Polymorphonuclear leucocyte migration through human dermal fibroblast monolayers is dependent on both β2-integrin (CD11/CD18) and β1-integrin (CD29) mechanisms

J. X. Gao; A. C. Issekutz

Polymorphonuclear leucocyte migration through human dermal fibroblast monolayers is dependent on both β₂-integrin (CD11/CD18) and β₁-integrin (CD29) mechanisms

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Résumé

Accumulation of leucocytes in inflammation involves their migration through vascular endothelium and then in the connective tissue. We investigated human polymorphonuclear leucocyte (PMNL) migration through a biological barrier of human dermal fibroblasts grown on microporous filters, as a model of PMNL migration in the connective tissue. PMNL did not migrate through a fibroblast monolayer unless a chemotactic factor, e.g. C5a, interleukin-8 (IL-8) or zymosan-activated plasma (ZAP; C5a(desArg)), was added. This migration was partially inhibited (35-70%, depending on the stimulus) by treatment of PMNL with monoclonal antibody (mAb) to CD18 (β₂-integrins). Most of the CD18-independent migration was inhibited by mAb to β₁-integrins (CD29). Inhibition by mAb to β₁ was observed when the PMNL, but not the fibroblasts, were treated with mAb. The role of β₁-integrins in PMNL transfibroblast migration was detectable only when the function of the CD11-CD18 complex was blocked, because mAb to β₁-integrin alone had no significant effect on PMNL migration. Migration induced by C5a was more CD18-independent compared to IL-8 or C5a(desArg). The CD18-independent migration was also inhibited by mAb to the β₁-integrin subunits α₅ (of very late antigens-5; VLA-5) and α₆ (of VLA-6). Treatment of the fibroblasts (4 hr) with tumour necrosis factor-α (TNF-α) or IL-1α enhanced C5a-induced PMNL transfibroblast migration and increased the proportion of migration utilizing the CD11-CD18 mechanism. However, TNF-α treatment had no effect on the degree of β₁-integrin-dependent migration. These findings suggest that in response to the chemotactic factors C5a, IL-8 and C5a(desArg), PMNL migration in the connective tissue is mediated by both CD11-CD18 (β₂) and β₁-integrins on the PMNL. The VLA-5 and VLA-6 members of β₁-integrins are involved in this process. This is in contrast to PMNL migration across endothelium in this system, which is virtually all CD18 dependent with no significant role for β₁-integrins.

Langue d'origine	English
Pages (de-à)	485-494
Nombre de pages	10
Journal	Immunology
Volume	85
Numéro de publication	3
Statut de publication	Published - 1995
Publié à l'externe	Oui

ASJC Scopus Subject Areas

Immunology and Allergy
Immunology

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@article{c48c13b7ed5d414c88009c03df04bb31,

title = "Polymorphonuclear leucocyte migration through human dermal fibroblast monolayers is dependent on both β2-integrin (CD11/CD18) and β1-integrin (CD29) mechanisms",

abstract = "Accumulation of leucocytes in inflammation involves their migration through vascular endothelium and then in the connective tissue. We investigated human polymorphonuclear leucocyte (PMNL) migration through a biological barrier of human dermal fibroblasts grown on microporous filters, as a model of PMNL migration in the connective tissue. PMNL did not migrate through a fibroblast monolayer unless a chemotactic factor, e.g. C5a, interleukin-8 (IL-8) or zymosan-activated plasma (ZAP; C5a(desArg)), was added. This migration was partially inhibited (35-70%, depending on the stimulus) by treatment of PMNL with monoclonal antibody (mAb) to CD18 (β2-integrins). Most of the CD18-independent migration was inhibited by mAb to β1-integrins (CD29). Inhibition by mAb to β1 was observed when the PMNL, but not the fibroblasts, were treated with mAb. The role of β1-integrins in PMNL transfibroblast migration was detectable only when the function of the CD11-CD18 complex was blocked, because mAb to β1-integrin alone had no significant effect on PMNL migration. Migration induced by C5a was more CD18-independent compared to IL-8 or C5a(desArg). The CD18-independent migration was also inhibited by mAb to the β1-integrin subunits α5 (of very late antigens-5; VLA-5) and α6 (of VLA-6). Treatment of the fibroblasts (4 hr) with tumour necrosis factor-α (TNF-α) or IL-1α enhanced C5a-induced PMNL transfibroblast migration and increased the proportion of migration utilizing the CD11-CD18 mechanism. However, TNF-α treatment had no effect on the degree of β1-integrin-dependent migration. These findings suggest that in response to the chemotactic factors C5a, IL-8 and C5a(desArg), PMNL migration in the connective tissue is mediated by both CD11-CD18 (β2) and β1-integrins on the PMNL. The VLA-5 and VLA-6 members of β1-integrins are involved in this process. This is in contrast to PMNL migration across endothelium in this system, which is virtually all CD18 dependent with no significant role for β1-integrins.",

author = "Gao, {J. X.} and Issekutz, {A. C.}",

year = "1995",

language = "English",

volume = "85",

pages = "485--494",

journal = "Immunology",

issn = "0019-2805",

publisher = "Wiley-Blackwell",

number = "3",

}

TY - JOUR

T1 - Polymorphonuclear leucocyte migration through human dermal fibroblast monolayers is dependent on both β2-integrin (CD11/CD18) and β1-integrin (CD29) mechanisms

AU - Gao, J. X.

AU - Issekutz, A. C.

PY - 1995

Y1 - 1995

N2 - Accumulation of leucocytes in inflammation involves their migration through vascular endothelium and then in the connective tissue. We investigated human polymorphonuclear leucocyte (PMNL) migration through a biological barrier of human dermal fibroblasts grown on microporous filters, as a model of PMNL migration in the connective tissue. PMNL did not migrate through a fibroblast monolayer unless a chemotactic factor, e.g. C5a, interleukin-8 (IL-8) or zymosan-activated plasma (ZAP; C5a(desArg)), was added. This migration was partially inhibited (35-70%, depending on the stimulus) by treatment of PMNL with monoclonal antibody (mAb) to CD18 (β2-integrins). Most of the CD18-independent migration was inhibited by mAb to β1-integrins (CD29). Inhibition by mAb to β1 was observed when the PMNL, but not the fibroblasts, were treated with mAb. The role of β1-integrins in PMNL transfibroblast migration was detectable only when the function of the CD11-CD18 complex was blocked, because mAb to β1-integrin alone had no significant effect on PMNL migration. Migration induced by C5a was more CD18-independent compared to IL-8 or C5a(desArg). The CD18-independent migration was also inhibited by mAb to the β1-integrin subunits α5 (of very late antigens-5; VLA-5) and α6 (of VLA-6). Treatment of the fibroblasts (4 hr) with tumour necrosis factor-α (TNF-α) or IL-1α enhanced C5a-induced PMNL transfibroblast migration and increased the proportion of migration utilizing the CD11-CD18 mechanism. However, TNF-α treatment had no effect on the degree of β1-integrin-dependent migration. These findings suggest that in response to the chemotactic factors C5a, IL-8 and C5a(desArg), PMNL migration in the connective tissue is mediated by both CD11-CD18 (β2) and β1-integrins on the PMNL. The VLA-5 and VLA-6 members of β1-integrins are involved in this process. This is in contrast to PMNL migration across endothelium in this system, which is virtually all CD18 dependent with no significant role for β1-integrins.

AB - Accumulation of leucocytes in inflammation involves their migration through vascular endothelium and then in the connective tissue. We investigated human polymorphonuclear leucocyte (PMNL) migration through a biological barrier of human dermal fibroblasts grown on microporous filters, as a model of PMNL migration in the connective tissue. PMNL did not migrate through a fibroblast monolayer unless a chemotactic factor, e.g. C5a, interleukin-8 (IL-8) or zymosan-activated plasma (ZAP; C5a(desArg)), was added. This migration was partially inhibited (35-70%, depending on the stimulus) by treatment of PMNL with monoclonal antibody (mAb) to CD18 (β2-integrins). Most of the CD18-independent migration was inhibited by mAb to β1-integrins (CD29). Inhibition by mAb to β1 was observed when the PMNL, but not the fibroblasts, were treated with mAb. The role of β1-integrins in PMNL transfibroblast migration was detectable only when the function of the CD11-CD18 complex was blocked, because mAb to β1-integrin alone had no significant effect on PMNL migration. Migration induced by C5a was more CD18-independent compared to IL-8 or C5a(desArg). The CD18-independent migration was also inhibited by mAb to the β1-integrin subunits α5 (of very late antigens-5; VLA-5) and α6 (of VLA-6). Treatment of the fibroblasts (4 hr) with tumour necrosis factor-α (TNF-α) or IL-1α enhanced C5a-induced PMNL transfibroblast migration and increased the proportion of migration utilizing the CD11-CD18 mechanism. However, TNF-α treatment had no effect on the degree of β1-integrin-dependent migration. These findings suggest that in response to the chemotactic factors C5a, IL-8 and C5a(desArg), PMNL migration in the connective tissue is mediated by both CD11-CD18 (β2) and β1-integrins on the PMNL. The VLA-5 and VLA-6 members of β1-integrins are involved in this process. This is in contrast to PMNL migration across endothelium in this system, which is virtually all CD18 dependent with no significant role for β1-integrins.

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