Mryanda Sopel scite author profile

Exposure of rodents to angiotensin II (AngII) is a common model of fibrosis. We have previously shown that cellular infiltration of bone marrow-derived progenitor cells (fibrocytes) occurs before deposition of extracellular matrix and is associated with the production of connective tissue growth factor (CTGF). In the present study, we characterized the role of CTGF in promoting fibrocyte accumulation and regulation after AngII exposure. In animals exposed to AngII using osmotic minipumps (2.0 μg/kg per min), myocardial CTGF mRNA peaked at 6 hours (21-fold; P < 0.01), whereas transforming growth factor-β (TGF-β) peaked at 3 days (fivefold; P < 0.05) compared with saline control. Early CTGF expression occurred before fibrocyte migration (1 day) into the myocardium or ECM deposition (3 days). CTGF protein expression was evident by day 3 of AngII exposure and seemed to be localized to resident cells. Isolated cardiomyocytes and microvascular endothelial cells responded to AngII with increased CTGF production (2.1-fold and 2.8-fold, respectively; P < 0.05), which was abolished with the addition of anti-TGF-β neutralizing antibody. The effect of CTGF on isolated fibrocytes suggested a role in fibrocyte proliferation (twofold; P < 0.05) and collagen production (2.3-fold; P < 0.05). In summary, we provide strong evidence that AngII exposure first resulted in Smad2-dependent production of CTGF by resident cells (6 hours), well before the accumulation of fibrocytes or TGF-β mRNA up-regulation. In addition, CTGF contributes to fibrocyte proliferation in the myocardium and enhances fibrocyte differentiation into a myofibroblast phenotype responsible for ECM deposition.

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Fibroblast progenitor cells are recruited into the myocardium prior to the development of myocardial fibrosis

Sopel

Falkenham

Oxner

et al. 2012

Int J Experimental Path

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Using an established model of myocardial hypertrophy and fibrosis after angiotensin II (AngII) infusion, our aim was to characterize the early cellular element involved in the development of myocardial fibrosis in detail. Male Lewis rats were infused with saline or AngII (0.7 mg/kg per day) for up to seven days. Collagen deposition and cellular infiltration were identified by histology stains. Infiltrating cells were grown in vitro and examined by flow cytometry and immunostaining. Chemokine expression was measured using qRT-PCR. AngII infusion resulted in multifocal myocardial cellular infiltration (peak at three days) that preceded collagen deposition. Monocyte chemotactic protein (MCP)-1 transcripts peaked after one day of AngII exposure. Using a triple-labelling technique, the infiltrating cells were found to express markers of leucocyte (ED1(+)), mesenchymal [α-smooth muscle actin (SMA)(+)] and haematopeotic progenitor cells (CD133(+)) suggesting a fibroblast progenitor phenotype. In vitro, ED1(+)/SMA(+)/CD133(+) cells were isolated and grown from AngII-exposed animals. Comparatively few cells were cultured from untreated control hearts, and they were found to be ED1(-)/SMA(+)/CD133(-). We provide evidence that myocardial ECM deposition is preceded by infiltration into the myocardium by cells that express a combination of haematopoietic (ED1, CD133) and mesenchymal (SMA) cell markers, which is a characteristic of the phenotype of fibroblast precursor cells, termed fibrocytes. This suggests that fibrocytes rather than (as is often presumed) leucocytes may have effector functions in the initiation of myocardial fibrosis.

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Disruption of Collagen Homeostasis Can Reverse Established Age-Related Myocardial Fibrosis

Rosin

Sopel

Falkenham

et al. 2015

The American Journal of Pathology

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Heart failure, the leading cause of hospitalization of elderly patients, is correlated with myocardial fibrosis (ie, deposition of excess extracellular matrix proteins such as collagen). A key regulator of collagen homeostasis is lysyl oxidase (LOX), an enzyme responsible for cross-linking collagen fibers. Our objective was to ameliorate age-related myocardial fibrosis by disrupting collagen cross-linking through inhibition of LOX. The nonreversible LOX inhibitor β-aminopropionitrile (BAPN) was administered by osmotic minipump to 38-week-old C57BL/6J male mice for 2 weeks. Sirius Red staining of myocardial cross sections revealed a reduction in fibrosis, compared with age-matched controls (5.84 ± 0.30% versus 10.17 ± 1.34%) (P < 0.05), to a level similar to that of young mice at 8 weeks (4.9 ± 1.2%). BAPN significantly reduced COL1A1 mRNA, compared with age-matched mice (3.5 ± 0.3-fold versus 15.2 ± 4.9-fold) (P < 0.05), suggesting that LOX is involved in regulation of collagen synthesis. In accord, fibrotic factor mRNA expression was reduced after BAPN. There was also a novel increase in Ly6C expression by resident macrophages. By interrupting collagen cross-linking by LOX, the BAPN treatment reduced myocardial fibrosis. A novel observation is that BAPN treatment modulated the transforming growth factor-β pathway, collagen synthesis, and the resident macrophage population. This is especially valuable in terms of potential therapeutic targeting of collagen regulation and thereby age-related myocardial fibrosis.

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Early Fibroblast Progenitor Cell Migration to the AngII-Exposed Myocardium Is Not CXCL12 or CCL2 Dependent as Previously Thought

Falkenham

Sopel

Rosin

et al. 2013

The American Journal of Pathology

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Fibroblast progenitor cells (fibrocytes) are important to the development of myocardial fibrosis and are suggested to migrate to the heart via CXCL12 and chemokine ligand (CCL) 2. We hypothesized that if these chemokines are recruiting fibrocytes, disrupting their signaling will reduce early (3-day) fibrocyte infiltration and, consequently, fibrosis in the myocardium. C57/Bl6 and CCR2(-/-) mice were infused with saline or angiotensin (Ang) II, with or without CXC receptor 4 blockade (AMD3100). Hearts were assessed for chemokine up-regulation, immunofluorescence, and histological features. AngII caused early myocardial up-regulation of CXCL12 and CCL2, which corresponded to significant myocardial infiltration and fibrosis compared with controls. Animals receiving AMD3100 and/or with the genotype CCR2(-/-) failed to demonstrate reductions in infiltrate or fibrosis after 3 days of AngII, and AngII + AMD3100 animals showed exacerbated fibrocyte infiltration and fibrosis compared with AngII alone. CCR2(-/-) mice demonstrated significant reductions in myocardial fibrosis relative to wild type, but this was after 28 days of AngII infusion and was the result of reduced infiltrating cell proliferation. An alternative CCR2 ligand, CCL12, was found to be increasing infiltrating cell proliferation in the heart after AngII infusion, which we confirmed in vitro. In conclusion, early fibrocyte recruitment cannot be inhibited through modulating CXCL12 or CCL2, as previously thought. Ablating CCR2 signaling did confer myocardial fibrosis reductions, but these benefits were not observed until much later and were likely the result of modulated proliferation through ablating the CCL12-CCR2 interaction.

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Mryanda Sopel

Myocardial fibrosis in response to Angiotensin II is preceded by the recruitment of mesenchymal progenitor cells

Regulation and Role of Connective Tissue Growth Factor in AngII-Induced Myocardial Fibrosis

Fibroblast progenitor cells are recruited into the myocardium prior to the development of myocardial fibrosis

Disruption of Collagen Homeostasis Can Reverse Established Age-Related Myocardial Fibrosis

Early Fibroblast Progenitor Cell Migration to the AngII-Exposed Myocardium Is Not CXCL12 or CCL2 Dependent as Previously Thought

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