AI Article Synopsis
- Chemokines play a role in neuroinflammatory diseases and may be involved in vision loss related to age, but their specific roles in this context are unclear.
- This study developed human and mouse recombinant sulfated CXCR3 peptide traps to assess their effects on choroidal neovascularization (CNV) and chemotaxis in vivo.
- Results showed that these peptide traps inhibited cancer cell migration and effectively reduced CNV and macrophage recruitment in mouse models, suggesting their potential as an additional treatment for age-related macular degeneration (AMD).
Article Abstract
Background And Objectives: Chemokines have various biological functions and potential roles in the development or progression of neuroinflammatory diseases. However, the specific pathogenic roles of chemokines in the major cause for vision loss among the elderly, the leading cause of blindness in older individuals, remain elusive. Chemokines interact with their receptors expressed in the endothelium and on leukocytes. The sulfation of tyrosine residues in chemokine receptors increases the strength of ligand-receptor interaction and modulates signaling. Therefore, in the present study, we aimed to construct a human recombinant sulfated CXCR3 peptide trap (hCXCR3-S2) and mouse recombinant sulfated CXCR3 peptide trap (mCXCR3-S2) to demonstrate in vivo effects in preventing choroidal neovascularization (CNV) and chemotaxis.
Materials And Methods: We generated expression vectors for and with domains and their respective cDNA sequences. Following overexpression in , we purified the fusion proteins from cell lysates using affinity chromatography. First, the impact of hCXCR3-S2 was validated in vitro. Subsequently, the in vivo efficacy of mCXCR3-S2 was investigated using a laser-induced CNV mouse model, a mouse model of neovascular age-related macular degeneration (AMD).
Results: hCXCR3-S2 inhibited the migration and invasion of two human cancer cell lines. Intravitreal injection of mCXCR3-S2 attenuated CNV and macrophage recruitment in neovascular lesions of mouse models. These in vitro and in vivo effects were significantly stronger with CXCR3-S2 than with wild-type CXCR3 peptides.
Conclusion: These findings demonstrate that the sulfated form of the CXCR3 peptide trap is a valuable tool that could be supplemented with antivascular endothelial growth factors in AMD treatment.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10813770 | PMC |
| http://dx.doi.org/10.3390/biomedicines12010241 | DOI Listing |
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