θ-Defensins are lectin-like, cyclic octadecapeptides found in the leukocytes of nonhuman primates. They are also homologues of the more familiar α-defensins expressed by humans and certain other mammals. This study compares the ability of six θ-defensins (hominid retrocyclins 1–3 and rhesus θ-defensins 1–3) and four human α-defensins (human neutrophil peptides (HNPs) 1–4) to bind gp120 and CD4. In addition, we compared the ability of these θ-defensins and HNP-1 to protect J53-BL cells (an indicator cell line) from primary HIV-1 isolates that varied in subtype and coreceptor usage. The most potent θ-defensin, retrocyclin-2, bound with exceptionally high affinity to gp120 (K D, 9.4 nM) and CD4 (K D, 6.87 nM), and its effectiveness against subtype B isolates (IC 50, 1.05±0.28 μg/ml; 520±139 nM) was approximately twice as great as that of HNP-1 on a molar basis. We also show, for the first time, that human α-defensins, HNPs 1–3, are lectins that bind with relatively high affinity to gp120 (K D range, 15.8–52.8 nM) and CD4 (K D range, 8.0–34.9 nM). Proteins found in human and FBS bound exogenous HNP-2 and retrocyclin-1, and competed with their ability to bind gp120. However, even the low concentrations of α-defensins found in normal human serum suffice to bind over half of the gp120 spikes on HIV-1 and a higher percentage of cell surface CD4 molecules. Although this report principally concerns the relationship between carbohydrate-binding and the antiviral properties of α-and θ-defensins, the lectin-like behavior of defensins may contribute to many other activities of these multifunctional peptides.