Preparation of soluble isotopically labeled NKp30, a human natural cytotoxicity receptor, for structural studies using NMR

Insights into stability, dimerisation, and ligand binding properties of Siglec-7: Isotope labelling in HEK293 cells for protein characterisation by NMR spectroscopy

Siglec-7, an immune checkpoint receptor, has emerged as a promising target for cancer immunotherapy due to its involvement in the regulation of immune and inflammatory responses. However, while its participation in immunoediting and immune evasion is well established, understanding its biological context, relevant ligands, and associated signalling pathways remains limited. Understanding these aspects is crucial for the development of effective immunotherapies targeting Siglec-7. In this study, three expression constructs of Siglec-7 were designed, expressed, and characterised, including an analysis of the oligomeric state of its extracellular domain. The N-terminal V-set Ig carbohydrate recognition domain was also produced in an isotopically double-labelled (13C,15N) mammalian cell growth medium. Two stable constructs suitable for biophysical and structural studies were identified. These findings reveal the noncovalent dimerisation of Siglec-7, offering new insights into its possible ligand interactions, signal transduction mechanisms, or receptor/ligand clustering. The dimerisation of Siglec-7 may be essential to achieve multivalent, high-avidity interactions with glycoconjugates, which may result in enhanced or alternative signalling processes within the NK cell immune synapse. In addition, a detailed protocol for generating double-labelled Siglec-7 in HEK293 cells, which may apply to other proteins under similar conditions, was described. These findings contribute to a better understanding of the biophysical and structural properties of Siglec-7 and are key to the design of more precise and effective cancer immunotherapies targeting Siglec-7.

Homo-oligomerization of the activating natural killer cell receptor NKp30 ectodomain increases its binding affinity for cellular ligands

The natural cytotoxicity receptors, comprised of three type I membrane proteins NKp30, NKp44, and NKp46, are a unique set of activating proteins expressed mainly on the surface of natural killer (NK) cells. Among these, NKp30 is a major receptor targeting virus-infected cells, malignantly transformed cells, and immature dendritic cells. To date, only few cellular ligands of NKp30 have been discovered, and the molecular details of ligand recognition by NKp30 are poorly understood. Within the current study, we found that the ectodomain of NKp30 forms functional homo-oligomers that mediate high affinity binding to its corresponding cellular ligand B7-H6. Notably, this homo-oligomerization is strongly promoted by the stalk domain of NKp30. Based on these data, we suggest that homo-oligomerization of NKp30 in the plasma membrane of NK cells, which might be favored by IL-2-dependent up-regulation of NKp30 expression, provides a way to improve recognition and lysis of target cells by NK cells.