CCR1 Protein: A Chemokine Receptor at the Crossroads of Immunity and Disease

<?xml encoding="utf-8" ?>Chemokines and their receptors form one of the most intricate signaling networks in immunology. Among them, CCR1 (C-C chemokine receptor type 1) has attracted attention for its dual role as both a guardian of host defense and a potential driver of chronic inflammation and cancer progression. For researchers, CCR1 is more than a seven-transmembrane G protein–coupled receptor (GPCR)—it is a molecular switch that can reshape immune landscapes under stress, infection, or pathological remodeling. CCR1 in the Chemokine Network <a href="https://www.creativebiomart.net/symbolsearch_ccr1.htm" target="_blank" rel=" noopener">CCR1</a> recognizes a broad range of ligands, including CCL3 (MIP-1α), CCL5 (RANTES), and CCL7 (MCP-3). This ligand diversity makes CCR1 unusually versatile. In acute infection, CCR1 recruits monocytes and neutrophils to sites of microbial invasion. In autoimmune conditions, the same receptor-ligand pairings can amplify destructive inflammation. This contextual behavior makes CCR1 a prime candidate for therapeutic modulation. Unlike receptors with highly selective ligand pools, CCR1’s redundancy ensures robustness of immune response but complicates therapeutic targeting. Blocking CCR1 can blunt harmful inflammation but risks impairing protective immunity. Clinical Relevance: From Autoimmunity to Oncology In autoimmune diseases such as multiple sclerosis, rheumatoid arthritis, and inflammatory bowel disease, CCR1 signaling sustains leukocyte infiltration into tissues. Elevated CCR1 expression correlates with disease severity, suggesting it could serve as both biomarker and therapeutic target. In oncology, CCR1-mediated chemotaxis is increasingly recognized as a driver of the tumor microenvironment. Tumor-associated fibroblasts and macrophages often express CCR1, where they help establish pro-tumor niches by promoting angiogenesis and suppressing anti-tumor immunity. In liver metastases, CCR1 signaling has been implicated in preparing pre-metastatic niches. In infectious disease, CCR1 shows a double-edged effect: while essential for pathogen clearance, some pathogens hijack CCR1-mediated migration to spread infection or induce immunopathology. Experimental Approaches Using CCR1 Protein Studying CCR1 requires both recombinant CCR1 protein and functional cell-based assays. Recombinant extracellular domains of CCR1 are used to: <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">Map ligand-binding interactions with <a href="https://www.creativebiomart.net/gene-family-9-chemokines.htm" target="_blank" rel=" noopener">chemokines</a> and antibodies</li> </ol> <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">Screen for small-molecule or peptide inhibitors</li> </ol> <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">Generate high-affinity monoclonal antibodies for therapeutic exploration</li> </ol> In contrast, full-length CCR1 expressed in mammalian or insect cells enables GPCR signaling assays, including calcium flux, β-arrestin recruitment, and second messenger activation. These tools help dissect CCR1’s biased signaling and ligand selectivity. Emerging Research Directions <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">Biased Agonism: Not all CCR1 ligands trigger identical signaling. Some favor G-protein pathways, others promote β-arrestin–dependent responses. Recombinant CCR1 is a key platform to unravel this bias, with implications for drug design.</li> </ol> <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">CCR1 in Fibrosis: Beyond immune recruitment, CCR1 contributes to fibroblast activation in liver, kidney, and lung fibrosis. Blocking CCR1 may attenuate pathological remodeling without completely abolishing immune defense.</li> </ol> <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">CCR1 and Aging Immunity: Early evidence suggests CCR1 expression shifts with age, influencing immune surveillance and chronic inflammation in elderly populations.</li> </ol> Choosing CCR1 Protein Products for Research When selecting CCR1-related reagents, researchers should consider: <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">Expression system: E. coli is insufficient for full-length CCR1 due to misfolding; mammalian or insect systems preserve correct folding and post-translational modifications.</li> </ol> <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">Application type: Extracellular domains are suitable for ligand-binding assays, while full-length CCR1 is essential for signaling studies.</li> </ol> <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">Validation: Products validated for ELISA, flow cytometry, or ligand-binding kinetics provide higher confidence in reproducibility.</li> </ol> <ol start="12" style="list-style-type:lower-alpha"> <li style="text-align:justify" value="50">Tagging: His-tag or Fc-fusion formats can enhance purification and detection, depending on downstream use.</li> </ol> Frequently Asked Questions (FAQ) About CCR1 Protein Q1. Are CCR1 inhibitors being developed as therapeutic agents?Yes. Several small-molecule CCR1 antagonists have been tested in clinical trials for autoimmune diseases such as rheumatoid arthritis and multiple sclerosis. While some compounds showed limited efficacy, research continues, particularly in oncology and fibrosis, where CCR1 blockade may reduce disease progression. Q2. How can CCR1 expression be detected in tissues?CCR1 expression can be measured by flow cytometry using validated anti-CCR1 antibodies, by immunohistochemistry in tissue sections, or at the transcript level using qPCR and RNA-seq. For protein-level quantification, ELISA and western blotting remain widely used. Q3. What are the challenges of working with recombinant CCR1 protein?As a <a href="https://www.creativebiomart.net/gene-family-1-gpcrs.htm" target="_blank" rel=" noopener">GPCR</a>, CCR1 is difficult to express in its full-length form due to complex folding and membrane integration. Researchers often use extracellular domains for ligand-binding studies. For signaling assays, mammalian expression systems are preferred to ensure functional receptor conformation. Q4. What are the main ligands for CCR1?CCR1 binds multiple chemokines, including CCL3 (MIP-1α), CCL5 (RANTES), CCL7 (MCP-3), and CCL23. This broad ligand recognition underpins its versatility but also makes therapeutic targeting challenging. Q5. How does CCR1 differ from other chemokine receptors?CCR1 is unique for its broad ligand spectrum and role in both protective immunity and chronic inflammation. Compared with CCR5 or CCR2, which have narrower or more tissue-restricted roles, CCR1 is more multifunctional but harder to target selectively. Conclusion CCR1 protein sits at the intersection of host defense, inflammation, and pathology. Its broad ligand recognition and role in shaping the immune microenvironment make it a powerful but complex therapeutic target. For researchers, recombinant CCR1 protein and its assays open a window into chemokine biology, revealing how a single receptor can influence outcomes as diverse as infection clearance, autoimmune flare, and tumor progression. Harnessing CCR1’s biology requires not only biochemical precision but also careful experimental design. With high-quality recombinant proteins and targeted assays, the research community is now poised to unravel CCR1’s duality—and perhaps transform it from a driver of disease into a target for therapy.