Expansion microscopy (ExM) is an innovative approach to achieve super-resolution images without using super-resolution microscopes, based on the physical expansion of the sample. The advent of ExM has unlocked super-resolution imaging for a broader scientific circle, lowering the cost and entry skill requirements to the field. One of its branches, ultrastructure ExM (U-ExM), has become popular among research groups studying Apicomplexan parasites, including the acute stage of Toxoplasma gondii infection. The chronic cyst-forming stage of Toxoplasma, however, resists U-ExM expansion, impeding precise protein localisation. Here, we solve the in vitro cyst’s resistance to denaturation required for successful U-ExM of the encapsulated parasites. As the cyst’s main structural protein CST1 contains a mucin domain, we added an enzymatic digestion step using the pan-mucinase StcE prior to the expansion protocol. This allowed full expansion of the cysts in fibroblasts and primary neuronal cell culture without interference with the epitopes of the cyst-wall associated proteins. Using StcE-enhanced U-ExM, we clarified the shape and location of the GRA2 protein important for establishing a normal cyst. Expanded cysts revealed GRA2 granules spanning across the cyst wall, with a notable presence observed outside on both sides of the CST1-positive layer.

Importance Toxoplasma gondii is an intracellular parasite capable of establishing long-term chronic infection in nearly all warm-blooded animals. During the chronic stage, parasites encapsulate into cysts in a wide range of tissues but particularly in neurons of the central nervous system and in skeletal muscle. Current anti-Toxoplasma drugs do not eradicate chronic parasites and leave behind a reservoir of infection. As the cyst is critical for both transmission and pathology of the disease, we need to understand more fully the biology of the cyst and its vulnerabilities.

The advent of a new super-resolution approach called ultrastructure expansion microscopy allowed in-depth studies of the acute stage of Toxoplasma infection but not the cyst-forming stage, which resists protocol-specific denaturation. Here, we show that an additional step of enzymatic digestion using mucinase StcE allows full expansion of the Toxoplasma cysts, offering a new avenue for a comprehensive examination of the chronic stage of infection using an accessible super-resolution technique.

Glycans are one of the fundamental biopolymers encountered in living systems. Compared to polynucleotide and polypeptide biosynthesis, polysaccharide biosynthesis is a uniquely combinatorial process to which interdependent enzymes with seemingly broad specificities contribute. The resulting intracellular cell surface, and secreted glycans play key roles in health and disease, from embryogenesis to cancer progression. The study and modulation of glycans in cell and organismal biology is aided by small molecule inhibitors of the enzymes involved in glycan biosynthesis. In this review, we survey the arsenal of currently available inhibitors, focusing on agents which have been independently validated in diverse systems. We highlight the utility of these inhibitors and drawbacks to their use, emphasizing the need for innovation for basic research as well as for therapeutic applications.