TGF-β requires the activation of canonical and non-canonical signalling pathways to induce skeletal muscle atrophy

Ábrigo, Johanna; Campos, Fabián; Simón, Felipe; Riedel, Claudia A.; Cabrera, Daniel; Vilos, Cristián; Cabello-Verrugio, Claudio

doi:10.1515/hsz-2017-0217

Cited by 44 publications

(45 citation statements)

References 48 publications

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“…Overall, our findings show age‐related loss of wall thickness as well as function, that is, decrease in the UCP and these observations are consistent with prior reports . Collectively, our studies demonstrate age related upregulation of two key (Wnt and TGF‐β) fibrogenic signaling and an important atrophy (MuRF‐1) pathways that is regulated by TGF‐β …”

Section: Discussionsupporting

confidence: 92%

“…Overall, our findings suggest that age‐related USM fibrosis is associated with upregulation of both Wnt and TGF‐β‐mediated signaling pathways. In addition to fibrosis, TGF‐β is known to regulate MuRF‐1, a well‐recognized marker of atrophy, and our observations support a role for this protein in USM atrophy …”

Section: Discussionsupporting

confidence: 75%

“…Wnt signaling pathway is also known to play an important role in injury‐related fibrosis in several organs such as lungs, liver, myocardium, kidney, and skin . Wnt signaling also regulates the expression of transforming growth factor (TGF‐β), a key fibrogenic agent and TGF‐β in turn regulates muscle atrophy by activation of MuRF‐1 (Muscle RING‐finger protein‐1) expression . The exact role of MuRF‐1 in EUS muscle atrophy is not well understood and as such warrants investigation.…”

Section: Introductionmentioning

confidence: 99%

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Age and multiparity related urethral sphincter muscle dysfunction in a rabbit model: Potential roles of TGF‐β and Wnt‐β catenin signaling pathways

Rajasekaran

Nguyen

et al. 2018

Neurourology and Urodynamics

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Aims Prior studies demonstrate increased incidence of urinary incontinence (UI) in the geriatric population which affects their quality of life. Pathophysiology of UI in the geriatric population and the underlying molecular mechanisms are still unclear. To elucidate these mechanisms, we performed a pre‐clinical study in a rabbit model and the objectives were to (i) determine the effect of aging as well as multiparity on urethral sphincter muscle thickness and urethral closing pressure (UCP); (ii) examine the role of fibrosis and atrophy; and (iii) elucidate the molecular pathways that mediate fibrosis and atrophy in the urethral tissue. Methods New Zealand White female rabbits (n = 6 each; young 6‐12 months and old over 30 months of age) were anesthetized and urethral muscle thickness and sphincter closure function were measured. Rabbits were then sacrificed and urethral tissues (bladder neck and mid‐urethra) were collected to process for immunostaining as well as for molecular studies for markers for fibrosis (β‐catenin which is an important mediator of Wnt signaling, Collagen‐1, and TGF‐β) and atrophy (MuRF‐1). Results Our studies showed a significant decrease in the urethral sphincter muscle thickness and closure function with age. Age‐related increase in protein and mRNA expression levels of fibrosis, as well as atrophy markers were observed in the bladder neck and mid‐urethral tissues. Conclusions Age and multiparity related increase in fibrosis and atrophy of urethral sphincter muscles may contribute to impaired urethral closure function seen in old animals.

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Section: Discussionsupporting

confidence: 92%

Section: Discussionsupporting

confidence: 75%

Section: Introductionmentioning

confidence: 99%

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Age and multiparity related urethral sphincter muscle dysfunction in a rabbit model: Potential roles of TGF‐β and Wnt‐β catenin signaling pathways

Rajasekaran

Nguyen

et al. 2018

Neurourology and Urodynamics

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“…Also, there was no difference between the protein expression of TGF‐β isoforms and tumour stage (Supporting Information, Figure S3). Moreover, TGF‐β signalling can be activated both by canonical SMAD‐dependent pathway and by non‐canonical signalling pathways, such as ERK1/2, JNK1/2, and p38 MAPKs . Proteins of the canonical TGF‐β pathway (SMAD2 and SMAD3 activation) showed no differences between the groups ( Figure B; P = 0.628 and P = 0.400, respectively).…”

Section: Resultsmentioning

confidence: 94%

“…Proteins of the canonical TGF‐β pathway (SMAD2 and SMAD3 activation) showed no differences between the groups ( Figure B; P = 0.628 and P = 0.400, respectively). In addition to provoking activation of SMAD, TGF‐β also modulates the activity of MAPK pathway, an important signalling pathway that plays a central role in the activation of muscle catabolism in animal models of CC . The protein expression of factors related to MAPK pathway was altered in the tumour of cachectic patients in relation to WSC: p38, JNK, and MEK1 were increased ( P = 0.025, P = 0.050, and P = 0.024, respectively), while MSK1 protein expression did not show alterations between the groups ( Figure C).…”

Section: Resultsmentioning

confidence: 98%

Tumour‐derived transforming growth factor‐β signalling contributes to fibrosis in patients with cancer cachexia

Lima

Simoes

Castro

et al. 2019

J cachexia sarcopenia muscle

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Background Cachexia is a paraneoplastic syndrome related with poor prognosis. The tumour micro‐environment contributes to systemic inflammation and increased oxidative stress as well as to fibrosis. The aim of the present study was to characterise the inflammatory circulating factors and tumour micro‐environment profile, as potentially contributing to tumour fibrosis in cachectic cancer patients. Methods 74 patients (weight stable cancer n = 31; cachectic cancer n = 43) diagnosed with colorectal cancer were recruited, and tumour biopsies were collected during surgery. Multiplex assay was performed to study inflammatory cytokines and growth factors. Immunohistochemistry analysis was carried out to study extracellular matrix components. Results Higher protein expression of inflammatory cytokines and growth factors such as epidermal growth factor, granulocyte–macrophage colony‐stimulating factor, interferon‐α, and interleukin (IL)‐8 was observed in the tumour and serum of cachectic cancer patients in comparison with weight‐stable counterparts. Also, IL‐8 was positively correlated with weight loss in cachectic patients (P = 0.04; r = 0.627). Immunohistochemistry staining showed intense collagen deposition (P = 0.0006) and increased presence of α‐smooth muscle actin (P < 0.0001) in tumours of cachectic cancer patients, characterizing fibrosis. In addition, higher transforming growth factor (TGF)‐β1, TGF‐β2, and TGF‐β3 expression (P = 0.003, P = 0.05, and P = 0.047, respectively) was found in the tumour of cachectic patients, parallel to p38 mitogen‐activated protein kinase alteration. Hypoxia‐inducible factor‐1α mRNA content was significantly increased in the tumour of cachectic patients, when compared with weight‐stable group (P = 0.005). Conclusions Our results demonstrate TGF‐β pathway activation in the tumour in cachexia, through the (non‐canonical) mitogen‐activated protein kinase pathway. The results show that during cachexia, intratumoural inflammatory response contributes to the onset of fibrosis. Tumour remodelling, probably by TGF‐β‐induced transdifferentiation of fibroblasts to myofibroblasts, induces unbalanced inflammatory cytokine profile, angiogenesis, and elevation of extracellular matrix components (EMC). We speculate that these changes may affect tumour aggressiveness and present consequences in peripheral organs.

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TGF‐β/Smads signaling pathway, Hippo‐YAP/TAZ signaling pathway, and VEGF: Their mechanisms and roles in vascular remodeling related diseases

Liu,

Sun,

et al. 2023

Immunity Inflam & Disease

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Vascular remodeling is a basic pathological process in various diseases characterized by abnormal changes in the morphology, structure, and function of vascular cells, such as migration, proliferation, hypertrophy, and apoptosis. Various growth factors and pathways are involved in the process of vascular remodeling. The transforming growth factor‐β (TGF‐β) signaling pathway, which is mainly mediated by TGF‐β1, is an important factor in vascular wall enhancement during vascular development and regulates the vascular response to injury by promoting the accumulation of intimal tissue. Vascular endothelial growth factor (VEGF) has an important effect on initiating the formation of blood vessels. The Hippo‐YAP/TAZ signaling pathway also plays an important role in angiogenesis. In addition, studies have shown that there is a certain interaction between the TGF‐β/Smads signaling pathway, Hippo‐YAP/TAZ signaling pathway, and VEGF. Many studies have shown that in the development of atherosclerosis, hypertension, aneurysm, vertebrobasilar dolichoectasia, pulmonary hypertension, restenosis after percutaneous transluminal angioplasty, and other diseases, various inflammatory reactions lead to changes in vascular structure and vascular microenvironment, which leads to vascular remodeling. The occurrence of vascular remodeling changes the morphology of blood vessels and thus changes the hemodynamics, which is the cause of further development of the disease process. Vascular remodeling can cause vascular smooth muscle cell dysfunction and vascular homeostasis regulation. This review aims to explore the mechanisms of the TGF‐β/Smads signaling pathway, Hippo‐YAP/TAZ signaling pathway, and vascular endothelial growth factor in vascular remodeling and related diseases. This paper is expected to provide new ideas for research on the occurrence and development of related diseases and provide a new direction for research on the treatment of related diseases.

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TGF-β requires the activation of canonical and non-canonical signalling pathways to induce skeletal muscle atrophy

Cited by 44 publications

References 48 publications

Age and multiparity related urethral sphincter muscle dysfunction in a rabbit model: Potential roles of TGF‐β and Wnt‐β catenin signaling pathways

Age and multiparity related urethral sphincter muscle dysfunction in a rabbit model: Potential roles of TGF‐β and Wnt‐β catenin signaling pathways

Tumour‐derived transforming growth factor‐β signalling contributes to fibrosis in patients with cancer cachexia

TGF‐β/Smads signaling pathway, Hippo‐YAP/TAZ signaling pathway, and VEGF: Their mechanisms and roles in vascular remodeling related diseases

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