BACKGROUND: CXC chemokines, IL-8 and GRO, play a role in the recruitment of neutrophils in the human. The functional orthologues in the rat and mouse are CINC/KC and MIP-2. The lack of IL-8 made these animals less useful to study the role of IL-8 and GRO. METHODS: Guinea pig (gp) cDNA libraries were screened for GRO and IL-1beta. A gp genomic library was screened with a gpGRO cDNA probe. Expression of gpIL-8, gpGRO, gpTNFalpha, and gpIL-1beta was investigated by Northern analysis and/or by in situ hybridization. RESULTS: Two gpGRO cDNAs, a 3.0-kb gpGRO genomic DNA, and a gpIL-1beta cDNA were cloned. gpGRO and gpIL-8 mRNA were detected in different tissues including lungs 1 h after intraperitoneal injection of lipopolysaccharide (LPS) into guinea pigs. gpGRO, gpIL-8, gpTNFalpha, and gpIL-1beta expression peaked at 3 h in the lungs. Both gpGRO and gpIL-8 mRNA were detected in the cells in alveolar spaces and bronchial epithelial cells. However, gpGRO mRNA, but not gpIL-8, was also expressed in endothelial cells and vascular smooth muscle cells. CONCLUSIONS: gpGRO and gpIL-8 mRNA rapidly accumulated in the lungs of guinea pigs after LPS injection. Expression of gpIL-8 and gpGRO mRNA appeared to be independent from TNFalpha-or IL-1beta-stimulation in this model. A high level expression of gpGRO in vascular cells suggest an important role of GRO in the sequestration of neutrophils and multi-organ injuries induced by LPS. The guinea pig will provide an excellent model to study the roles of IL-8 and GRO, important inflammatory mediators in the human.
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| rdfs:comment |
BACKGROUND: CXC chemokines, IL-8 and GRO, play a role in the recruitment of neutrophils in the human. The functional orthologues in the rat and mouse are CINC/KC and MIP-2. The lack of IL-8 made these animals less useful to study the role of IL-8 and GRO. METHODS: Guinea pig (gp) cDNA libraries were screened for GRO and IL-1beta. A gp genomic library was screened with a gpGRO cDNA probe. Expression of gpIL-8, gpGRO, gpTNFalpha, and gpIL-1beta was investigated by Northern analysis and/or by in situ hybridization. RESULTS: Two gpGRO cDNAs, a 3.0-kb gpGRO genomic DNA, and a gpIL-1beta cDNA were cloned. gpGRO and gpIL-8 mRNA were detected in different tissues including lungs 1 h after intraperitoneal injection of lipopolysaccharide (LPS) into guinea pigs. gpGRO, gpIL-8, gpTNFalpha, and gpIL-1beta expression peaked at 3 h in the lungs. Both gpGRO and gpIL-8 mRNA were detected in the cells in alveolar spaces and bronchial epithelial cells. However, gpGRO mRNA, but not gpIL-8, was also expressed in endothelial cells and vascular smooth muscle cells. CONCLUSIONS: gpGRO and gpIL-8 mRNA rapidly accumulated in the lungs of guinea pigs after LPS injection. Expression of gpIL-8 and gpGRO mRNA appeared to be independent from TNFalpha-or IL-1beta-stimulation in this model. A high level expression of gpGRO in vascular cells suggest an important role of GRO in the sequestration of neutrophils and multi-organ injuries induced by LPS. The guinea pig will provide an excellent model to study the roles of IL-8 and GRO, important inflammatory mediators in the human.
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| uniprot:name |
Int. Arch. Allergy Immunol.
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| uniprot:author |
Gillitzer R.,
Modi W.S.,
Ogata H.,
Takeya M.,
Yamashiro S.,
Yoshimura T.
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| uniprot:date |
1999
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| uniprot:pages |
101-111
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| uniprot:title |
Molecular cloning of the guinea pig GRO gene and its rapid expression in the tissues of lipopolysaccharide-injected guinea pigs.
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| uniprot:volume |
119
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| dc-term:identifier |
doi:10.1159/000024184
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