What is an Aptamer? An aptamer is a short, single-stranded DNA or RNA oligonucleotide that folds into a specific 3D structure, allowing it to bind to a target molecule (like a cytokine) with high affinity and specificity, akin to a monoclonal antibody. Why Target Cytokines with Aptamers? Cytokines are key signaling proteins in immune and inflammatory responses. Dysregulation is implicated in diseases like: Autoimmune disorders: Rheumatoid arthritis, psoriasis, inflammatory bowel disease. Cancer: Tumor microenvironment signaling. Cytokine Storms: Severe COVID-19, sepsis. Neurological diseases. Aptamers offer advantages over traditional antibody-based therapies: High Specificity: Can distinguish between closely related cytokine isoforms or conformational states. Controlled Synthesis: Chemically produced, no batch-to-batch variation. Modifiability: Easily conjugated with drugs, fluorophores, or nanoparticles. Low Immunogenicity: Less likely to cause an immune response. Stability: Generally more stable than proteins. The Aptamer Screening Service Workflow (SELEX) A professional service will manage the entire SELEX (Systematic Evolution of Ligands by EXponential Enrichment) process. Here’s a typical pipeline: Phase 1: Project Design & Target Preparation Consultation: Define the goal—neutralization, detection, or delivery. Target Selection: Which cytokine? (e.g., TNF-α, IL-6, IL-1β, IFN-γ). Requires a high-purity, bioactive protein. Services often help with recombinant expression/purification if needed. Library Design: A vast random-sequence oligonucleotide library (10^14-10^15 unique sequences) is the starting point. Libraries can be DNA, RNA, or contain modified…
What is Solution-Phase SELEX? SELEX (Systematic Evolution of Ligands by EXponential Enrichment) is the iterative process used to discover aptamers—single-stranded DNA or RNA molecules that bind to a specific target with high affinity and specificity. Solution-Phase SELEX refers to performing the selection process with the target molecule free in solution, rather than immobilized on a solid surface (like beads or a column). This often involves a partitioning step that separates bound from unbound sequences using a method like filtration, capillary electrophoresis, or magnetic bead capture of the target. Key Advantages of Solution-Phase SELEX Preservation of Native Target Conformation: The target is in its natural, free state in solution. This is crucial for complex targets like membrane proteins, which can denature or present epitopes unnaturally when immobilized. Access to All Binding Sites: All surfaces of the target are available for aptamer binding, increasing the diversity of potential aptamers discovered. Avoidance of Non-Specific Binding to Solid Support: Reduces background noise from library sequences sticking to the immobilization matrix (e.g., sepharose beads, plastic wells), leading to cleaner selections. Better for Small Molecules and Peptides: Ideal for targets that are difficult to immobilize without blocking their functional groups. Mimics Physiological Conditions: More closely replicates how the aptamer will interact with its target in real-world applications…
