la metaloproteinasa MMP2, la enzima prooxidante NADPH oxidasa-2 y las isoformas FcγRIII/CD16 y FcγRIV/CD16.2. In vitro, tanto el silenciamiento génico de FcγRIV/CD16.2 como la inhibición de Syk en macrófagos redujeron la producción de citocinas y anión superóxido inducida por inmunocomplejos...(AU)

Introduction: Abdominal aortic aneurysm (AAA) is a multifactorial, degenerative disease characterized by progressive aortic dilation and chronic activation of inflammation, proteolytic activity, and oxidative stress in the aortic wall. The immune response triggered by antibodies against antigens present in the vascular wall participates in the formation and progression of AAA through mechanisms not completely understood. This work analyses the function of specific IgG receptors (FcγR), especially those expressed by monocytes/macrophages, in the development of experimental AAA. Methods: In the elastase-induced AAA model, the abdominal aortas from wildtype and FcγR deficient mice with/without macrophage adoptive transfer were analysed by histology and quantitative PCR. In vitro, mouse macrophages were transfected with RNA interference of FcγRIV/CD16.2 or treated with Syk kinase inhibitor before stimulation with IgG immune complexes. Results: Macrophage adoptive transfer in FcγR deficient mice increased the susceptibility to AAA development. Mice receiving macrophages with functional FcγR exhibited higher aortic diameter increase, higher content of macrophages and B lymphocytes, and upregulated expression of chemokine CCL2, cytokines (TNF-α and IL-17), metalloproteinase MMP2, prooxidant enzyme NADPH oxidase-2, and the isoforms FcγRIII/CD16 and FcγRIV/CD16.2. In vitro, both FcγRIV/CD16.2 gene silencing and Syk inhibition reduced cytokines and reactive oxygen species production induced by immune complexes in macrophages. Conclusions: Activation of macrophage FcγR contributes to AAA development by inducing mediators of inflammation, proteolysis, and oxidative stress. Modulation of FcγR or effector molecules may represent a potential target for AAA treatment.

The presence of activating IgG Fc receptors in macrophages aggravates the development of experimental abdominal aortic aneurysm. / La presencia de receptores Fc de IgG activadores en macrófagos agrava el desarrollo de aneurisma aórtico abdominal experimental.

INTRODUCTION: Abdominal aortic aneurysm (AAA) is a multifactorial, degenerative disease characterized by progressive aortic dilation and chronic activation of inflammation, proteolytic activity, and oxidative stress in the aortic wall. The immune response triggered by antibodies against antigens present in the vascular wall participates in the formation and progression of AAA through mechanisms not completely understood. This work analyses the function of specific IgG receptors (FcγR), especially those expressed by monocytes/macrophages, in the development of experimental AAA. METHODS: In the elastase-induced AAA model, the abdominal aortas from wildtype and FcγR deficient mice with/without macrophage adoptive transfer were analysed by histology and quantitative PCR. In vitro, mouse macrophages were transfected with RNA interference of FcγRIV/CD16.2 or treated with Syk kinase inhibitor before stimulation with IgG immune complexes. RESULTS: Macrophage adoptive transfer in FcγR deficient mice increased the susceptibility to AAA development. Mice receiving macrophages with functional FcγR exhibited higher aortic diameter increase, higher content of macrophages and B lymphocytes, and upregulated expression of chemokine CCL2, cytokines (TNF-α and IL-17), metalloproteinase MMP2, prooxidant enzyme NADPH oxidase-2, and the isoforms FcγRIII/CD16 and FcγRIV/CD16.2. In vitro, both FcγRIV/CD16.2 gene silencing and Syk inhibition reduced cytokines and reactive oxygen species production induced by immune complexes in macrophages. CONCLUSIONS: Activation of macrophage FcγR contributes to AAA development by inducing mediators of inflammation, proteolysis, and oxidative stress. Modulation of FcγR or effector molecules may represent a potential target for AAA treatment.