Chemokine Receptor CX3CR1 Mediates Skin Wound Healing by Promoting Macrophage and Fibroblast Accumulation and Function

Ishida, Yuko; Gao, Ji-Liang; Murphy, Philip M.

doi:10.4049/jimmunol.180.1.569

Cited by 268 publications

(254 citation statements)

References 66 publications

(55 reference statements)

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“…21,22 In all likelihood, it promotes tissue fibrosis indirectly by increasing the mononuclear cell infiltration and not through the activation of hPSCs. This hypothesis is supported by recent reports: (1) Ishida and colleagues 56 showed that CX3CR1 depletion induced a marked reduction in the number of macrophages and in the release of TGF-b1, and observed reduced a-SMA and Collagen-1 depositions in the skin from wounded CX3CR1 À/À mice. (II) Considering that macrophages activate stellate cells and that suppression of macrophage infiltration inhibits hepatic stellate cell activation and liver fibrosis, the fractalkine/CX3CR1-triggered macrophage tissue infiltration might represent another possible contributor to fibrogenesis in CP.…”

Section: Discussionsupporting

confidence: 77%

Neural fractalkine expression is closely linked to pain and pancreatic neuritis in human chronic pancreatitis

Ceyhan

Deucker

Demir

et al. 2009

Laboratory Investigation

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The chemokine fractalkine induces migration of inflammatory cells into inflamed tissues, thereby aggravating inflammatory tissue damage and fibrosis. Furthermore, fractalkine increases neuropathic pain through glial activation, which can be diminished by blocking of its receptor, CX3CR1, through neutralizing antibodies. As chronic pancreatitis (CP) is characterized by tissue infiltration of inflammatory cells, fibrosis, pancreatic neuritis and severe pain, the roles of fractalkine and CX3CR1 were investigated in CP (n ¼ 61) and normal pancreas (NP, n ¼ 21) by QRT-PCR, western blot and immunohistochemistry analyses. Their expression correlated with the severity of pancreatic neuritis, fibrosis, intrapancreatic nerve fiber density and hypertrophy, pain, CP duration and with the amount of inflammatory cell infiltrate immuno-positive for CD45 and CD68. To investigate the influence of fractalkine on pancreatic fibrogenesis, human pancreatic stellate cells (hPSCs) were isolated from patients with CP, incubated with fractalkine and then Collagen-1 and a-smooth muscle actin (a-SMA) expressions were measured. CX3CR1, but not fractalkine, mRNA was overexpressed in CP. In contrast, the protein levels of both CX3CR1 and fractalkine were upregulated. Neuro-immunoreactivity for fractalkine and CX3CR1 was strongest in patients suffering from severe pain and pancreatic neuritis. Long-term suffering from CP was noticeably related to increased neural immunoreactivity of fractalkine. Furthermore, fractalkine and CX3CR1 mRNA overexpressions were associated with enhanced lymphocyte and macrophage infiltration. Advanced fibrosis was associated with increased fractalkine expression, whereas in vitro fractalkine had no significant impact on collagen-1 and a-SMA expressions in hPSCs. Therefore, pancreatic fractalkine expression appears to be linked to visceral pain and to the recruitment of inflammatory cells into the pancreatic tissue and nerve fibers, with subsequent pancreatic neuritis. However, pancreatic fibrogenesis is probably indirectly influenced by fractalkine. Taken together, these novel findings suggest that CX3CR1 represents a potential novel therapeutic target to reduce inflammation and modulate pain in CP.

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Section: Discussionsupporting

confidence: 77%

Neural fractalkine expression is closely linked to pain and pancreatic neuritis in human chronic pancreatitis

Ceyhan

Deucker

Demir

et al. 2009

Laboratory Investigation

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“…Furthermore, wounds in the neonatal PU.1 null mouse, which lacks macrophages and neutrophils (but also B cells, mast cells, eosinophils), heal without scar and, surprisingly, with a similar time course as wild-type siblings (13). However, the need of macrophages for physiological repair in adults is supported in recent wound healing studies in various murine knockout models in which impaired wound healing is associated with an attenuated number of macrophages at the wound site (14)(15)(16)(17)(18). Although all of these studies emphasize that leukocytes significantly affect the quality of the healing response, knowledge of these models is limited, because they either do not target pathways mediated exclusively by macrophages or they address a neonate repair response, which is known to differ from healing in the adult organism (19).…”

Section: R Estoration Of Skin Integrity and Homeostasis Followingmentioning

confidence: 77%

Differential Roles of Macrophages in Diverse Phases of Skin Repair

Lucas¹,

Waisman

Ranjan³

et al. 2010

The Journal of Immunology

958

856

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“…3 Embryonic macrophages appear to play a positive trophic role that may have parallel reparative functions in many adult tissues undergoing repair and cellular replacement. 1,20 A number of studies have suggested that infiltrating macrophages along with the trophic factors they release participate in tissue repair of the kidney, 20 -22 brain, 23 skin, 24,25 lung, 26 liver, 27 heart, 28 gastrointestinal tract, 29,30 and skeletal muscle. 31,32 Indeed, the pleiotrophic roles for CSF-1 in reproduction, development of multiple organ systems, and maternal-fetal interactions during pregnancy by macrophage-mediated processes have also been well defined.…”

mentioning

confidence: 99%

Colony-Stimulating Factor-1 Promotes Kidney Growth and Repair via Alteration of Macrophage Responses

Alikhan

Jones

Williams

et al. 2011

The American Journal of Pathology

128

132

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Colony-stimulating factor (CSF)-1 controls the survival, proliferation, and differentiation of macrophages, which are recognized as scavengers and agents of the innate and the acquired immune systems. Because of their plasticity, macrophages are endowed with many other essential roles during development and tissue homeostasis. We present evidence that CSF-1 plays an important trophic role in postnatal organ growth and kidney repair. Notably, the injection of CSF-1 postnatally enhanced kidney weight and volume and was associated with increased numbers of tissue macrophages. Moreover, CSF-1 promotes postnatal renal repair in mice after ischemia-reperfusion injury by recruiting and influencing macrophages toward a reparative state. CSF-1 treatment rapidly accelerated renal repair with tubular epithelial cell replacement, attenuation of interstitial fibrosis, and functional recovery. Analysis of macrophages from CSF-1-treated kidneys showed increased expression of insulin-like growth factor-1 and anti-inflammatory genes that are known CSF-1 targets. Taken together, these data suggest that CSF-1 is important in kidney growth and the promotion of endogenous repair and resolution of inflammatory injury.

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Chemokine Receptor CX3CR1 Mediates Skin Wound Healing by Promoting Macrophage and Fibroblast Accumulation and Function

Cited by 268 publications

References 66 publications

Neural fractalkine expression is closely linked to pain and pancreatic neuritis in human chronic pancreatitis

Neural fractalkine expression is closely linked to pain and pancreatic neuritis in human chronic pancreatitis

Differential Roles of Macrophages in Diverse Phases of Skin Repair

Colony-Stimulating Factor-1 Promotes Kidney Growth and Repair via Alteration of Macrophage Responses

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