The chemokine receptor CXCR4 is essential for vascularization of the gastrointestinal tract

Tachibana, Kazunobu; Hirota, Seiichi; Iizasa, Hisashi; Yoshida, Hisahiro; Kono, Kenji; Kataoka, Yuki; Kitamura, Yukihiko; Matsushima, Kouji; Yoshida, Nobuaki; Nishikawa, Shin‐Ichi; Kishimoto, Tadamitsu; Nagasawa, Takashi

doi:10.1038/31261

Cited by 1,401 publications

(1,074 citation statements)

References 29 publications

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“…The functions of CXCR4 have not yet been fully understood, but it appears that it mediates a large variety of functions including leukocyte development and trafficking, HIV-infection, correct foetal vascularisation and CNS development and possibly cell division, tumourigenesis and growth (Tachibana et al, 1998;Zou et al, 1998;Gabuzda and Wang, 1999). Rempel et al (2000) observed a tumour grade-dependent surge of CXCR4 mRNA levels in glioblastoma multiforme and that this receptor is mainly expressed in regions of angiogenesis and degenerative, necrotic, and microcystic changes rather than in sections of rapid cell proliferation.…”

Section: Molecular and Cellular Pathologymentioning

confidence: 99%

CXCR4/CXCL12 expression and signalling in kidney cancer

et al. 2002

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CXCL12 (SDF-1), a CXC-chemokine, and its specific receptor, CXCR4, have recently been shown to be involved in tumourgenesis, proliferation and angiogenesis. Therefore, we analysed CXCL12α/CXCR4 expression and function in four human kidney cancer cell lines (A-498, CAKI-1, CAKI-2, HA-7), 10 freshly harvested human tumour samples and corresponding normal kidney tissue. While none of the analysed tumour cell lines expressed CXCL12α, A-498 cells were found to express CXCR4. More importantly, real-time RT–PCR analysis of 10 tumour samples and respective adjacent normal kidney tissue disclosed a distinct and divergent downregulation of CXCL12α and upregulation of CXCR4 in primary tumour tissue. To prove that the CXCR4 protein is functionally active, rhCXCL12α was investigated for its ability to induce changes of intracellular calcium levels in A-498 cells. Moreover, we used cDNA expression arrays to evaluate the biological influence of CXCL12α. Comparing gene expression profiles in rhCXCL12α stimulated vs unstimulated A-498 kidney cancer cells revealed specific regulation of 31 out of 1176 genes tested on a selected human cancer array, with a prominent stimulation of genes involved in cell-cycle regulation and apoptosis. The genetic changes reported here should provide new insights into the developmental paths leading to tumour progression and may also aid the design of new approaches to therapeutic intervention. British Journal of Cancer (2002) 86 , 1250–1256. DOI: 10.1038/sj/bjc/6600221 www.bjcancer.com © 2002 Cancer Research UK

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Section: Molecular and Cellular Pathologymentioning

confidence: 99%

CXCR4/CXCL12 expression and signalling in kidney cancer

et al. 2002

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“…The constitutive chemokine ligand CXCL12 and its cognate receptor CXCR4 are evolutionarily conserved and essential for life in mice (Nagasawa et al, 1996a, b). Homeostatic roles for CXCL12 signaling through CXCR4 in various physiological compartments have been described, including B-cell development, gastrointestinal vascularization, heart and cerebral development, as well as mucosal epithelial wound healing (Nagasawa et al, 1996a;Tachibana et al, 1998;Zou et al, 1998;Heidemann et al, 2003;Smith et al, 2005;Moyer et al, 2007). Thus, CXCL12 and CXCR4 are widely expressed throughout the body and serve diverse physiological roles depending on the tissue or cell type.…”

Section: Introductionmentioning

confidence: 99%

Epigenetic silencing of CXCL12 increases the metastatic potential of mammary carcinoma cells

2007

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Expression of the chemokine receptor CXCR4 has been linked with increased metastasis and decreased clinical prognosis in breast cancer. The current paradigm dictates that CXCR4 fosters carcinoma cell metastasis along a chemotactic gradient to organs expressing the ligand CXCL12. The present study asked if alterations in autocrine CXCR4 signaling via dysregulation of CXCL12 in mammary carcinoma cells modulated their metastatic potential. While CXCR4 was consistently detected, expression of CXCL12 characteristic of human mammary epithelium was silenced by promoter hypermethylation in breast cancer cell lines and primary mammary tumors. Stable re-expression of functional CXCL12 in ligand null cells increased orthotopic primary tumor growth in the mammary fat-pad model of tumorigenesis. Those data parallel increased carcinoma cell proliferation measured in vitro with little-to-no-impact on apoptosis. Moreover, re-expression of autocrine CXCL12 markedly reduced metastatic lung invasion assessed using in vivo bioluminescence imaging following tail vein injection. Consistent with those data, decreased metastasis reflected diminished intracellular calcium signaling and chemotactic migration in response to exogenous CXCL12 independent of changes in CXCR4 expression. Together these data suggest that an elevated migratory signaling response to ectopic CXCL12 contributes to the metastatic potential of CXCR4-expressing mammary carcinoma cells, subsequent to epigenetic silencing of autocrine CXCL12.

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“…CXCR4 exemplifies this concept. It is present on the mammalian heart and appears to play a critical role in cardiovascular development, in the mobilization of hematopoietic precursors and in vasculogenesis [3,4]. CXCR4 is also a coreceptor for HIV infection and can modulate Ca 2+ channel function in neuronal cell lines [5].…”

Section: Introductionmentioning

confidence: 99%

CXCR4 modulates contractility in adult cardiac myocytes

Pyo¹,

Sui²,

Dhume³

et al. 2006

Journal of Molecular and Cellular Cardiology

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The inflammatory response is critical to the development and progression of heart failure. Chemokines and their receptors are a distinct class of inflammatory modulators that may play a role in mediating myocardial dysfunction in heart failure. Levels of the chemokine CXCL12, also known as stromal cell-derived factor (SDF), and its receptor, CXCR4, are elevated in patients with heart failure, and we undertook this study to determine whether this chemokine system can directly affect cardiac function in the absence of leukocytes. Murine papillary muscles and adult rat cardiac myocytes treated with CXCL12, the only identified ligand of CXCR4, demonstrate blunted inotropic responses to physiologic concentrations of calcium. The negative inotropic effects on cardiac myocytes are accompanied by a proportional diminution of calcium transients. The effects are abrogated by AMD3100, a specific CXCR4 inhibitor. Overexpression of the receptor through adenoviral infection with a CXCR4 construct accentuates the negative inotropic effects of CXCL12 on cardiac myocytes during calcium stimulation. CXCR4 activation also attenuates beta-adrenergicmediated increases in calcium mobilization and fractional shortening in cardiac myocytes. In electrophysiologic studies, CXCL12 decreases forskolin-and isoproterenol-induced voltage-gated L-type calcium channel activation. These studies demonstrate that activation of CXCR4 results in a direct negative inotropic modulation of cardiac myocyte function. The specific mechanism of action involves alterations of calcium channel activity on the membrane. The presence of functional CXCR4 on cardiac myocytes introduces a new target for treating cardiac dysfunction.

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The chemokine receptor CXCR4 is essential for vascularization of the gastrointestinal tract

Cited by 1,401 publications

References 29 publications

CXCR4/CXCL12 expression and signalling in kidney cancer

CXCR4/CXCL12 expression and signalling in kidney cancer

Epigenetic silencing of CXCL12 increases the metastatic potential of mammary carcinoma cells

CXCR4 modulates contractility in adult cardiac myocytes

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