Perivascular Cells in Diffuse Cutaneous Systemic Sclerosis Overexpress Activated ADAM12 and Are Involved in Myofibroblast Transdifferentiation and Development of Fibrosis

Cipriani, Paola; Benedetto, Paola Di; Ruscitti, Piero; Liakouli, Vasiliki; Berardicurti, Onorina; Carubbi, Francesco; Ciccia, Francesco; Guggino, Giuliana; Zazzeroni, Francesca; Alesse, Edoardo; Triolo, Giovanni; Giacomelli, Roberto

doi:10.3899/jrheum.150996

Cited by 34 publications

(22 citation statements)

References 46 publications

(56 reference statements)

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“…The neutrophils of the intraluminal thrombus exposed to tobacco smoke extract showed increased ADAM10 and 17 content, cleavage of these molecules into active forms, and release of membrane microvesicles carrying mature ADAM10 and detectable ADAM17, which contributed to the damage of the underlying aortic wall [38]. As might be expected, we found that both ADAM10 and ADAM17 proteins were upregulated in the murine AAA in the current study, which is similar to the previous observation that both transmembrane proteases are also elevated in the rat thoracic aortic aneurysm [39]. The data also offer new experimental support for the involvement of ADAM10 in the development of AAA, consistent with previous study [14].…”

Section: Discussionsupporting

confidence: 90%

Role of MicroRNA-103a Targeting ADAM10 in Abdominal Aortic Aneurysm

Jiao

Yao

Zhang

et al. 2017

BioMed Research International

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MicroRNAs (miRNAs) are deregulated in various vascular ailments including abdominal aortic aneurysm (AAA). MiR-103 is involved in vascular, metabolic, and malignant diseases, but whether it participates in the pathogenesis of AAA remains elusive. ADAM10 plays a vital role in the formation of aneurysm, but whether miRs modulate its activity during AAA formation is totally unknown. In this study, we detected the significantly increased protein expression of ADAM10 in angiotensin II induced murine AAA specimens, while the mRNA expression of ADAM10 was similar between AAA and control, suggesting the posttranscriptional regulation. The ADAM10 specific inhibitor GI254023X dramatically reduced the macrophage infiltration of murine abdominal aorta. Bioinformatic predictions suggest that ADAM10 is the target of miR-103a/107 but the binding site is exclusive. At the cellular level, miR-103a-1 suppressed the protein expression of ADAM10, while antisense miR-103a-1 increased its expression. Particularly, with the progression of murine AAA, the mRNA expression of miR-103a/107 substantially decreased and the protein expression of ADAM10 greatly increased. Together, our data afford the new insight that miR-103a inhibited AAA growth via targeting ADAM10, which might be a promising therapeutic strategy to alleviate AAA.

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Section: Discussionsupporting

confidence: 90%

Role of MicroRNA-103a Targeting ADAM10 in Abdominal Aortic Aneurysm

Jiao

Yao

Zhang

et al. 2017

BioMed Research International

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“…Interestingly, immunohistochemistry studies performed two decades ago suggested that subsets of perivascular mesenchymal cells migrate from their perivascular location and become myofibroblasts, synthesizing collagen in patients with excessive dermal scarring (88). Consistent with this hypothesis, increased numbers of PDGFRβ + perivascular cells are found in patients with early systemic sclerosis, and expression of ADAM12 in the dermis, as well as serum levels of soluble ADAM12, is increased in scleroderma patients (89)(90)(91)(92).…”

Section: Skin Fibrosissupporting

confidence: 52%

The perivascular origin of pathological fibroblasts

Carlo¹,

Peduto²

2018

Journal of Clinical Investigation

128

140

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The ability to repair tissues is essential for the survival of organisms. In chronic settings, the failure of the repair process to terminate results in overproduction of collagen, a pathology known as fibrosis, which compromises organ recovery and impairs function. The origin of the collagen-overproducing cell has been debated for years. Here we review recent insights gained from the use of lineage tracing approaches in several organs. The resulting evidence points toward specific subsets of tissue-resident mesenchymal cells, mainly localized in a perivascular position, as the major source for collagen-producing cells after injury. We discuss these findings in view of the functional heterogeneity of mesenchymal cells of the perivascular niche, which have essential vascular, immune, and regenerative functions that need to be preserved for efficient repair.

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“…36,37 In fact, the pathogenic link between vascular and fibrotic disease in SSc is still largely unknown and the possible mechanisms associated with the evolution of vascular disease toward fibrotic lesions are, until now, a matter of debate. [38][39][40][41] In our cohort, five patients presented perfusion defect, during stress, in the subendocardial layers, and it is well known that ischemic damage is often confined to the subendocardial layer of the myocardium, as observed in other case series. [28][29][30] In fact, several lines of clinical and experimental evidence suggest that subendocardial muscle is prone to ischemic damage, and physiological mechanisms for this vulnerability, such as the increased subendocardial vessel resistance due to subendocardial systolic compression and the systolic backflow from endocardial to epicardial vessels induced by systolic-diastolic interactions, have been already described.…”

Section: Discussionsupporting

confidence: 68%

“…In fact, the pathogenic link between vascular and fibrotic disease in SSc is still largely unknown and the possible mechanisms associated with the evolution of vascular disease toward fibrotic lesions are, until now, a matter of debate . In our cohort, five patients presented perfusion defect, during stress, in the subendocardial layers, and it is well known that ischemic damage is often confined to the subendocardial layer of the myocardium, as observed in other case series .…”

Section: Discussionmentioning

confidence: 67%