Eotaxin has been found to bind exclusively to a single chemokine receptor, CCR3. Using expression sequence tag screening of an activated monocyte library, a second chemokine has been identified; it was expressed and purified from a Drosophila cell culture system and appears to only activate CCR3. Eotaxin-2, MPIF-2, or CKbeta-6, is a human CC chemokine with low amino acid sequence identity to other chemokines. Eotaxin-2 promotes chemotaxis and Ca2+ mobilization in human eosinophils but not in neutrophils or monocytes. Cross-desensitization calcium mobilization experiments using purified eosinophils indicate that eotaxin and MCP-4, but not RANTES, MIP-1alpha, or MCP-3, can completely cross-desensitize the calcium response to eotaxin-2 on these cells, indicating that eotaxin-2 shares the same receptor used by eotaxin and MCP-4. Eotaxin-2 was the most potent eosinophil chemoattractant of all the chemokines tested. Eotaxin-2 also displaced 125I-eotaxin bound to the cloned CCR3 stably expressed in CHO cells (CHO-CCR3) and to freshly isolated human eosinophils with affinities similar to eotaxin and MCP-4. 125I-Eotaxin-2 binds with high affinity to eosinophils and both eotaxin and cold eotaxin-2 displace the ligand with equal affinity. Eotaxin and eotaxin-2 promote a Ca2+ transient in RBL-2H3 cells stably transfected with CCR3 (RBL-2H3-CCR3) and both ligands cross-desensitized the response of the other but not the response to LTD4. The data indicate that eotaxin-2 is a potent eosinophil chemotactic chemokine exerting its activity solely through the CCR3 receptor.
The recruitment of inflammatory cells into sites of inflammation is a normal physiological response designed to fight infection, remove damaged cells, and stimulate healing. However, the excessive recruitment of such cells often exacerbates tissue damage, slows healing, and in some cases leads to host death. Therefore, inhibition of inflammatory cell recruitment may be an appropriate therapeutic strategy in a number of inflammatory diseases, such as asthma, reperfusion injury, arthritis, and inflammatory bowel disease.Chemokines are a superfamily of approximately 30 distinct small secreted proteins, and additional members continue to be identified (1, 2). They are classified into two major groups, CXC and CC, based on the position of the first two of their four invariant cysteines (3). The actions of chemokines are mediated via interactions with 7-TM 1 G protein-coupled receptors on the surface of immune and inflammatory cells. To date, 18 unique chemokine receptors, including 11 CC chemokine receptors, have been cloned (4, 5).The properties of the chemokines suggest that they are essential for leukocyte trafficking and inflammatory processes and thus are important components in a number of disease states (6, 7). Eosinophils are proinflammatory granulocytes that play a major role in allergic diseases, such as bronchial asthma (8), allergic rhinitis (9), atopic dermatitis (10), and eosinophilic gastroenteritis (11). Upon activation, eosinophils release lipid mediators, cytotoxic proteins, oxygen metabolites, and cytokines, all of which have the potential to produce pathophysiology. Recent studies have clearly demonstrated the presence of eosinophils or eosinophil-specific products in inflamed lung biopsy tissues in human asthma (10).Although the molecular mechanism responsible for the selective infiltration of eosinophils into inflamed tissue has not been elucidated, recently the CC chemokine eotaxin was identified in guinea pig lung following antigen challenge in sensitized guinea pigs (12, 13). Furthermore, neutralizing antibodies to eotaxin in a mouse model of allergy demonstrated inhibition of eosinophil recruitment when administered before the antigen challenge (14). Five CCR3 ligands have been shown to induce eosinophil transendothelial migration using human umbilical vein endothelial cells. This migration is inhibited by pretreatment with anti-CCR3. In addition, a human lung epithelial cell line (BEAS-2B), stimulated with proinflammatory cytokines, has been shown to produce eotaxin and 16). In humans, biopsies obtained from asthmatic lung have shown increased levels of CCR3 and its ligands, eotaxin, eotaxin-2, RANTES, and MCP-4, both at the mRNA and pro-* The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.§ To whom correspondence should be addressed: Dept. of Immunology, SmithKline Beecham Pharmaceuticals, 709 Swedeland Rd., King of ...
A new CC chemokine, designated CKβ-8 or myeloid progenitor inhibitor factor-1, was recently identified in a large scale sequencing effort and was cloned from a human aortic endothelial library. CKβ-8 cDNA encodes a signal sequence of 21 amino acids, followed by a 99-amino acid predicted mature form. CKβ-8 was expressed and purified from a baculovirus insect cell expression system, which resulted in the identification of different N-terminal variants of the secreted chemokine. The three major forms (containing amino acids 1–99, 24–99, and 25–99 of the secreted chemokine) showed a large variation in potency. CKβ-8 activated both monocytes and eosinophils to mobilize intracellular calcium; however, the shortest form of CKβ-8 (25–99) was >2 orders of magnitude more potent than the longest form. Cross-desensitization experiments in both monocytes and eosinophils suggested that the CCR1 receptor was probably the predominant receptor that mediates this chemokine’s physiologic response. However, incomplete desensitization was encountered in both cell systems, suggesting involvement of an additional receptor(s). Interestingly, the short form of CKβ-8 was the most potent chemotactic chemokine that we have ever evaluated in the monocyte system (EC50 = 54 pM). However, in contrast to its action on monocytes, CKβ-8 was a very poor chemotactic factor for eosinophils.
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