Prolactin receptor is involved in normal lactation and reproduction; however, excessive prolactin levels can cause various reproductive disorders such as prolactinomas. Small-molecule antagonists against the human prolactin receptor (hPRLr) thus have potential clinical applications and may serve as useful molecular probes in biomedical research. In this work, we synthesized a large, support-bound cyclic peptide library (theoretical diversity of 1.2x10(7)) on 90-microm TentaGel beads and screened it against the extracellular domain of hPRLr. To facilitate hit identification, each TentaGel bead was spatially segregated into outer and inner layers, with a cyclic peptide displayed on the bead surface while the bead interior contained the corresponding linear peptide. The identity of a positive bead was revealed by sequencing the linear encoding peptide within the bead by partial Edman degradation/mass spectrometry. Screening of the library resulted in 20 hits, two of which were selected for further analysis and shown to bind to hPRLr with dissociation constants of 2-3 microM.