The cholesterol-dependent cytolysins (CDCs) are key virulence factors expressed by many pathogenic Gram-positive bacteria, including the Streptococci. The defining feature of the CDCs is the ability to form pores in cholesterol-containing membranes. Because the CDC’s cytolytic mechanism depends on the presence of cholesterol in the target cell membrane it was believed that cholesterol served as the main cellular receptor for these toxins. Using glycan microarrays and surface plasmon resonance, we have identified high affinity interactions between all CDCs examined (n=7) and glycan structures. These CDCs include: pneumolysin (Ply), streptolysin O (SLO), listeriolysin O (LLO), perfringolysin O (PFO), intermedilysin (ILY), lectinolysin (LLY) and suilysin (SLY). Using human red blood cell hemolytic assays we demonstrate that the identified glycan targets can inhibit CDC mediated lysis when provided in solution as free oligosaccharides, thereby supporting their role as cellular receptors. ILY is unique among the CDCs in that it has previously been reported to use the glycoprotein CD59 as a receptor. We demonstrate that removal of the O-linked glycan from CD59 reduced binding of ILY to CD59, indicating that the glycan component of CD59 is key for receptor recognition. Our results indicate that lectin activity is a widespread feature among the CDCs. We propose that surface glycoproteins and/or glycolipids act as high-affinity cellular receptors for these toxins and dictate the tropism of these toxins.