Circulating Bone Marrow Cells Can Contribute to Neointimal Formation

Han, Chih‐Lu; Campbell, Gordon; Campbell, Julie H.

doi:10.1159/000051038

Cited by 208 publications

(146 citation statements)

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“…Because a major part of neointimal SMCs can be derived from bone marrow cells, [11][12][13] and circulating SMC progenitors have been demonstrated in humans, 14 we investigated whether SDF-1␣ affects the percentage of peripheral blood Sca ϩ lin Ϫ progenitor cells after carotid injury. Arterial injury triggered the rapid expansion of PBPCs in the circulation after 1 day (Figure 5A), which was prevented by the administration of a blocking SDF-1␣ mAb (4.9Ϯ0.8% versus 1.7Ϯ0.3% of mononuclear cells, nϭ4, PϽ0.01; Figure 5A), with the percentage remaining at levels of uninjured mice (data not shown).…”

Section: Resultsmentioning

confidence: 99%

“…Application of a blocking SDF-1␣ mAb reduces neointimal area and neointimal SMC content, which indicates an important role during the progression of accelerated atherosclerosis. Because SDF-1␣ is important in the homeostasis of bone marrow homing and mobilization of progenitor cells, 7,19 and neointimal SMCs originate from a bone marrow source of progenitors, [13][14][15] we studied the effect of SDF-1␣ on progenitor cell mobilization and recruitment after carotid injury. We found that the expansion of PBPCs in the circulation and the accumulation of injected PBPCs in established neointimal lesions were mediated by SDF-1␣.…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, neutralization of SDF-1␣ after carotid injury in apolipoprotein E-deficient (apoE Ϫ/Ϫ ) mice by application of a blocking antibody was evaluated for its effect on neointimal lesions. Bone marrowderived cells have been shown to contribute to neointimal SMC content, [13][14][15] and circulating SMC progenitors have been demonstrated in humans. 16 We therefore determined whether SDF-1␣ is involved in the mobilization of progenitor cells into the peripheral blood and whether these cells can be recruited to neointimal lesions and adopt an SMC phenotype.…”

mentioning

confidence: 99%

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Crucial Role of Stromal Cell–Derived Factor-1α in Neointima Formation After Vascular Injury in Apolipoprotein E–Deficient Mice

et al. 2003

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Background-Recent evidence indicates that stromal cell-derived factor-1␣ (SDF-1␣) is expressed in human atherosclerotic plaques, whereas high plasma levels are clinically associated with stable coronary artery disease. Herein, we investigate the involvement of SDF-1␣ in neointimal formation after vascular injury. Methods and Results-SDF-1␣ was detected by immunohistochemistry in carotid arteries of apolipoprotein E-deficient (apoE Ϫ/Ϫ ) mice at various stages of neointima formation after wire-induced injury. Double immunofluorescence revealed that SDF-1␣ staining was mostly confined to smooth muscle cells (SMCs). Furthermore, SDF-1␣ plasma levels peaked 1 day after vascular injury. Treatment of apoE Ϫ/Ϫ mice after carotid injury with a neutralizing SDF-1␣ monoclonal antibody for 3 weeks reduced neointimal lesion area by 44% (nϭ5, PϽ0.05) compared with isotype control. In SDF-1␣ antibody-treated apoE Ϫ/Ϫ mice, neointimal SMC content was decreased (21.7Ϯ2% versus 39.4Ϯ4%, nϭ5, Pϭ0.005), whereas the relative content of neointimal macrophages remained unchanged. As shown by flow cytometry, carotid injury resulted in a marked expansion of circulating Sca-1 ϩ lineage Ϫ progenitor cells (PBPCs) in the peripheral blood of apoE Ϫ/Ϫ mice after 1 day, which was mediated by SDF-1␣. Systemic injection of isolated PBPCs after vascular injury demonstrated their recruitment to neointimal lesions, where they can adopt an SMC-like phenotype. Conclusions-SDF-1␣ plays an instrumental role in neointimal formation after vascular injury in apoE

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Crucial Role of Stromal Cell–Derived Factor-1α in Neointima Formation After Vascular Injury in Apolipoprotein E–Deficient Mice

et al. 2003

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“…These messages govern the plaque formation that includes clonal accumulation of SMCs within the intima. 49 Recent evidence indicates that besides migration of the existing SMCs from the vessel's media to the intima, circulating bone marrow cells 50 and the vascular progenitor cells present in the adventitia of all arteries, are other sources of intimal SMCs. 51 In coronary arteries, SMCs form a fibrous cap that, if afflicted by MMPs and IFN-␥, may lead to the plaque rupture.…”

Section: Simionescu Endothelial Implications In Vascular Diseasementioning

confidence: 99%

Implications of Early Structural-Functional Changes in the Endothelium for Vascular Disease

Simionescu¹

2007

ATVB

226

152

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Abstract-By location, between the blood and tissues and the multiple functions, the endothelial cells (ECs) play a major role in securing body homeostasis. The ECs sense all variations occurring in the plasma and interstitial fluid, and respond (function of intensity), initially by modulation of their constitutive functions, then by dysfunction, expressed by temporarily altered functions and a phenotypic shift, and ultimately by injury/death. In dyslipidemia/hyperglycemia, the initial response of EC is the modulation of 2 constitutive functions: permeability and biosynthesis. Increased transcytosis of plasma ␤-lipoproteins leads to their accumulation within the hyperplasic basal lamina, interaction with matrix proteins, and conversion to modified and reassembled lipoproteins (MRL). This generates a multipart inflammatory process and EC dysfunction characterized by expression of new cell adhesion molecules and MCP-1 that trigger T-lymphocytes and monocyte recruitment, diapedesis, and homing within the subendothelium where activated macrophages become foam cells. The latter, together with the subendothelial accrual of MRL, growth factors, cytokines, and chemokines, and accretion of smooth muscle cells of various sources lead to atheroma formation; in advanced disease, the EC overlaying atheroma take up lipids, become EC-derived foam cells, and the cytotoxic ambient ultimately conducts to EC apoptosis. Understanding the mechanisms of EC dysfunction is a prerequisite for EC-targeted therapy to reduce the incidence of cardiovascular diseases.

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“…Adventitial fibroblasts may also migrate to the intima, differentiate into myofibroblasts and contribute to neointima formation (27,28). Moreover, several groups have shown that bone marrow-derived vascular cells with some characteristics of VSMCs accumulate in the neointima of transplant vasculopathy and in a severe vascular injury animal model (29)(30)(31). Cell division involves two consecutive processes: interphase, ie, the time between two mitosis (M) periods, and the mitosis itself, ie, the process of cell division.…”

Section: Early Cell Cycle Progression (G0/g1/s Phase)mentioning

confidence: 99%

The cell cycle: A critical therapeutic target to prevent vascular proliferative disease

Charron

Nili

Strauss

2006

Canadian Journal of Cardiology

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Circulating Bone Marrow Cells Can Contribute to Neointimal Formation

Cited by 208 publications

References 17 publications

Crucial Role of Stromal Cell–Derived Factor-1α in Neointima Formation After Vascular Injury in Apolipoprotein E–Deficient Mice

Crucial Role of Stromal Cell–Derived Factor-1α in Neointima Formation After Vascular Injury in Apolipoprotein E–Deficient Mice

Implications of Early Structural-Functional Changes in the Endothelium for Vascular Disease

The cell cycle: A critical therapeutic target to prevent vascular proliferative disease

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